#10-5446 (Douglas N. Higgins, Inc.)
eoft~County
AdrTinil;b<:llive Services DMelon-
Pun;;hl!l$irlg
NCWRF Compliance Assurance Project
COLLIER COUNTY BID NO. 10-5446
COLLIER COUNTY, FLORIDA
Design Professional:
Hole Montes, Inc.
(j)
PuIdlasingOepar'lrreol:' 3301 TilmiamiTrail East. Naples, Florida 34112. www.colliergov.netfpurchasJng
TABLE OF CONTENTS
A. PUBLIC NOTICE/LEGAL ADVERTISEMENT (PAGE 1 ONLY)
B. INSTRUCTIONS TO BIDDERS
C. BID, BID SCHEDULE AND OTHER DOCUMENTS
D. AGREEMENT
E. AGREEMENT EXHIBITS
EXHIBIT A: Performance and Payment Bond Forms
EXHIBIT B: Insurance Requirement Form
EXHIBIT C: Release and Affidavit Form
EXHIBIT D: Contractor Application for Payment Form
EXHIBIT E: Change Order Form
EXHIBIT F: Certificate of Substantial Completion Form
EXHIBIT G: Final Payment Checklist
EXHIBIT H: General Terms and Conditions
EXHIBIT I: Supplemental Terms and Conditions
EXHIBIT J: Technical Specifications
EXHIBIT K: Permits
EXHIBIT L: Standard Details (if applicable)
EXHIBIT M: Plans and Specifications prepared by Hole Montes, inc.
and identified as follows: NCWRF Compliance Assurance Project
as shown on Plan Sheets 1 through 177.
EXHIBIT N: Contractor's List of Key Personnel
eoLCounty
AdrrinisllaIive Serv~ Divislon-
Purchasing
PUBLIC NOTICE
INVITATION TO BID
COLLIER COUNTY, FLORIDA
NCWRF Compliance Assurance Project
COUNTY BID NO. 10-5446
Separate sealed bids for the construction of NCWRF Compliance Assurance Project,
addressed to Mr. Steve Carnell, Purchasing Director, will be received at the Collier
County Government Complex, 3301 Tamiami Trail East, Purchasing Building,
Purchasing Department, Naples, Florida 34112, until 2:30 P.M. LOCAL TIME, on the
5th day of March, 2010, at which time all bids will be publicly opened and read aloud.
Any bids received after the time and date specified will not be accepted and shall be
returned unopened to the Bidder.
A non-mandatory pre-bid conference shall be held at the Purchasing Department,
Conference Room A, Purchasing Building "G" at 10:00 a.m. LOCAL TIME on the 17th
day of February, 2010, at which time all prospective Bidders may have questions
answered regarding the Bidding Documents for this Project. All Bidders shall submit all
questions via the OnLine Bidding System located at colliergov.net\bid. All questions will
be answered in the Online Bidding System. The Engineer's Estimate for this project is
Thirteen Million Four hundred thousand Dollars (13,400,000.00).
Sealed envelopes containing bids shall be marked or endorsed "Bid for Collier County
Government, Collier County, NCWRF Compliance Assurance Project Bid No. 10-5446
and Bid Date of March 5, 2010". No bid shall be considered unless it is made on an
unaltered Bid form which is included in the Bidding Documents. The Bid Schedule (GC-
P-1 through GC-P-16) shall be removed from the Bidding Documents prior to submittal.
One contract will be awarded for all Work. Bidding Documents may be examined on the
Collier County Purchasing Department E-Procurement website: www.collieraov.netlbid.
Copies of the Bidding Documents may be obtained only from the denoted website.
Bidding Documents obtained from sources other than the Collier County Purchasing
Department website may not be accurate or current.
Each bid shall be accompanied by a certified or cashiers check or a Bid Bond in an
amount not less than five percent (5%) of the total Bid to be retained as liquidated
damages in the event the Successful Bidder fails to execute the Agreement and file the
required bonds and insurance within fifteen (15) calendar days after the receipt of the
Notice of Award. The Successful Bidder acknowledges and agrees that it shall execute
the Agreement in the form attached hereto and incorporated herein.
GC.PN-1
The Successful Bidder shall be required to furnish the necessary Payment and
Performance Bonds, as prescribed in the General Conditions of the Contract
Documents. All Bid Bonds, Payment and Performance Bonds, Insurance Contracts and
Certificates of Insurance shall be either be executed by or countersigned by a licensed
resident agent of the surety or insurance company having its place of business in the
State of Florida. Further, the said surety or insurance company shall be duly licensed
and qualified to do business in the State of Florida. Attorneys-in-fact that sign Bid
Bonds or Payment and Performance Bonds must file with each bond a certified and
effective dated copy of their Power of Attorney.
In order to perform public work, the Successful Bidder shall, as applicable, hold or
obtain such contractor's and business licenses, certifications and registrations as
required by State statutes and County ordinances.
Before a contract will be awarded for the Work contemplated herein, the Owner shall
conduct such investigations as it deems necessary to determine the performance record
and ability of the apparent low Bidder to perform the size and type of work specified in
the Bidding Documents. Upon request, the Bidder shall submit such information as
deemed necessary by the Owner to evaluate the Bidder's qualifications.
The Successful Bidder shall be required to finally complete all Work within the calendar
days listed below from and after the Commencement Date specified in the Notice to
Proceed.
Project Substantial Completion Final Completion (DayslDates)
/Davs/Datesl
1) Pond NO.2 AUQust1,2010 ALJQust27,2010
2) All other work 485 100
The Owner reserves the right to reject all Bids or any Bid not conforming to the intent
and purpose of the Bidding Documents, and to postpone the award of the contract for a
period of time which, however, shall not extend beyond one hundred twenty (120) days
from the bid opening date without the consent of the Successful Bidder.
Dated this 29th day of January, 2010.
BOARD OF COUNTY COMMISSIONERS
COLLIER COUNTY, FLORIDA
BY: /s/ Stephen Y. Carnell
Purchasing/General Services Director
GC-PN-2
PART B - INSTRUCTIONS TO BIDDERS
Section 1. Definitions
1.1 The term "Owner" used herein refers to the Board of County Commissioners, or
its duly authorized representative.
1.2 The term "Project Manager" used herein refers to the Owner's duly authorized
representative and shall mean the Division Administrator or Department Director, as
applicable, acting directly or through duly authorized representatives.
1.3 The term "Design Professional" refers to the licensed professional engineer or
architect who is in privity with the Owner for the purpose of designing and/or monitoring
the construction of the project. At the Owner's discretion, any or all duties of the Design
Professional referenced in the Contract Documents may be assumed at any time by the
Project Manager on behalf of the Owner. Conversely, at the Owner's discretion the
Project Manager may formally assign any of his/her duties specified in the Contract
Documents to the Design Professional.
1.4 The term "Bidder" used herein means one who submits a bid directly to the
Owner in response to this solicitation.
1.5 The term "Successful Bidder" means the lowest qualified, responsible and
responsive Bidder who is awarded the contract by the Board of County Commissioners,
on the basis of the Owner's evaluation.
1.6 The term "Bidding Documents" includes the Legal Advertisement, these
Instructions to Bidders, the Bid Schedule and the Contract Documents as defined in the
Agreement.
1.7 The term "Bid" shall mean a completed Bid Schedule, bound in the Bidding
Documents, properly signed, providing the Owner a proposed cost for providing the
services required in the Bidding Documents.
Section 2. Preparation of Bids
2.1 The Bids must be submitted on the standard form herein furnished by the Owner
(pages GC-P-1 to GC-P-16 as bound in these Bidding Documents). By submitting a Bid,
Bidder acknowledges and agrees that it shall execute the Agreement in the form
attached hereto and incorporated herein. The Bidder shall complete the Bid in ink or by
typewriter and shall sign the Bid correctly. Bid Schedules submitted on disk/CD shall be
accompanied by a hard copy of the completed Bid Schedule which shall be signed and
dated by the Bidder. The Bid may be rejected if it contains any omission, alteration of
form, conditional bid or irregularities of any kind. Bids must be submitted in sealed
envelopes, marked with the Bid Number, Project Name and Bid opening Date and Time,
and shall be addressed to the Collier County Purchasing Department, Purchasing
Building, Collier County Government Complex, 3301 Tamiami Trail, East, Naples,
Florida 34112. If forwarded by mail, the sealed envelope containing the Bid must be
GC-IB-1
enclosed in another sealed envelope addressed as above. Bids received at the
location specified herein after the time specified for bid opening will be returned to the
bidder unopened and shall not be considered.
Section 3. Bid Deposit Reauirements
3.1 No Bid shall be considered or accepted unless at the time of Bid filing the same
shall be accompanied by a cashiers check, a cash bond posted with the County Clerk, a
certified check payable to Owner on some bank or trust company located in the State
of Florida insured by the Federal Deposit Insurance Corporation, or Bid Bond, in an
amount not less than 5% of the bidder's maximum possible award (base bid plus all
add alternates) (collectively referred to herein as the "Bid Deposit"). The Bid Deposit
shall be retained by Owner as liquidated damages if the Successful Bidder fails to
execute and deliver to Owner the unaltered Agreement, or fails to deliver the required
Performance and Payment Bonds or Certificates of Insurance, all within ten (10)
calendar days after receipt of the Notice of Award. Bid Bonds shall be executed by a
corporate surety licensed under the laws of the State of Florida to execute such bonds,
with conditions that the surety will, upon demand, forthwith make payment to Owner
upon said bond. Bid Deposits of the three (3) lowest Bidders shall be held until the
Agreement has been executed by the Successful Bidder and same has been delivered
to Owner together with the required bonds and insurance, after which all three (3) Bid
Deposits shall be returned to the respective Bidders. All other Bid Deposits shall be
released within ten (10) working days of the Bid Opening. No Bid including alternates,
shall be withdrawn within one hundred and twenty (120) days after the public opening
thereof. If a Bid is not accepted within said time period it shall be deemed rejected and
the Bid Deposit shall be returned to Bidder. In the event that the Owner awards the
contract prior to the expiration of the one hundred and twenty (120) day period without
selecting any or all alternates, the Owner shall retain the right to subsequently award to
the Successful Bidder said alternates at a later time but no later than one hundred and
twenty (120) days from opening, unless otherwise agreed by the Purchasing Director
and the Successful Bidder.
3.2 The Successful Bidder shall execute five (5) copies of the Agreement in the form
attached and deliver same to Owner within the time period noted above. The Owner
shall execute all copies and return one fully executed copy of the Agreement to
Successful Bidder within thirty (30) working days after receipt of the executed
Agreement from Successful Bidder unless any governmental agency having funding
control over the Project requires additional time, in which event the Owner shall have
such additional time to execute the Agreement as may be reasonably necessary.
Section 4. Riaht to Reiect Bids
4.1 The Owner reserves the right to reject any and all Bids or to waive informalities
and negotiate with the apparent lowest, qualified Bidder to such extent as may be
necessary for budgetary reasons.
GC-IB-2
Section 5. SianinQ of Bids
5.1 Bids submitted by a corporation must be executed in the corporate name by the
president, a vice president, or duly authorized representative. The corporate address
and state of incorporation must be shown below the signature.
5.2 Bids by a partnership must be executed in the partnership name and signed by a
general partner whose title must appear under the signature and the official address of
the partnership must be shown below said signature.
5.3 If Bidder is an individual, his or her signature shall be inscribed.
5.4 If signature is by an agent or other than an officer of corporation or general
partner of partnership, a properly notarized power of attorney must be submitted with
the Bid.
5.5 All Bids shall have names typed or printed below all signatures.
5.6 All Bids shall state the Bidder's contractor license number.
5.7 Failure to follow the provisions of this section shall be grounds for rejecting the
Bid as irregular or unauthorized.
Section 6. Withdrawal of Bids
Any Bid may be withdrawn at any time prior to the hour fixed in the Legal Advertisement
for the opening of Bids, provided that the withdrawal is requested in writing, properly
executed by the Bidder and received by Owner prior to Bid Opening. The withdrawal of
a Bid will not prejudice the right of a Bidder to file a new Bid prior to the time specified
for Bid opening.
Section 7. Late Bids
No Bid shall be accepted that fails to be submitted prior to the time specified in the
Legal Advertisement.
Section 8. Interpretation of Contract Documents
8.1 No interpretation of the meaning of the plans, specifications or other Bidding.
Documents shall be made to a Bidder orally. Any such oral or other interpretations or
clarifications shall be without legal effect. All requests for interpretations or clarifications
shall be in writing, addressed to the Purchasing Department, to be given consideration.
All such requests for interpretations or clarification must be received at least ten (10)
calendar days prior to the Bid opening date. Any and all such interpretations and
supplemental instructions shall be in the form of written addendum which, if issued,
shall be sent by mail or fax to all known Bidders at their respective addresses furnished
for such purposes no later than three (3) working days prior to the date fixed for the
GC-IB-3
opening of Bids. Such written addenda shall be binding on Bidder and shall become a
part of the Bidding Documents.
8.2 It shall be the responsibility of each Bidder to ascertain, prior to submitting its Bid,
that it has received all addenda issued and it shall acknowledge same in its Bid.
8.3 As noted in the Legal Advertisement, attendance by all bidders at the Pre-Bid
Conference is non-mandatory.
Section 9. Examination of Site and Contract Documents
9.1 By executing and submitting its Bid, each Bidder certifies that it has:
a. Examined all Bidding Documents thoroughly;
b. Visited the site to become familiar with local conditions that may in any manner
affect performance of the Work;
c. Become familiar with all federal, state and local laws, ordinances, rules, and
regulations affecting performance of the Work; and
d. Correlated all of its observations with the requirements of Bidding documents.
No plea of ignorance of conditions or difficulties that may exist or conditions or
difficulties that may be encountered in the execution of the Work pursuant to these
Bidding Documents as a result of failure to make the necessary examinations and
investigations shall be accepted as an excuse for any failure or omission on the part of
the Successful Bidder, nor shall they be accepted as a basis for any claims whatsoever
for extra compensation or for an extension of time.
9.2 The Owner will make copies of surveys and reports performed in conjunction with
this Project available to any Bidder requesting them at cost; provided, however, the
Owner does not warrant or represent to any Bidder either the completeness or accuracy
of any such surveys and reports. Before submitting its Bid, each Bidder shall, at its own
expense, make such additional surveys and investigations as may be necessary to
determine its Bid price for the performance of the Work within the terms of the Bidding
Documents. This provision shall be subject to Section 2.3 of the General Conditions to
the Agreement.
Section 10. Material Reauirements
It is the intention of these Bidding Documents to identify standard materials. When
space is provided on the Bid Schedule, Bidders shall specify the materials which they
propose to use in the Project. The Owner may declare any Bid non-responsive or
irregular if such materials are not specifically named by Bidder.
GC-IB-4
Section 11. Bid Quantities
11.1 Quantities given in the Bid Schedule, while estimated from the best information
available, are approximate only. Payment for unit price items shall be based on the
actual number of units installed for the Work. Bids shall be compared on the basis of
number of units stated in the Bid Schedule as set forth in the Bidding Documents. Said
unit prices shall be multiplied by the bid quantities for the total Bid price. Any Bid not
conforming to this requirement may be rejected. Special attention to all Bidders is
called to this provision, because if conditions make it necessary or prudent to revise the
unit quantities, the unit prices will be fixed for such increased or decreased quantities.
Compensation for such additive or subtractive changes in the quantities shall be limited
to the unit prices in the Bid. Subsequent to the issuance of a notice to proceed, the
Project Manager and the Successful Bidder shall have the discretion to re-negotiate any
unit price(s) where the actual quantity varies by more than 25% from the estimate at the
time of bid.
11.2 Alternate Bid Pricina: In the event that alternate pricing is requested, it is an
expressed requirement of the bid invitation to provide pricing for all alternates as listed.
The omission of a response or a no-bid or lack of a submitted price may be the basis for
the rejection of the submitted bid response. All bids responses received without pricing
for all alternates as listed will be considered technically non-responsive and will not be
considered for award.
Section 12. Award of Contract
12.1 Any prospective bidder who desires to protest any aspect(s) or provision(s) of the
bid invitation (including the form of the bid documents or bid procedures) shall file their
protest with the Purchasing Director prior to the time of the bid opening strictly in
accordance with Owner's then current Purchasing Policy.
12.2 Statement of Award: The Award of Contract shall be issued to the lowest,
responsive and qualified Bidder determined by the base bid, and any, or all, selected
alternates, and the Owner's investigations of the Bidder. In determining the lowest,
responsive and qualified bidder, the Owner shall consider the capability of the Bidder to
perform the contract in a timely and responsible manner. When the contract is awarded
by Owner, such award shall be evidenced by a written Notice of Award, signed by a
Purchasing Agent of the Owner's Purchasing Department or his or her designee and
delivered to the intended awardee or mailed to awardee at the business address shown
in the Bid.
Local Vendor Preference: The Collier County Board of County Commissioners has
adopted a Local Preference "Right to Match" policy to enhance the opportunities of local
businesses to receive awards of Collier County contracts.
A "local business" is defined as a business that has a valid occupational license issued
by either Collier or Lee County for a minimum of one (1) year prior to a Collier County
bid or proposal submission that authorizes the business to provide the commodities or
GC-IB-5
services to be purchased, and a physical business address located within the limits of
Collier or Lee Counties from which the vendor operates or performs business. Post
Office Boxes are not verifiable and shall not be used for the purpose of establishing said
physical address. In addition to the foregoing, a vendor shall not be considered a "local
business" unless it contributes to the economic development and well-being of either
Collier or Lee County in a verifiable and measurable way. This may include, but not be
limited to, the retention and expansion of employment opportunities, the support and
increase to either Collier or Lee County's tax base, and residency of employees and
principals of the business within Collier or Lee County. Vendors shall affirm in writing
their compliance with the foregoing at the time of submitting their bid or proposal to be
eligible for consideration as a "local business" under this section.
When a qualified and responsive, non-local business submits the lowest price bid, and
the bid submitted by one or more qualified and responsive local businesses is within ten
percent (10%) of the price submitted by the non-local business, then the local business
with the apparent lowest bid offer (i.e. the lowest local bidder) shall have the opportunity
to submit, an offer to match the price(s) offered by the overall lowest, qualified and
responsive bidder. In such instances, staff shall first verify if the lowest non-local bidder
and the lowest local bidder are in fact qualified and responsive bidders. Next, the
Purchasing Department shall determine if the lowest local bidder meets the
requirements of Section 287.087 F.S.
If the lowest local bidder meets the requirements of 287.087, F.S., the Purchasing
Department shall invite the lowest local bidder to submit a matching offer to the
Purchasing Department which shall be submitted within five (5) business days
thereafter. If the lowest local bidder submits an offer that fully matches the lowest bid
from the lowest non-local bidder tendered previously, then award shall be made to the
local bidder. If the lowest local bidder declines or is unable to match the lowest non
local bid price(s), then award will be made to the lowest overall qualified and responsive
bidder. If the lowest local bidder does not meet the requirement of Section 287.087 F.S.
and the lowest non-local bidder does, award will be made to the bidder that meets the
requirements of the reference state law.
Bidder must complete and submit with their bid response the Affidavit for Claiming
Status as a Loca/ Business which is included as part of this solicitation.
Failure on the part of a Bidder to submit this Affidavit with their bid response will
preclude said Bidder from being considered for local preference on this
solicitation.
A Bidder who misrepresents the Local Preference status of its firm in a bid submitted to
the County will lose the privilege to claim Local Preference status for a period of up to
one year.
The County may, as it deems necessary, conduct discussions with responsible bidders
determined to be in contention for being selected for award for the purpose of
GC-IB-6
clarification to assure full understanding of, and responsiveness to solicitation
requirements.
12.3 For Bidders who may wish to receive copies of Bids after the Bid opening, The
Owner reserves the right to recover all costs associated with the printing and distribution
of such copies.
12.4 Certificate of Authority to Conduct Business in the State of Florida
(Florida Statute 607.1501)
In order to be considered for award, firms submitting a response to this solicitation shall
be required to provide a certificate of authority from the Florida Department of State
Divisions of Corporations in accordance with the requirements of Florida Statute
607.1501 (www.sunbiz.ora/search.html). A copy of the document shall be submitted
with the solicitation response and the document number shall be identified. Firms who
do not provide the certificate of authority at the time of response shall be required to
provide same within five (5) days upon notification of selection for award. If the firm
cannot provide the document within the referenced timeframe, the County reserves the
right to award to another firm.
Section 13. Sales Tax
13.1 The Successful Bidder acknowledges and agrees that Owner may utilize a sales
tax savings program and the Successful Bidder agrees to fully comply, at no additional
cost to Owner, with such sales tax savings program implemented by the Owner as set
forth in the Agreement and in accordance with Owner's policies and procedures.
Section 14. Exclusion of County Permits in Bid Prices
14.1 To ensure compliance with Section 218.80, F.S., otherwise known as "The Public
Bid Disclosure Act", Collier County will pay for all Collier County permits and fees
applicable to the Project, including license fees, permit fees, impact fees or inspection
fees applicable to this Work through an internal budget transfer(s). Hence, bidders shall
not include these permit/fee amounts in their bid offer. However, the Successful Bidder
shall retain the responsibility to initiate and complete all necessary and appropriate
actions to obtain the required permits other than payrnent for the items identified in this
section.
14.2 The Successful Bidder shall be responsible for procuring and paying for all
necessary permits not issued by Collier County pursuant to the prosecution of the work.
Section 15. Use of Subcontractors
15.1 To ensure the Work contemplated by the Contract Documents is performed in a
professional and timely manner, all Subcontractors performing any portion of the work
on this Project shall be "qualified" as defined in Collier County Ordinance 87-25,
GC-IB-7
meaning a person or entity that has the capability in all respects to perform fully the
Agreement requirements and has the integrity and reliability to assure good faith
performance. A Subcontractor's disqualification from bidding by the Owner, or other
public contracting entity within the past twelve months shall be considered by the Owner
when determining whether the Subcontractors are "qualified."
15.2 The Owner may consider the past performance and capability of a Subcontractor
when evaluating the ability, capacity and skill of the Bidder and its ability to perform the
Agreement within the time required. Owner reserves the right to disqualify a Bidder who
includes Subcontractors in its bid offer which are not "qualified" or who do not meet the
legal requirements applicable to and necessitated by this Agreement.
15.3 The Owner may reject all bids proposing the use of any subcontractors who have
been disqualified from submitting bids to the Owner, disqualified or de-certified for
bidding purposes by any public contracting entity, or who has exhibited an inability to
perform through any other means.
15.4 Notwithstanding anything in the Contract Documents to the contrary, the Bidders
shall identify the subcontractor(s) it intends to use for the categories of work as set forth
in the List of Subcontracts attached hereto, said list to be submitted with its bid. Bidders
acknowledge and agree that the subcontractors identified on the list is not a complete
list of the subcontractors to be used on the Project, but rather only the major
subcontractors for each category of Work as established by Owner. Bidders further
acknowledge that once there is an Award of Contract, the Successful Bidder shall
identify, subject to Owner's review and approval, all the subcontractors it intends to use
on the Project. Once approved by Owner, no subcontractor shall be removed or
replaced without Owner's prior written approval.
Section 16. Prohibition of Gifts
No organization or individual shall offer or give, either directly or indirectly, any favor,
gift, loan, fee, service or other item of value to any County employee, as set forth in
Chapter 112, Part III, Florida Statutes, Collier County Ethics Ordinance No. 2004-05,
and County Administrative Procedure 5311. Violation of this provision may result in one
or more of the following consequences: a. Prohibition by the individual, firm, and/or any
employee of the firm from contact with County staff for a specified period of time; b.
Prohibition by the individual and/or firm from doing business with the County for a
specified period of time, including but not limited to: submitting bids, RFP, and/or
quotes; and, c. immediate termination of any contract held by the individual and/or firm
for cause.
Section 17. Public Entity Crimes
By its submitting a Bid, Bidder acknowledges and agrees to and represents it is
in compliance with the terms of Section 287.133(2)(a) of the Florida Statutes which read
as follows:
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"A person or affiliate who has been placed on the convicted
vendor list following a conviction for a public entity crime
may not submit a bid, proposal, or reply on a contract to
provide any goods or services to a public entity; may not
submit a bid, proposal, or reply on a contract with a public
entity for the construction or repair of a public building or
public work; may not submit bids, proposals, or replies on
leases of real property to a public entity'; may not be
awarded or perform work as a contractor, supplier,
subcontractor, or consultant under a contract with any public
entity; and may not transact business with any public entity
in excess of the threshold amount provided in s. 287.017 for
CATEGORY TWO for a period of 36 months from the date of
being placed on the convicted vendor list."
GC-IB-9
Co~~_
AdninislJative Services Division
Purchasing
Email: ScottJohnson@collierQov.net
Telephone: (239) 252-8995
FAX: (239) 252-6588
ADDENDUM
Memorandum
Date:
March 1, 2010
From:
Scott D. Johnson, Purchasing Agent
Purchasing Department
To:
Interested Bidders
Subject:
Addendum #2 - ITB #10-5446
"NCWRF Compliance Proect"
The following clarifications are issued as Addendum #2 identifying the following change (s)
for the referenced bid:
1. Invitation to Bid, Page GC-PN-1
Revise the last sentence in the second paragraph to identify the Engineer's Cost Estimate
as $12,100,000 exclusive of Owner furnished equipment.
2. Invitation to Bid, Page GC-PN-2
Add the following text to the end of the fourth paragraph on this page:
It is anticipated that the issuance of the Notice to Proceed will be on or
before May 1,2010. The successful bidder should not delay providing all of
the required documents specified expeditiously so that a contract can be
formed without delay.
3. Technical Specification Section 01120, Page 01120-1
In paragraph 1.02.1 delete "Lining of Pond 4..." and replace with "Lining of Pond 2..."
4. Technical Specification Section 11400, Pages 11400-2 and.9
On page 11400-2, delete the last sentence in paragraph 1.03.B. Revise the first sentence as
follows, delete "... Gardner Denver." and replace with "... Gardner-Denver or HSI, Inc."
On page 11400-9, in paragraph 2.12B, replace second sentence with the foilowing text:
AddendumTemplate
Revised: 3/25/09
1
_I'I\rV \/\0
~I' '~i
The County has recently replaced local control panels for the other four existing
blowers with Multigard II panels by Gardner-Denver. The recently replaced
existing local control panels contain Allen-Bradley Micrologix programmable
logic controllers. The new control panel for the new blower furnished under this
Contract shall be functionally equivalent to the recently installed existing local
control panels and include the same model of Allen Bradley Micrologix PLC as
those provided for the recently replaced existing local control panels. Since
these recently replaced local panels are still currently being integrated to the
plant SCADA system, the manufacturer shall coordinate with the County
through the Contractor to ascertain all details of the recently replaced panels
prior to preparing and submitting the shop drawings for the new blower and
new local control panel.
5. Technical Specification Sections 13200 and 13201, Pages 13200-1 and 13201-1
Add the following text to the end of paragraph 1.01.A in each Section:
The Odor Control System Supplier has prepared a proposal dated February
22, 2010. Eleven pages of that proposal are included as part of this
addendum. The proposal provides additional information regarding weights
and component sizes of the odor control systems. The actual scope of supply
by the Odor Control System Supplier shall be governed by the Technical
Specifications.
6. Technical Specification Section 15210, Page 15210-3
In paragraph 2.03.A, add Midwestern Fabricators, Inc. to the list of acceptable manufacturers.
7. Technical Specification Section 15116, Page 15116-2
Revise paragraph 2.01.0.3 to require a 12-inch valve in lieu of the 16-inch as listed.
8. Technical Specification Section 16050, Page 16050-1
In paragraph 1.04.A, add Southern Industrial Electric, Inc., as an acceptable electrical
contractor.
9. Technical Specification Section 17000, Page 17000-7
In paragraph 1.04A, add Control Instruments, Inc. as an acceptable instrumentation and
control system subcontractor.
Delete paragraph 1.04.B in its entirety.
10. Contract Drawings, Sheet 4, Drawing 1G4
In Special Project Requirements, Note A, second line, delete "...Pond 4..." and replace with
",.,Pond 2..."
In Special Project Requirements, Note C, add the following text to the end of the last sentence:
With regard to approved vendors and suppliers identified in the Collier County
Utilities Standards Manual, the Contract Documents will govern.
11. Contract Drawings, Sheet 24, Drawing 2C20
In Note 1, delete reference to ductile iron.
12. Supplemental Conditions, Page 2, Construction Sign
Add the following text as paragraph 12 to require one construction sign for the project:
In order to keep the public informed regarding construction projects, upon
issuance of a Notice to Proceed, the Contractor shall be required to provide a
construction project sign which contains, at a minimum, the following
information: Name of Project, Project Completion Date, Name of Contractor,
and a County Contact Telephone Number. Additional information may be
required, as directed by the County. The size of the sign shall be four (4) feet
high by eight (8) feet wide unless otherwise requested by the County. The sign
shall be in conformance with the Collier County Land Development Code and
in a format approved by the County. The standard construction sign format is
available upon request from the County project manager.
Payment for the Construction Project Sign will be made as part of mobilization
and shall include furnishing and installation of all materials necessary to
complete the construction project sign, including initially erecting or placing and
final removal. This shall include, but not be limited to: sign panels complete
with sheeting, painting, and message; sign posts and supports, footings,
excavation, etc. The sign shall be removed upon final completion of the
project.
13. Response to Bidders' Questions Posted on E-Procurement Website
See table below.
- Response
No. Q uestio n
1 The liquidated damages provision for pond #2 is listed as It is a flat rate due to a
$288,000 "Flat Rate." (1) So it is a lump sum and NOT per deadline requirement for
day? and (2) Why such a high damages amount for this County's receipt of grant
section? funding.
2 In reference to spec section 13205 you have 3 vendors Augusta Fiberglass has
listed who are almost twice the distance from this project been ruled an unacceptable
that Augusta fiberglass is located and we are on your vendor on technical
vendors list and we comply with all applicable provisions grounds.
of this specification.Yet we are not listed as a approved
manufacturer .We offer the county significant cost savings
in shipping cost alone.
3 Will any other site visits be permitted other than the pre- Not without a written
bid metting? If so, how do we proceed in scheduling a site request to the County.
visit?
4 Is a geotech report available? If not, when will it be The only geotechnical
available? report is for the pond berms
and not suitable for deep
excavations or for other
areas of the site. The
bidder may make
arranaements and request
-
permission to conduct soil
investigations as may be
needed to prepare a bid.
5 Per the Supplemental Conditions, the Invitation to Bid See Addendum item above.
document GC-PN-2 and again on GC-P-10, it states that
Pond NO.2 shall be substantially complete by August 1,
2010. Per Specification Section 01120 - Sequence of
Work, it states that Pond NO.4 shall be substantially
complete by August 1, 2010. Which is the intended pond
to be completed or is it both? In addition, please provide a
start date or calendar days (duration) for this "Special
Project Milestone."
6 Will there be any opportunity to participate in a site visit? A site visit was held at 1 :30
PM on the day of the pre-
bid conference.
7 1. On drawing 2C20 at the 20x16 tapping sleeve and TBF stands for temporary
valve, what does the abbreviation TBF stand for? 2. backflow preventer.
On drawing 2C20 the potable water calls for C-900
PVC Pipe,however Note 1 calls for all potable water See Addendum item above.
pipe to ductile iron rest i!'Please clarifv.
8 Page 2c20 note 1 calls for all potable water main to be See Addendum item above.
ductile iron restrained join!. Does this supercede other
notes calling for c900 and c905 pvc? Also, there is no 16" I PEX is one supplier for the
DR14 C905. DR18 C905 is 235 psi rated. 16-inch DR 14 pipe.
9 1. Drawing 2C20 calls for the Potable Water Pipng to be See Addendum item above.
PVC Dr-14,however, note 1 calls for all potable water
piping to be Ductile iron Restrained. Please clarify. 2. TBF stands for temporary
Drawing 2C20 uses the abbreviation TBF located at the backflow preventer.
20x16 tapping Sleeve and Valve. What does that stand
for?
10 We are aware that it is past the deadline for questions; Subcontractor information is
therefore, as a reminder we have requested the geotech not available.
tech report and at prebid the contact information for the
pond liner subcontractor that was used by the County on
another project recently was promised.
11 Sheet 101 (aka 6S1) refers to a standing seam roof Refer to Sheet 102.
related to the Bleach Feed Facility. There are no
details/sectional views on Sheet 102 (aka 6S2) or
Specifications for this activity. Please advise.
12 Sheet 101 refers to an aluminum fixed ladder at the The ladder at the structure
Bleach Feed Facility. There are no ladders shown on shall be aluminum and
Sheet 102. Please advise. Sheet 76 (aka 6M6) indicates extend so the last step is
an FRP caged ladder, platform, and railing at the Bleach three feet below the top of
StoraQe Tank (to be provided bv tank manufacturer per the wall.
Spec. Section 13205). Sheet 76 indicates a SST caged
ladder to top of wall at the Chlorine Contact Basin & The ladder at the bleach
Splitter Box structure. (Spec. Section 05515- Ladders- tank shall be RFP as
Aluminum). In addition, the note indicates the ladder is to specified.
extend to top of wall (EL 22.00), but there does not appear
to be an existing slab, platform, handrail, etc. Please
advise. What are the requirements for the ladder at the top
of the wall? Can the Engineer clarify type of material
required (316 SST?) and provide sectional view?
13 can you please provide the pre-bid sign in sheet or a list of (BY COUNTY)
the attendees for the meeting on the 17th?
14 Please provide specifications for the Orion FRP Tank The tank shall be Style 7,
shown on drawing 4M2. 150 gallon size with
anchoring and extension, all
as manufactured by Orion
FitlingslWatts.
15 On Drawings 4M2 there is an Orion Fiberglass Wrapped The tank is not Owner
PE Tank shown. Is this an Owner supplied item? If not, supplied.
please provide details and descriptio of tank.
16 Can we assume that the existing ponds that need The Contractor shall be
regrading and liner work will be dry at the time of repair? I responsible for removing
don't believe it is your intent to have us build coffer dams the water from those ponds
in the ponds on the existing liner and risk the spreading of needing repair and for
the dirt over the entire pond liner surface. maintaining the pond so that
repairs can be made. The
Owner will provide some
assistance in removing a
portion of the water from the
ponds.
17 One detail on the plans calls for 6" of concrete for the off- The Contractor can use
site sidewalk, while the concrete detail calls for 4" of whichever method is
concrete with a 4" baserock layer. Can we assume deemed to be most cost
whichever method is more cost effective for our bid? effective.
18 Can you clarify where the bahia sod will be required upon As specified, all disturbed
project completion? areas shall be restored to
the pre-construction
condition or better. As a
minimum for ground cover,
Bahia sod shall be used.
19 Reference drawing 3M16 detail #18,. Detail calls for pipe The support shall be Type
up to top of support to be 316 SSTL, however the details 316 stainless steel.
calls for PVC also. Please clarify.
If you require additional information please post a question on the eSid site or contact me
(contact information above).
c: Peter Schalt
Dianna Perryman
SIEMENS
February 22, 2010
Scott O. Johnson
Purchasing Agent
3301 Tamiami Trail East
BLOG ''G''
Naples, FL 34112
RE: SECTION 13200A: ODOR CONTROL SYSTEMS - CHEMICAL
SECTION 13201A: ODOR CONTROL SYSTEMS - BIOLOGICAL
COLLIER COUNTY, FL - NORTH CO. REGIONAL WRF HEADWORKS
SWT Proposal No. M09-257 (references A-D and M08-002)
Dear Mr. Johnson:
Please find the enclosed revised Siemens Water Technologies' Bid Proposal for providing the Odor
Control Systems for the NCWRF Compliance Assurance Project. Our proposal is in accordance with the
technical specifications and drawings. This revision includes the items we discussed during our meeting
last week.
Our detaaed scope of supply and services are attached herein. We have included our standard terms and
conditions and would be happy to discuss any specific items before finalizing a contract.
We appreciate your interest in working with us on this important project and look forward to a successful
partnership. Please do not hesitate to contact me or Mr. Vaughan Harshman if you have any questions
regarding our scope or need any additional information.
Thank you for this opportunity to be of service again to Collier County.
Sincerely,
Tom Miles
Technical Sales Manager
TM\kjgIMOg..257A..combined.costo21610 Rev 1
cc: Mr. Vaughan Harshman, P.E., Siemens Water Technologies Corp.
Mr. Larry Hickey, Equipment Plus Inc
Siemens Water Technologies Corp.
12316 Wand Trade Drive
Suite 100
San Dieoo. CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
SIEMENS
OCU-1: SECTION 13201A: ODOR CONTROL SYSTEMS - BIOSCRUBBER
SCOPE OF WORK BY SIEMENS WATER TECHNOLOGIES
The following equipment and services are included in our scope of work. All equipment and components
necessary to provide a complete system in accordance with Specification Section 13201A will be provided
except those items specifically excluded below. The system is suitable for outdoors installation in an
NFPA 820 Class 1 Division 2 hazardous-cluty location. The electrical control panel and nutrient tank will
be remote-mounted in a non-hazardous location at least three-feet from the odor control system and
ductwork. The Contractor will be responsible for mounting the nutrient tank/control panel and some field-
wiring.
No. Description
1. FRP Air Exhaust Fan with High Efficiency TEFC Motor*
6,100 acfm@7.0inw.c.with 15 HP motor (Class 1, Div 2)
2. Fan Outlet Flexible Connector* (EPDM flanged with SS backing bars)
Qtv
1
1
3. Fan OutletlBioScrubber Inlet Transition"
1
4. FRP Bioscrubber Tower (10 ft diameter)", including:
. Media Support
. Bioscrubber PUF Foam Media"
. Liquid Distributor"
. Mist Eliminator"
. Integral Sump
. Drain, Sight Glass, Manways
. Inlet and Outlet Sample Port
. Flanged Inlet and Outlet
. All Bioscrubber Tower Connecting Hardware (nuts, bolts, gaskets)
. FRP caged ladder and maintenance platform
. Exhaust transition with 24" side outlets, mist eliminator access and 24" FRP
bypass damper (with chain wheel actuator)
Water and Nutrient Tank Feed System"
1
5.
1
. Nutrient Tank in rectangular box
. Water Control Box with 316 SS NEMA 12 Enclosure
. Electrical Control Panel with 316 SS NEMA 4X Enclosure, Motor Starters
and control transformer
. Polypropylene Recirculation Pump
. Nutrient Feed Pump mounted in Water Control Box
. Low Level Switches (Sump and Nutrient)
. Recirculation Pressure Gauge in Water Control Box
6.
Miscellaneous Instruments and Accessories
. Make-up Water Rotameter
. Differential Pressure Transmitter across Bioscrubber"
. Sump Low and High Level Control
. Fan suction Vacuum switch"
. Fan Vibration switch
Included
Siemens Water Technologies Corp.
12316 World Trade Drive
Suite 100
San Diego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
WNW.water.siemens.com
SIEMENS
7. Spare Parts
. Nutrient Pump Repair Kit, Qty. 1
. Fan Belts, Qty. 1 Set
. Fan Bearings, Qty. 1 Set
8.
Neoprene Pad. for Undemeath Vessels
Included
9.
Anchor Bolts.
Included
10.
Design Submittals and O&M Manuals in accordance with sections 01330 and
01830
Included
11.
Manufacturer's Services for Start-up, Testing and Operator Training in accordance
with section 01750
(See Field Service Summary-combined for all equipment in this contract)
Included
12.
F.O.B Jobsite
* Shipped Loose for installation by the contractor
Included
Siemens Water Technologies Corp.
12316 World Trade Drive
Sune 100
San Oieoo. CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
SIEMENS
OCU NO 2: SECTION 13200A: ODOR CONTROL SYSTEMS - CHEMICAL
EXISTING LO/PRO - MODIFICATIONS
SCOPE OF WORK BY SIEMENS WATER TECHNOLOGIES
The following equipment and services are included in our bid. All equipment and components necessary
to provide a complete system in accordance with Specification Section 13200A will be provided except
those items specifically excluded below.
The modifications will result in a system suttable for NFPA 820 Class 1 Division 2 hazardous-duty location.
The electrical control panel will be remote-mounted in a non-hazardous location at least three-feet from
the odor control system and ductwork. The Contractor will be responsible for mounting the control panel
and some field-wiring.
No. DescriDtion
1. FRP Air Exhaust Fan Motor* (60 HP motor)
Inverter duty motor, Class 1, Division 2, vibration swttch
2. Modifications to existing Siemens Packaged LO/PR()@ Odor Control System
including provision of the following:
. Recirculation pump motors" (15 HP, 25 HP - Class 1, Division 2)
. Chemical pump motors" (three 1/2 HP expl DC motors)
. New PVC 3" head for existing NaOCI pump"
. Mist Eliminator (mesh type)"
. New Exhaust Stack" (with WYE connector for H2S sensor-5.0-ft high)
3. Electrical Control Panel with 316 SS NEMA 4X Enclosure", including
Transformer, Soft Motor Starters, Dry Contacts, and Instrumentation (remote-
mounted in a non-hazardous location)
. pH Elements & Controller (2 ea.)
. ORP Element & Controller (1 ea.)
Note: VFD for fan motor supplied and installed by others
4. Accessories and Instrumentation"
. Differential Pressure Transmitters (2)
. Recirculation Pump Pressure switches (2)
. Fan inlet vacuum switch
. Fan vibration switch
. NEMA 7 junction box for existing level switches (2)
. Tubing and connectors to route makeup water supply to recirc pump seal
5. Manufacturer's Services for Start-up, Testing and Operator Training at the Job
S~e in accordance with section 01750 (See Field Service Summary-combined
for all equipment in this contract)
6. Bottled Hydrogen Sulfide Gas for Performance Testing
7. F.O.B. Job Site
. Shipped Loose for installation by the contractor
Total
Quantitv
1
1
1
Included
Included
Included
Included
Siemens Water Technologies Corp.
12316 World Trade Drive
Suite 100
San Dieoo. CA 92128
Tel: (858) 467-2200
Fax: (656) 467-5600
www.water.siemens.com
. ..
SIEMENS
OCU NO 3: SECTION 13200A: ODOR CONTROL SYSTEMS - CHEMICAL
NEW LO/PRO
SCOPE OF WORK BY SIEMENS WATER TECHNOLOGIES
The following equipment and services are included in our bid. All equipment and components necessary
to provide a complete system in accordance with Specification Section 13200A will be provided except
those items specifically excluded below. Siemens Water Technologies' LO/PROO scrubber system is
packaged, pre-piped, wired to the greatest extent possible, tested and shipped as a single piece. Field
assembly is limited to the fan, inlet and outlet transitions, ductwork, electrical control panel, utilities
connections and some minor sub-assemblies.
The systems are suitable for outdoors installation in an NFPA 820 Class 1 Division 2 hazardous-duty
location. The electrical control panel will be remote-mounted in a non-hazardous location at least three-
feet from the odor control system and ductwork. The Contractor will be responsible for mounting the
control panel and some field-wiring.
No. Description
1. FRP Air Exhaust Fan" (22,850 acfm @ 10 in w.c., 60 HP motor)
Inverter duty motor, Class 1, Division 2, vibration switch
Total
Quantitv
1
2. FRP Fan Inlet Flexible Connector" (EPDM boot type with S/S clamps)
1
3. FRP Fan Outlet Flexible Connector" (EPDM flanged with SS backing bars)
1
4. FRP Fan OutleUScrubber Inlet Transition"
1
5. Siemens Water Technologies' Three-Stage Packaged LO/PR()@ Odor Control
System of Unitary (Single Piece) FRP Construction (Hetron 922 Resin) with the
following major system components:
. Two-Stage Gas Absorption System
. Two Integral Chemical Sumps
. Packing Media, Nozzles and Mist Eliminator (mesh type)
. Intemal Piping and Access Doors
1
6. FRP Scrubber Outlet TransitionfExhaust Stack" (with WYE connector for H2S
sensor -5.D-ft high)
1
7. PP Chemical Recirculation Pumps, Vertical Seal-less (no seal water is required),
pre-mounted on scrubber sumps
2
8. Chemical Metering Pumps, pre-mounted on scrubber sumps, expl DC motor
. Sodium Hydroxide
. Sodium Hypochlorite
2
1
Siemens Water Technologies Corp.
12316 World Trade Drive
Suite 100
San Diego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
. .'
SIEMENS
No. Description (Continued)
9. Electrical Control Panel with 316 SS NEMA 4X Enclosure", including Transfonner,
Soft Motor Starters, Dry Contacts, and Instrumentation (remote-mounted in a non-
hazardous location)
. pH Elements & Controller (2 ea.)
. ORP Element & Controller (1 ea.)
. Sump Low Level Control (2 ea.)
Note: VFD for fan motor supplied and installed by others
10. Accessories and Instrumentation
. Differential Pressure Transmitters (2)
. Make-up Water Flowmeters (2)
. Scrubber Blowdown Controls
. Recirculation Pump Pressure switch and gauges (2)
. Fan inlet vacuum switch"
. Scrubber NEMA 4X Electrical Junction Box
11. Spare Parts
. . Metering Pump Repair Kits, Qty. 3 Kits
. Fan Belts, Qty. 1 Set
. Fan Bearings, Qty. 1 Set
. Extra 3" PVC head for NaOCI pump, Qty 1
. pH and ORP probe rebuild kit (salt bridges)
12. Anchor Bolts"
13. Neoprene Pad for undemeath Scrubber"
14. Design Submittals and O&M Manuals in accordance with sections 01330 and
01830
15. Manufacturer's Services for Start-up, Testing and Operator Training at the Job Site
in accordance with section 01750 (See Field Service Summary-combined for all
equipment in this contract)
16. Bottled Hydrogen Sulfide Gas for Perfonnance Testing
17. F.O.R Job Site
" Shipped Loose for installation by the contractor
Total
Quantitv
1
Included
Included
Included
Included
Included
Included
Included
Included
Siemens Water Technologies Corp.
12316 Wo~d Trade Drive
Suite 100
San Oiego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
, .'
SIEMENS
OCU NOS. 4 AND 5: SECTION 13200A: ODOR CONTROL SYSTEMS - CHEMICAL
NEW LO/PRO'S
SCOPE OF WORK BY SIEMENS WATER TECHNOLOGIES
The following equipment and services are included in our bid. All equipment and components necessary
to provide a complete system in accordance with Specification Section 13200A will be provided except
those items specifically excluded below. Siemens Water Technologies' LOIPROO scrubber system is
packaged, pre-piped, wired to the greatest extent possible, tested and shipped as a single piece. Field
assembly is limited to the fan, inlet and outlet transitions, ductwork, electrical control panel, utilities
connections and some minor sub-assemblies.
The systems are su~able for outdoors installation in an NFPA 820 Class 1 Division 2 hazardous-duty
location. The electrical control panel will be remote-mounted in a non-hazardous location at least three-
feet from the odor control system and ductwork. The Contractor will be responsible for mounting the
control panel and some field-wiring.
No. Description
1. FRP Air Exhaust Fan' (28,000 acfm @ 12.5 in W.C., 100 HP motor)
Class 1, Division 2, vibration switch, FRP inlet box
Total
Quantitv
2
2. FRP Fan Inlet Flexible Connector* (EPDM boot type with S/S clamps)
2
3. FRP Fan Outlet Flexible Connector* (EPDM flanged with SS backing bars)
2
4. FRP Fan Outlet/Scrubber Inlet Transition'
2
5. Siemens Water Technologies' Three-Stage Packaged LO/PROO Odor Control
System of Unitary (Single Piece) FRP Construction (Hetron 922 Resin) with the
following major system components:
. Three-Stage Gas Absorption System
. Three Integral Chemical Sumps
. Packing Media, Nozzles and Mist Eliminator
. Internal Piping and Access Doors
2
6. FRP Scrubber Outlet Transition/Exhaust Stack' (with WYE connector for H2S
sensor -5.0-ft high)
2
7. PP Chemical Recirculation Pumps, Vertical Seal-less (no seal water is required),
pre-mounted on scrubber sumps
6
8. Chemical Metering Pumps, pre-mounted on scrubber sumps, expl DC motor
. Sodium Hydroxide
. Sodium Hypochlorite
6
2
Siemens Water Technologies Corp.
12316 World Trade Drive
Suite 100
San Diego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
SIEMENS
No. Descriotion (Continued)
9. Electrical Control Panel with 316 SS NEMA 4X Enclosure', including Transformer,
Soft Motor Starters. Dry Contacts, and Instrumentation (remote-mounted in a non-
hazardous location)
. pH Elements & Controller (3 ea. system)
. ORP Elements & Controller (1 ea. system)
. Sump Low Level Control (3 ea. system)
10. Accessories and Instrumentation (quantities are per system)
. Differential Pressure Transmitters (2)
. Make-up Water Flowmeters (3)
. Scrubber Blowdown Controls
. Recirculation Pump Pressure switch and gauges (3)
. Fan inlet vacuum switch' (1)
. Scrubber NEMA 4X Electrical Junction Box
11. Spare Parts (quantities are per system)
. Metering Pump Repair Kits, Qty. 4 Kits
. Fan Belts, Qty. 1 Set
. Fan Bearings, Qty. 1 Set
. Extra 3" PVC head for NaOCI pump, Qty 1
. pH and ORP probe rebuild kit (salt bridges)
12. Anchor Bolts'
13. Neoprene Pad' for undemeath Scrubbers
14. Design Submittals and O&M Manuals in accordance with sections 01330 and
01830
15. Manufacturer's Services for Start-up, Testing and Operator Training at the Job Site
in accordance with section 01750 (See Field Service Summary-combined for all
equipment in this contract)
16. Bottled Hydrogen Sulfide Gas for Performance Testing
17. F.O.B. Job Site
, Shipped Loose for installation by the contractor
Siemens Water Technologies Corp.
12316 World Trade Drive
Suite 100
San Dieao. CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
WNW.water.siemens.com
Total
Quantitv
2
Included
Included
Included
Included
Included
Included
Included
Included
SIEMENS
FIELD SERVICE SUMMARY:
Siemens will provide a representative on-site to witness the delivery and inspection of each equipment
delivery and provide a report with photographs.
Siemens will provide a field engineer to inspect the installation, supervise the contractor responsible for
the modifications to OCS-2, perform the Field Acceptance Performance Tests, and provide training to the
owner's personnel.
Bioscrubber portion: Two (2) Trips for up to Three Days per Trip at the Job Site for Start-up, Testing and
Operator Training
Siemens will assist the contractor with balancing the air flow from the foul air sources under the various
operating conditions. Damper settings, VFD settings and air flow rates will be determined and
summarized in the O&M manual. The air balancing will be conducted using a pitot traverse to measure
velocity in the ductwork by the Siemens technician. It is expected that the air balancing will be performed
at various times during construction.
Installation and startup assistance: Four (4) trips, twelve (12) days total
Perfonnance Testing: Estimated to require Three (3) trips, six (6) days total
EXCLUSIONS TO BE PROVIDED BY THE CONTRACTOR
1. Equipment package unloading, storage, and installation.
2. Removal and disposal of existing Bioway system.
3. Site preparation work, civil works, foundation design and concrete pad for equipment, including
any structural calculations.
4. Loading of all bioscrubber internals, including media
5. Design, supply, and installation of all odor extract ducts including ductwork, dampers, flexible
connectors, and transitions up to fan inlets.
6. Any outlet ductwork/exhaust stack beyond Siemens' provided stack and from the bioscrubber
outlet transition to any equipment installed downstream of the bioscrubber.
7. All 316 SSTfasteners and EPDM gaskets for ductwork flanged connections and dampers.
8. Design, supply, and installation of all duct supports and flashing. Siemens will provide the design
for the exhaust ductwork connection to the BTF tower only.
9. Utilities: 480Vl3Phl60 Hz power, water and drain.
10. Mounting of electrical control panel in a non-hazardous location and all electrical materials and
their installation from control panel to remote located instruments or equipment such as scrubber
fan, pumps, scrubber junction box, chemical storage tank instrumentation (provided by others), etc.
11. All electrical materials, their installation and any programming to interface Siemens' electrical
control panel with the plant PLC/SCADA. Please note: Siemens' electrical control panel does not
require and does not include a PLC. The panel will include dry-contacts for hard-wired relays by
the Contractor.
12. Chemical storage tanks and all chemicals, including nutrient solution.
13. All chemical tank piping and assemblies.
Siemens Water Technologies Corp.
12316 Wond Trade Drive
Sune 100
San Diego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
SIEMENS
14. All components of chemical supply line, includin9 piping, pipe supports, valves and strainers,
from storage tanks to scrubber-mounted metering pumps.
15. Make-up water supply and drain piping.
16. All piping, valves, and accessories from bioscrubber sump to recirculation pump and from
recirculation pump to bioscrubber nozzle header connection.
17. Make-up water supply to water control box and drain piping from the bioscrubber system.
18. Minor field assembly of some sub-assemblies may be required. (For shipping purposes, some
sub-assemblies are disassembled and will need to be re-assembled in the field)
19. Heat tracing and insulation of all exposed piping for make-up water, drain, recirculation and
chemical feed, including piping located on the scrubber itself. This includes any required heat
tracing for exhaust fan drain.
20. Any sales, federal, state, local, user, excise, or other similar taxes unless expressly stated in
this quotation.
21. Installation/demolition labor for OCS-2 modifications, removal of unused components, including
control panel, fan motor, pump motors, wiring/conduits, retrofit existing vessel to accommodate
new mist eliminator, new stack, etc.
22. Fan VFD's for OCS2 and 3
23. H2S monitoring system, permanent or portable
24. Spare parts for OCU2
25. Any items not explicitly listed under Siemens' scope of supply.
SHIPPING INFORMATION
Equipment Overall Footprint: Shipping Weight
OCS t 10 ft Dia x -36.7 ff OAH (Tower) -80001bs
6.0 ft L x 5.5 ft W (NUCIRC skid) -2000 Ibs
OCS3 17'-6" Lx 9'-6" W (LoPro vessel only) 12,000 Ibs.
OCS40R5 28'-0" Lx 9'-6" w x -14 ft H (LoPro 16,000Ibs.
vessel only)
FIELD SERVICES
Should additional services be required for work beyond what is included in our proposal, it will be
necessary for you to purchase them from us for our standard rate of $1 ,000 per eight (8) hour day, plus
expenses.
SCHEDULE
On any ensuing contract, we shall mutually agree upon a production schedule. Our normal lead time
for this type of equipment is as stated below. However, due to fluctuations in backlog, an actual
schedule cannot be established until after receipt and acceptance of a complete written purchase
agreement.
Siemens Water Technologies Corp.
12316WondTrade Drive
Suite 100
San Diego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
www.water.siemens.com
SIEMENS
Design Submittals:
Equipment Shipment:
6 Weeks after Receipt of Fully Executed Purchase Order
14-16 Weeks after Seller's Written Receipt of Submittal Approval and
Release for Fabrication
1-2 Weeks after Shipment
Estimated Delivery:
SDecial Note: Our price does not include any costs for storage of equipment between the time it is
ready to ship and when the equipment is actually installed. The costs to protect, insure, and store the
equipment at the job site, or at any off site location, is the responsibility of the Buyer.
Siemens Waler Technologies Corp.
12316 World Trade Drive
Suite 100
San Diego, CA 92128
Tel: (858) 487-2200
Fax: (858) 487-5600
WNW.water.siemens.com
CONSTRUCTION BID
BOARD OF COUNTY COMMISSIONERS
COLLIER COUNTY, FLORIDA
NCWRF Compliance Assurance Project
BID NO.1 0-5446
Full Name of Bidder Douglas N. Higgins, Ine.
Main Business Address 3390 Travis pointe Rd., Suite A, Ann Arbor, MI 48108
Place of Business 4485 Enterprise Avenue, Naples, FL 34104
Telephone No. 239-774-3130
State Contractor's License # CGC - 0 6 0 18 9
Fax No. 239-774-4266
State of Florida Certificate of Authority Document Number 830666
Federal Tax Identification Number 38-1807765
To: BOARD OF COUNTY COMMISSIONERS OF COLLIER COUNTY, FLORIDA
(hereinafter called the Owner)
The undersigned, as Bidder declares that the only person or parties interested in this
Bid as principals are those named herein, that this Bid is submitted without collusion
with any other person, firm or corporation; that it has carefully examined the location of
the proposed Work, the proposed form of Agreement and all other Contract Documents
and Bonds, and the Contract Drawings and Specifications, including Addenda issued
thereto and acknowledges receipt below:
Bidder proposes, and agrees if this Bid is accepted, Bidder will execute the Agreement
included in the Bidding Documents, to provide all necessary machinery, tools,
apparatus and other means of construction, including utility and transportation services
necessary to do all the Work, and furnish all the materials and equipment specified or
referred to in the Contract Documents in the manner and time herein prescribed and
according to the requirements of the Owner as therein set forth, furnish the Contractor's
Bonds and Insurance specified in the General Conditions of the Contract, and to do all
other things required of the Contractor by the Contract Documents, and that it will take
full payment the sums set forth in the following Bid Schedule:
Unit prices shall be provided in no more than two decimal points, and in the case
where further decimal points are inadvertently provided, rounding to two decimal
points will be conducted by Purchasing staff.
NOTE: If you choose to bid, please submit an ORIGINAL and ONE COPY of your bid
pages.
GC-P-1
COLLIER COUNTY BID NO. _10-5446
BID OPENING DATE 3/5/10
COMPLIANCE ASSURANCE PROJECT
NORTH COUNTY WATER RECLAMATION FACILITY
COLLIER COUNTY PUBLIC UTILITIES DIVISION
Item
No. Description Quantity Total
(Prices Should be Stated in
Whole Dollars: round off
cents to whole dollars)
1 Mobilization, Bonds and Completion of Procurement Lump
Submittals. (Not to Exceed 3% of Total Price) Sum $250,000.00
2 Complete all Contract Work except as covered by the other Lump
Bid Items. Sum $7,483,000.00
3 Demobilization, Final O&M Manuals and Completion of As- Lump
Built Submittals. Sum
(Minimum Bid Amount of $250,000) $250,000.00
4 Allowance for Owner's use to accomplish work only as
directed. I nclusion of the Allowance Funds as part of the
Contract Price is not a guarantee that the Contractor will be Lump $700,000.00
paid any portion or the full amount of any Allowance Fund Sum
Item.
Item A: Work and costs associated with modifications to
existing structures and changes due to existing underground
improvements.
Item B: Work and costs associated with repairs to the
existing in-basin air diffusion systems in the twelve MLE
aeration basins.
Item C: Work and costs associated with removal of grit and
debris from the MLE aeration basins, influent trough and
effluent trough.
TOTAL PRICE FOR ITEMS 1 THRU 4
$8,683,000.00
MATERIAL MANUFACTURERS
THIS FORM MUST BE COMPLETED OR BID SHALL BE DEEMED NON-
RESPONSIVE
All Bidders shall confirm by signature that they will provide the manufacturers and
materials outlined in this Bid specifications. Exceptions (when equals are acceptable)
may be requested by completing the Material Manufacturer Exception List below. If an
exception for a manufacturer and/or material is proposed and listed below and is not
approved by Engineer/Project Manager, Bidder shall furnish the manufacturer named in
the specification. Acceptance of this form does not constitute acceptance of material
proposed on this list.
Complete and sign section A OR B.
Section A (Acceptance of all manufactures and materials in Bid specifications)
On behalf of my firm, I confirm that we will use all manufacturers and materials
as specifically outlined in the Bid specifications.
Section B (Exception requested to Bid specifications manufacturers and materials)
EXCEPTION MATERIAL
EXCEPTION MANUFACTURER
1.
2.
3.
4.
5.
Please insert additional pages as necessary.
GC-P-3
LIST OF MAJOR SUBCONTRACTORS
THIS LIST MUST BE COMPLETED OR BID MAY BE DEEMED NON-RESPONSIVE
The undersigned states that the following is a list of the proposed subcontractors for the
major categories outlined in the requirements of the Bid specifications.
The undersigned acknowledges its responsibility for ensuring that the Subcontractors
for the major categories listed herein are "qualified" (as defined in Ordinance 87 -25 and
Section 15 of Instructions to Bidders) and meet all legal requirements applicable to and
necessitated by the Contract Documents, including, but not limited to proper licenses,
certifications, registrations and insurance coverage. The Owner reserves the right to
disqualify any Bidder who includes non-compliant or non-qualified Subcontractors in its
bid offer. Further, the Owner may direct the Successful Bidder to remove/replace any
Subcontractor, at no additional cost to Owner, which is found to be non-compliant with
this requirement either before or after the issuance of the Award of Contract by Owner.
(Attach additional sheets as needed). Further, the undersigned acknowledges and
agrees that promptly after the Award of Contract, and in accordance with the
requirements of the Contract Documents, the Successful Bidder shall identify all
Subcontractors it intends to use on the Project. The undersigned further agrees that all
Subcontractors subsequently identified for any portion of work on this Project must be
qualified as noted above.
1.
Major Category of Work
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Subcontractor and Address
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2.
3.
4.
5.
Company: Douglas N. Higgins, rue.
Signature: J<~ tt. W~
Date: 3/5/10
GC-P-4
STATEMENT OF EXPERIENCE OF BIDDER
The Bidder is required to state below what work of similar magnitude completed within
the last five years is a judge of its experience, skill and business standing and of its
ability to conduct the work as completely and as rapidly as required under the terms of
the Agreement.
Proiect and Location
Reference
(A;fftiJjuj
1.
2.
3.
4.
5.
6.
Dated 3/5/10
Douglas N. Higgins, Inc.
Bidder
BY: _K~Ul,lLLtKJ.
GC-P-5
EXPERIENCE STATEMENT - SOUTHWEST DIVISION
Proiect Name: City County Flow Swap Proiect Name: Collier County Justice Center
Owner - Address. Proiect Manaoer - Phone: Owner ~ Address - Proiect Manaaer - Phone:
Collier County Public Utilities Engineering Collier County Facilities Management Department
3301 East Tamiami Trail, BUilding H 3301 East Tamiaml Trail
Naples, Florida 34112 Naples, Florida 34112
Sandy Sridhar John Clements
Enaineer - Address - Phone: Encineer - Address. Phone:
Agnoli, Barber and Brundage Q. Grady Minor and Associates, P.A.
7400 Trail Blvd. 3800 Via Del Rey
Naples, Florida 34102 Bonita Springs, Florida 34134
Dominic Amico David Schmitt
- 239-947-1144
Contract Date: Contract Date: $81,950.00
Final Contract Amount: Final Contract Amount: $141,568.41
Comoletion Date: Comoletion Date: August, 2009
Proiect Descriotion: Proiect Descriotion:
Installation of force main, MOV's and valve vaults to t\w Construction of grinder pump station (vault), installation of
locations which would allow bypass from Collier County muffin monster (grinder/auger assembly), new sanitary sewer
to the City of Naples. and manholes. Replacement of the existing sanitary sewer
with a new 12-inch main and a high water alarm system.
Proiect Name: Pump Station S~6 Gearbox Replacement Proiect Name: Cove Stormwater Pump Station Imp.
Owner - Address - Proiect Manaoer - Phone: Owner - Address - Proiect Manaoer - Phone:
South Florida Water Management District City of Naples
2101 Centrepark: West Drive, Suite 110 Department of Streets and Stormwater
West Palm Beach, Florida 33409 295 Riverside Circle
Gerard Flynn Naples, Florida 34102
(239) 213-5000
Enaineer - Address - Phone: Enoineer - Address - Phone:
South Florida Water Management District AECOM
3301 Gun Club Road 4415 Metro Parkway
West Palm Beach, Florida 33406 Suite 404
Michael Miflares Fort Myers, Florida 33916
(239) 278-7996
Contract Date: December 3, 2009 Contract Date: 2/4/09 Award, 3116/09 NTP
Final Contract Amount: $2,191,945.00 Final Contract Amount: $2,778,000.00
Comoletion Date: May 2010 Comoletion Date: 2/8/10 (Contract)
Proiect Name: Master Pump Station 305 Rehabilitation Proiect Name Water Reuse Piping Modifications I Reuse
System Upgrade
Owner - Address ~ Proiect Manaoer
Collier County Owner . Address - Proiect Manaaer - Phone:
Public Utilities Engineering Department City of Marco !sland
3301 Tamiami Trail East, Building H Public Utilities
Naples, Florida 34112 50 Bald Eagle Drive
Sandy Sridhar Marco Island, Florida 34145
Bruce Weinstein
Encineer - Address: 239-389-5000
Q, Grady Minor and Associates, P A
3800 Via Del Rey Encineer:
Bonita Springs, Florida 34134 Metcalf and Eddy
David Schmitt
Contract Date: February 10, 2008
Contract Date: August 11, 2008 Final Contract Amount: $649,171.67
Final Contract Amount: $444,000.00 Comoletion Dale: November 2008
Comoletion Date: January 16, 2009
Proiect Descriotion: proiecl Descriotion:
Fully rehab 2300 GPM Master Pump Station Rehab 500,000 Gallon Tank and convert potable water facility
to reuse storage facility
EXPERIENCE STATEMENT ~ SOUTHWEST DIVISION
Proiect Name: CAT Operations & Administration Center Proiect Name: San Marco Master Lift Station
Pump Station and Force Main Connection
Owner ~ Address - Proiect Manaaer - Phone:
Owner - Address ~ Proiect Manaaer: City of Marco Island
Collier County Public Works
Alternative Transporation Division 50 Bald Eagle Drive
2885 South Horseshoe Drive Marco Island, Florida 34145
Naples, Florida 34104 Timothy E. Pinter, P.E.
Sue Faulkner
Enaineer - Address - Phone:
Encineer:
Q. Grady Minor
3800 Via Del Rey
Bonita Springs, Florida 34134 Contract Date: January 2, 2006
Final Contract Amount: $633,615.61
Contract Date: February 14, 2006 Comoletion Date:
Final Contract Amount: $133,673.04
Cornoletion Date: May 1, 2006
Proiect Descriotion: Proiect Descriotion:
Installation of 14-inch force main, pump station and valve Construct new 600 GPM Master Lift Station
vault to existing CAT Operations Building.
Proiect Name: Irrigation Quality Water Project Proiect Name: Golden Gate WoNTP and Injection Pump
Station
Owner - Address - Proiect Manacer:
Collier County
Facilities Management Owner - Address - Proiect Manaaer ~ Phone:
3301 Tamiami Trail East, Building W Flonda Governmental Utility Authority
Naples, Florida 34112 260 Wekiva Springs Road, Suite 203
Damon Gonzales Longwood, Florida 32779
Enaineer - Address - Phone: Enaineer - Address - Phone:
Anchor Engineering Arcadis
4307 Vineland Road
Contract Date: March 14, 2007 Suite H-20
Final Contract Amount: $1,213,474.52 Orlando, Florida 32611
Comoletion Date: January 15, 2008 407-236-5700
Contract Date:
Final Contract Amount
Comoletion Date:
Proiect Oescriotion:
Expansion of Golden Gate WWTP which included the
construction of a new digester, chlorine contact tank and
injection well pump station, modification of clarifiers #1 and #2,
installation of surge and annular pressure tanks and
aoourtenances.
Proiect Name: Treeline Master Pump Station Proiect Name: PS S-127 and S-133
Pump Refurbishment and Bearing Replace.
Owner ~ Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manacer. Phone:
City of Fort Myers South Florida Water Management District
2200 Second Street 2101 Centrepark West Drive, Suite 110
Fort Myers, Florida 33902 West Palm Beach, Florida 33409
Eliana Hayes, E.!. Mike Curley
(239) 332-6316
Enaineer - Address - Phone: Enclneer ~ Address - Phone:
Johnson Engineering, Inc. South Florida Water Management District
2122 Johnson Street 3301 Gun Club Road
Fort Myers, Florida 33920 West Palm Beach, Florida 33406
David Trouteaud Teri Swartz
(239) 334-0046
Contract Date: July 1,2006 Contract Date: April 1 0, 2008
Final Contract Amount: $1,043,805.00 - Not Final Final Contract Amount: $3,947,723.00
Comoletion Date: February, 2009 Comoletion Date: Jury2010
proiect Descriotion:
Installation of a master pump station located along Treeline
Avenue. The project entailed ajack and bore under Treeline
Avenue to connect to the existing force main and
construction of a 20 foot deep master pump station. A 400 'rQ/I/
enerator and odor control unit were also installed.
EXPERIENCE STATEMENT - SOUTHWEST DIVISION
Proiect Name: Gateway Triangle Stormwater Improvements Proiect Name: Marco Island North Barfield &
North Marco Sanitary Sewer District
Owner - Address - Proiect Manaaer. Phone:
Collier County Owner .. Address - Proiect Manaaer- Phone:
Stormwater Department City of Marco Island
2885 Horseshoe Drive 50 Bald Eagle Drive
Naples, Florida 34239-252-8192 Marco Island, FL 34145
Shane Cox Mr. James Miller
239-389-5011
Encineer - Address:
HDR, Inc. Enaineer - Address - Phone:
200 West Forsyth Street Bolye Engineering
Jacksonville, Florida 32202 4415 Metro Parkway, Suite 104
Laura Phillips Fort Myers, FL 33916
Fred Mittl
Contract Date: November 5, 2007 239.278--7996
Final Contract Amount: $1,021,336.78
Comoletion Date: July 28, 2008 Contract Date: March 1, 2007
Proiect Descriotion:
Stormwater improvements to existing area - excavation of Final Contract Amount: North Marco $4,644,806.99
approximately 34,000 Cy of dirt and grading to form three North Barfield $7,270,729.37
continuous ponds. Installation of box culverts, sheet piling, Comoletion Date: North Marco May 11, 2008
concrete ditch pavement and storm drainage structures. North Barfield March 24, 2008
Proiect Name: NCWRF MLE Bleach Project Proiect Name: Rehabilitation of Master Pump Station 316
Phase 2, Mechanical
Owner - Address - Proiect Manaaer. Owner - Address - Proiect Manacer:
Collier County Collier County
Public Utilities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail, East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Dianna Duen Sandy Sridhar
Enaineer - Address ~ Phone: Encineer - Address ~ Phone:
Hole Montes O. Grady Minor & Associates
950 Encore Way 3800 Via Del Rey
Naples, Florida 34110 Bonita Springs, Florida 34134
Jerry Taricska 239-254-2000 David Schmitt
239-947-1144
Contract Date: September 17, 2007 Contract Date: November 16, 2007
Final Contract Amount: $336,412.49 Final Contract Amount: $765,823.34
Comoletion Date: June 17, 2008 Comoletion Date: June 3, 2008
Proiect Descriotion: Proiect Descriotion:
Bleach piping modifications to chlorine contact chambers Full rehab 800 GPM Master Pump Station
and modification of pump skids to have redundancy in
bleach feed system.
Project Name: Rehabilitation of Master Pump Station 318 Proiect Name: NCRWTP Chemical Labatory
Ventilation Improvements
Owner - Address - Proiect Manacer - Phone: Owner - Address - Proiect Manacer - Phone:
Collier County Collier County
Public Utilities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Sandy Sridhar Tom Chrnelik
239-732-2575
Encineer - Address - Phone: Enoineer ~ Address - Phone:
Q. Grady Minor & Associates TLC Engineering
3800 Via Del Rey 1400 Colonial Boulevard, Suite 203
Bonita Springs, Florida 34134 Fort Myers, Florida 33907
David Schmitt Nicholas L. Mancuso
239-947~1144 239-275-4240
Contract Date: October 9, 2007 Contract Date: March 13, 2007
Final Contract Amount: $789,070.59 Final Contract Amount: $749,367.67
Completion Date: June 10, 2008 Completion Date: November 30, 2008
Proiect Descriotion: Proiect Descriotion:
Fully rehab 3000 GPM Master Pump Station Replace complete HVAC system including air handler,
ductwork, exhaust fans, condenser and rehab fume hoods
EXPERIENCE STATEMENT - SOUTHWEST DIVISION
Proiect Name: Collier County NCRWTP AND SCRWTP
Proiect Name: Connection to Water Main - Marco Shores Sand Separators
Owner - Address - Proiect Manaaer: Owner - Address. Proiect Manaaer.. Phone:
City of Marco Island Collier County Public Utilities
Public Works 3301 East Tamiami Trail
50 Bald Eagle Drive Naples, Florida 34112
Marco Island, Florida 34145 Diana Dueri
James Miller
Encineer - Address - Phone:
Enoineer - Address - Phone: Hazen and Sawyer
Contract Date: April 26, 2007 Contract Date:
Final Contract Amount: $188,000.00 Final Contract Amount:
Comoletion Date: August 31,2007 Comoletion Date:
Proiect Descriotion:
Procurement and installation of two automatic self-cleaning
sand separators (custom built in Germany) including stainless
steel piping, valves, instruments and control panels. Installation
of system, which included two, three-chamber pump stations,
submersible oumos, venturi f1owmeters, etc.
Proiect Name: SCRWTP Raw Water Transmission Main Proiect Name; Decomissioning of Pelican Bay
& Appurtenances for Wastewater Treatment Plant
Raw Water Wells 39S, 405, 418 & 42S
Owner - Address - Proiect Manaaer- Phone: Owner - Address - Proiect Manaaer - Phone:
Collier County Collier County
Public Utilities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Peter Schalt Sandy Sridhar
Encineer - Address - Phone: Enoineer - Address - Phone:
Hazen & Sawyer Hazen and Sawyer
2101 Coporate Boulevard, Suite 301 2101 Corporate Boulevard, Suite 303
Boca Ratan, Florida 33431 Boca Raton, Florida 33431
Albert Muniz Kurt Pfeffer
561-997-8070 561-997-8070
Contract Date: September 26, 2008 Contract Date: February 8, 2006
Final Contract Amount: $1,884,000.00 Final Contract Amount: $72,500.00
Comofetion Date: April 11 , 2007 Comoletion Date: July 30, 2006
Proiect Descriotion:
Installed 3500 If of 16-inch HOPE raw water transmission
main along with four new raw water wells. This provided the
plant the ability to produce sufficient capacity to meet water
demands. Included installation of pigging stations and
electrical enclosures.
Proiect Name: Pelican Bay Fire and Irrigation Water Proiect Name; Reclaimed Water Aquifer Storage and
System Improvement at the Ritz Carlton Recovery
Owner - Address - Proiect Manacer: Owner - Address - Proiect Manaaer:
Collier County Collier County
Public Utilities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Claude Nesbitt Alicia Abbott
Enoineer - Address - Phone: Encineer - Address:
Wilson Miller, Inc. Water Resource Solution
3200 Bailey lane, Suite 200 1388 Colonial Boulevard
Naples, Florida 34105 Fort Myers, Florida 33907
Craig Pager Lloyd HONath
800-649-4336
Contract Date: April 5, 2006
Contract Date: March 30, 2006 Final Contract Amount: $4,658,515.28
Final Contract Amount: $162,723.43 Comoletion Date~ June 6, 2007
Comoletion Date: February 28, 2007 Proiect Descriotion:
Installed a deep injection well for the storage of reclaimed water
coming from Collier County water treatment plants. The Owner
will have full capability to recover this reclaimed water for
market and/or use for their own irrigation needs.
EXPERIENCE STATEMENT - SOUTHWEST DIVISION
---
Proiect Name: Tigertail Sewer District Proiect Name: Pads for MBR and Equipment
Wastewater Collection System Expansion
Owner - Address. Proiect Manacer - Phone: Owner - Address - Proiect Manaaer - Phone~
City of Marco Island City of Marco Island
50 Bald Eagle Drive 50 Bald Eagle Drive
Marco Island, FL 34145 Marco Island, Fl. 34145
Mr. James Miller Mr. Bruce Weinstein
239-389-5011 239-389--5182
Encineer - Address - Phone: Enaineer - Address - Phone:
Bolye Engineering COM
4415 Metro Parkway, Suite 104 9311 College Parkway
Fort Myers, FL 33916 Fort Myers, FL 33919
Fred Mitt! Adam Soblenski
239-278-7996 239-437-9494
Contract Date: March 7, 2006 Contract Date: March 13, 2006
Final Contract Amount: $2,920,703.33 Final Contract Amount: $183,000.00
Comoletion Date: December 21, 2006 Comoletion Date: May 13, 2006
Protect Name: Rosemary Park Paving & Proiect Name: Forest Lakes MSTU
Drainage Improvements Phase 2 Drainage Improvements
Owner - Address - Proiect Manaaer - Phone: Owner . Address. Proiect Manacer - Phone:
City of Bonita Springs Collier County - ATM
Public Works Department Stormwater Department
9101 Bonita Beach Road 2885 Horseshoe Drive South
Bonita Springs, Florida Naples, Florida 34104
239-949-6243 Darryl Richard
Enoinaer - Address - Phone: Enaineer - Address:
Q. Grady Minor Willson Miller
3800 Via Del Rey 3200 Bailey Lane, Suite 200
Bonita Springs 34134 Naples, Florida 34105
David Schmitt Craig Pajer
239-949-6243
Contract Date: April 5, 2006 Contract Date: May 2, 2006
Final Contract Amount: $831,805.33 Final Contract Amount: $193,287.00
Comoletion Date: November 1, 2006 Comoletion Data: July 19, 2006
Proiect Name: Dortch Ave. Drainage & Paving Impvs. Proiect Name: Lehigh Acres Interconnect
Hampton Street Sidewalk Improvements with The City of Fort Myers
Owner - Address - Proiect Manacer - Phone: Owner - Address - Proiect Manaaer - Phone:
City of Bonita Springs
Public Works Department Florida Governmental Utility Authority
9101 Bonita Beach Road 280 Wekiva Springs Road, Suite 203
Bonita Springs, Florida Longwood, Florida 32779
239-949-6243 Enaineer. Address. Phone:
Encineer . Address - Phone: Malcom Pirnie, Inc.
Q. Grady Minor 2301 Maitland Center Parkway, Suite 425
3800 Via Del Rey Maitland, Florida 32751
Bonita Springs 34134 Victor Hurlburt
David Schmitt 407-659-5550
239-949-6243 Contract Date:
Final Contract Amount: June 15, 2006
Contract Date March 15, 2006 Comoletion Da~ $2.884,382.00
Final Contract Amount: $316,400.50 April 2007
Comoletion Date: August 1, 2006
EXPERIENCE STATEMENT. SOUTHWEST DIVISION
Proiect Name: Pump Station 109 and 113 Improvements .EI2i..EtC...LName: Marco Island Wastewater Treatment
Plant Expansion. Phase 1 Improvements
Owner. Address. Project Manaaer - Phone:
Collier County Owner . Address ~ Proiect Manaaer Phone:
Public Utilities Engineering City of Marco Island
3301 Tamiami Trail East, Building H 50 Bald Eagle Drive
Sandy Sridhar Marco Island, FL 34145
Mr. Bruce Weinstein
Enaineer. Address. Phone: 239.389-5182
Q. Grady Minor & Associates
3800 Via Del Rey Enaineer. Address" Phone:
Bonita Springs, Florida 34134 CDM
David Schmitt 9311 College Parkway
Fort Myers, FL 33919
Contract Date: February 8, 2006 Adam Soblenski
Final Contract Amount: $ 1,229,561.25 239-437-.9494
Comoletion Date: September 29, 2006
Contract Date: May 23, 2006
Final Contract Amount: $9,787,283.47
Comoletion Date: Januarv 17, 2007
Proiect Name: Appurtenance.s For Wells RO 101 N Proiect Name: Construction of Wells 35 & 36
and 102N
Owner . Address - Proiect Manaaer. Phone: Owner . Address - Proiect Manaaer. Phone:
Cotlier County CoUier County
Public Utilities Engineering Public Utilities Engineering
3301 Tamiami Trail East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Howard Brogdon
Peter Schalt
Enaineer - Address. Phone:
Enaineer. Address. Phone: Camp Dresser & McKee, Inc.
Hazen & Sawyer 9311 College Parkway, Suite 1
2101 Corporate Boulevard, Suite 301 Fort Myers, Florida 33919
Boca Raton, Florida 33431 Adam Sobolewski
Albert Muniz 239-432.9494
Contract Date: May 24, 2005 Contract Date: August 16, 2005
Final Contract Amount: $597,000.00 Final Contract Amount: $998,980.97
Comoletion Date: January 27, 2006 Comoletion Date: January 30, 2006
Proiect Name: 12th Avenue Interconnect Booster PS Project Name: NCWRF Rebuild filter Set 1
Clean and Paint Filter Beds
Owner ~ Address. Proiect Manaaer. Phone:
Collier County Owner. Address. Proiect Manaaer. Phone:
Public Utilities Engineering Collier County
3301 Tamiami Trail East, Building H Public Utilities Engineering Department
Naples, Florida 34112 3301 Tamiami Trail East, BUilding H
Peter Schalt Karen Guliani
Enaineer. Address - Phone:
Hazen and Sawyer Enaineer. Address. Phone:
1905 South 25th Street, Suite 103 Collier County
Fort Pierce, Florida 34947 Public Utilities Engineering Department
Albert Muniz 3301 Tamiami Trail East, Building H
Karen Guliani
Contract Date: August 8, 2005
Final Contract Amount: $1,083,000.00 Contract Date: March 1, 2005
Comoletion Dale: October 31, 2006 Final Contract Amount: $354,817.00
Comoletion Dale: September 14, 2005
EXPERIENCE STATEMENT - SOUTHWEST DIVISION
Proiect Name: SCWRF Rehabilitation Piping Proiect N~ Michigan Street Drainage Improvements
Odor Control Modifications
Owner - Address- Proiect Manaaer- Phone: .owner - Address - Proiect Manaaer - phone:
Collier County City of Bonita Springs
Public Utilities Engineering 9101 Bonita Beach Road
3301 Tamiami Trail East, Building H Bonita Springs, Florida 34135
Naples, Florida 34112 239..949-6262
Vaughn Williams
Enaineer - Address - Phone:
Enaineer ~ Address - Phone: Q. Grady Minor & Associates
Hole Montes 3800 Via Del Rey
950 Encore Way Bonita Springs, Florida 34134
Naples, Florida 34110 David Schmitt
E. Joseph Goetz, Jr.
239-254-2000
Contract Date: November 21, 2005 Contract Date: $243,610.00
Final Contract Amount: $217,900.00 Final Contract Amount: September 1, 2005
Comoletion Date: July 12, 2006 Comoletion Date:
Proiect Name: Richview Court Drainage Maintenance Proiect Name: 1-75 and Alice Road Interchange Reconstr.
Owner - Address ~ Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
City of Bonita Springs Florida Department of Transporation
Public Works Department Tallahassee, Florida
9101 Bonita Beach Road
Bonita Springs, Florida
239-949-6243
Enaineer - Address - Phone:
Enaineer - Address - Phone: Contractor: Engineer: Thomas Boyle
City of Bonita Springs Kiewit Southern 239-432-2732
Public Works Department 450 Dividend Drive 16999 James Whitehead Road
Peachtree City, Georgia Fort Myers, Florida 33912
Contract Date: December 27, 2005 Contract Date: October 5, 2005
Final Contract Amount: $29,333.50 Final Contract Amount: $1,288,742.63
Comoletion Date: January 30, 2006 Comoletion Date: June 2007
proiect Name: Culvert Replacement in the River Oaks, Proiect Name: Twin Lakes Interconnect
Palm River Subdivision
Owner - Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
Collier County Collier County
Stormwater Management Stormwater Management
2885 Horseshoe Drive 2885 Horseshoe Drive
Naples, Florida 34104 Naples, Florida 34104
Margaret Bishop Gianfranco Nicolaci
Enaineer - Address - Phone: Enaineer - Address ~ Phone:
Collier County Agnoli Barber & Brundage, Inc.
Stormwater Management 7400 Tamiaml Trail North, SUite 200
Naples, Florida 34108
Roger Sandrus
Contract Date: April 4, 2005 Contract Date September 12, 2005
Final Contract Amount: $576,642.50 Final Contract Amount: $750,120.76
ComDletion Date: July 8, 2005 Comoletion Date: March 1, 2006
TRENCH SAFETY ACT
Bidder acknowledges that included in the various items of the bid and in the Total Bid
Price are costs for complying with the Florida Trench Safety Act (90-96, Laws of Florida)
effective October 1, 1990. The Bidder further identifies the cost to be summarized
below:
Trench Safety
Measure
(Description)
Units of
Measure
(LF,SY)
Unit
Cost
Extended
Cost
Unit
(Quantitv)
1.
2.
3.
bertX+lIJJ6
!:x-o f IIlX9
$. / .0 Cl
.1;/.00
L~
GF
/ {)C;
~/cO. 00
6)00.00
100
4.
5.
TOTAL
$ rPOO.60
Failure to complete the above may result in the Bid being declared non-responsive.
Dated 3/5/10
Douglas N. Higgins, Inc.
Bidder
BY: _K!~a.wJkd,
GC-P-6
eo1flr County
- ~-
AFFIDAVIT FOR CLAIMING STATUS AS A LOCAL BUSINESS
ITB#:10-5446 (Check Appropriate Boxes Below)
STATE OF FLORIDA
AND
[]I COLLIER COUNTY D LEE COUNTY
PROPOSERlBIDDER/QUOTER AFFIRMS THAT IT IS A LOCAL BUSINESS AS
DEFINED BY THE PURCHASING POLICY OF THE COLLIER COUNTY BOARD OF
COUNTY COMMISSIONERS AND THE REGULATIONS THERETO.
AS DEFINED IN SECTION XI OF THE COLLIER COUNTY PURCHASING POLICY;
A "local business" is defined as a business that has a valid occupational license issued
by either Collier or Lee County for a minimum of one (1) year prior to a Collier County
bid or proposal submission that authorizes the business to provide the commodities or
services to be purchased, and a physical business address located within the limits of
Collier or Lee Counties from which the vendor operates or performs business. Post
Office Boxes are not verifiable and shall not be used for the purpose of establishing said
physical address. In addition to the foregoing, a vendor shall not be considered a "local
business" unless it contributes to the economic development and well-being of either
Collier or Lee County in a verifiable and measurable way. This may include, but not be
limited to, the retention and expansion of employment opportunities, the support and
increase to either Collier or Lee County's tax base, and residency of employees and
principals of the business within Collier or Lee County. Vendors shall affirm in writing
their compliance with the foregoing at the time of submitting their bid or proposal to be
eligible for consideration as a "local business" under this section.
Please provide the following information for the Proposer/Bidder/Quoter:
Year Business Established in ~Collier County or D Lee County: 19.
Number of Employees (Including Owner(s) or Corporate Officers): 51
Number of Employees Living in Q9 Collier County or ~ Lee (Including Owner(s) or
Corporate Officers): 26
GC-P-7
If requested by the County, proposer/bidder/quoter will be required to provide
documentation substantiating the information given in this affidavit. Failure to do so will
result in proposer/bidder/quoter's submission being deemed not applicable.
Douglas N. Higgins, Inc.
Proposer/Bidder/Quoter Name
K~ a.w~
Signature
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STATE OF ~~;'v1lrJ1It!aJ1N
VV?l..( JlitWlVfW COWl I 1
o COLLIER COUNTY 0 LEE COUNTY
Sworn to ~ Subscribed B~~: a Notary Public, for the above State and County,
on this rh Day of r;h, 20 10 .
~ dr,. ~
~ Notary Public
My Commission Expires:
}"l SllZi'~NNE: HA WK..ER
,", '.:' -, V''''-'h'e'l~''.' coun~ MI
Ncto'y t-';":J.iC, I'<.l~'.',' "'.. _ '
My Comrn!9sion ExpIres Mar 7, 011
.(AFfIX .OFFICIAL SEAL)
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GC-P-8
CERTIFICATE OF SECRETARY
The undersigned, being the duly elected secretary of
Douglas N. Higgins, Inc., a Michigan corporation, hereby
certifies that the following resolution was duly adopted by
the Board of Directors of said corporation at a meeting held
on May 15, 2009 and that said resolution is in full force
and effect:
"RESOLVED, That the following listed persons
are hereby authorized to execute, on behalf of
Douglas N. Higgins, Inc., any and all contracts and
documents."
Douglas N. Higgins
william D. Higgins
James H. Sweet
Kelly A. Wilkie
Dated:
May 15, ..1.009
I
1 !
t,)~
~S~Wk~
Secret y
STATE OF FLORIDA
DEPARTMENT OF BUSINESS AND PROFESSIONAL REGULATION
CONSTRUCTION INDUSTRY LICENSING BOARD
1940 NORTH MONROE STREET
TALLAHASSEE FL 32399-0783
HIGGINS, DANIEL.NORMAN
DOUGLAS N HIGGINS INC
3390 TRAVIS POINTE ROAD
SUITE A
ANNN ARBOR MI 48108
Congratulationsl With this license you become one of the nearly one million
Floridians licensed by the Department of Business and Professional Regulation.
Our professionais and businesses range from arch~ects to yacht brokers, from
boxers to barbeque restaurants, and they keep Florida's economy strong.
Every day we work to improve the way we do business in order to serve you better,
For information about our services, please log onto www.myfloridalicense.com.
There you can find more Information about our divisions and the regulations that
impact you, subscribe to department newsletters and learn more about the
Department's initiatives.
Our mission at the Department is: License Efficlentiy, Regulate Fairly. We
constantiy strive to serve you better so that you can serve your customers.
Thank you for doing business in Florida, and congratulations on your new license!
DETACH HERE
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..f,,,. ~.BT;rji;;q;:o GENERAL GONTR~:9 " - "J;.
::";; ..-IGGI.}.jS" DANIEL NORMAN -.,' :'"-
W~DOU$MS' N HIGGINS INC ,@':# .; j
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I certify from the records of this office that DOUGLAS N. illGGINS INC. is a
Michigan corporation authorized to transact business in the State of Florida,
, qualified on August 1,1973.
The document number of this corporation is 830666.
I further certify that said corporation has paid all fees due this office through
December 31, 2006, that its most recent annual report/uniform business report
was filed'on January 17,2006, and its status is active.
I further certify that said corporation has not filed a Certificate of Withdrawal.
Given1!!).der my hand and the
Great Seal of the State of Florida
at Tallahassee, the Capitol, this the
Twenty-fourth day ofJanuary, 2006
CR2E022 (01-06)
5~ 11. Ceb1
~u.e2Jl1I- 'ciruhh
~.emdlrr1I nf~tcrl.e
~___CountY_
AI:irinislrativ SeNioes DMsion
Purcl1asing
Immigration Affidavit
Bid # 10-5446
Title: NCWRF Compliance Assurance Project
This Affidavit is required and should be signed, notarized by an authorized principle of the firm and
submitted with formal Invitations to Bid (ITB's) and Request for Proposals (RFP) submittals. Failure to
include this Affidavit with proposal will delay in the consideration and reviewing of vendor's proposals and
could result in the vendor's proposal being deemed non-responsive.
Collier County will not intentionally award County contracts to any vendor who knowingly employs
unauthorized alien workers, constituting a violation of the employment provision contained in 8 U.S.C.
Section 1324 ate) Section 274A(e) of the Immigration and Nationality Act ("INA").
Collier County may consider the employment by any vendor of unauthorized aliens a violation of Section
274A (e) of the INA. Such Violation by the recipient of the Employment Provisions contained in Section
274A (e) of the INA shall be grounds for unilateral termination of the contract by Collier County.
Vendor attests that they are fully compliant with all applicable immigration laws (specifically to the 1986
Immigration Act and subsequent Amendment(s)) and agrees to abide by Collier County Employment
Eligibility Verification System requirements regarding this solicitation, . , ': .
Company
Name
Print Name
Douglas N. Higgins, Inc.
, '
,',."
Signature
Date
J. '\
Vll{-f(l~J'~1,1., . :' .'
'. 1
3/5/10.'\>'.: Cy
I' ,."., 1
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Kelly ,4-. Wil k~,/
i{tUfr(), (A,JJj{ij
STATE OF M/dt~
COUNTY OF IAJI.I aw
Title
The foregoing instrument was signed
M.arr,tJ ,2010, by
(Print ~!Yype Name)
fJ/J/}/,\)P1
(T of dentificatlon an
ubli Signature
, J
Printed Name of Notary Public R. s~rc;\,Nr;EH>.wK~I'.A
!'.I,'hn/ P':i"-,,:i~, \,'",[,~;j"',~,',';'1;;,'.'J,i '.lOL!nty, MI
Notary Commission Number/ExpiratronCOm,"iSOI00 Exo::." Mar 'I, 2011
before me this f,Ji;) day of
who has produced
as identification.
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The signee of this Affidavit guarantees, as evidenced by the sworn affidavit required herein, the truth and
accuracy of this affidavit to interrogatories hereinafter made, Collier County reserves the right, at any
time, to request supporting documentation as evidence of the vendor's compliance with this sworn
affidavit.
GC-P-9
Upon notification that its Bid has been awarded, the Successful Bidder will execute the
Agreement form attached to the Bidding Documents within ten (10) calendar days and
deliver the Surety Bond or Bonds and Insurance Certificates as required by the Contract
Documents. The bid security attached is to become the property of the Owner in the
event the Agreement, Insurance Certificates and Bonds are not executed and delivered
to Owner within the time above set forth, as liquidated damages, for the delay and
additional expense to the Owner, it being recognized that, since time is of the essence,
Owner will suffer financial loss if the Successful Bidder fails to execute and deliver to
Owner the required Agreement, Insurance Certificates and Bonds within the required
time period. In the event of such failure, the total amount of Owner's damages, will be
difficult, if not impossible, to definitely ascertain and quantify. It is hereby agreed that it
is appropriate and fair that Owner receive liquidated damages from the Successful
Bidder in the event it fails to execute and deliver the Agreement, Insurance Certificates,
and Bonds as required hereunder. The Successful Bidder hereby expressly waives and
relinquishes any right which it may have to seek to characterize the above noted
liquidated damages as a penalty, which the parties agree represents a fair and
reasonable estimate of Owner's actual damages at the time of bidding if the Successful
Bidder fails to execute and deliver the Agreement, Insurance Certificates, and Bonds in
a timely manner.
Upon receipt of the Notice of Award, the undersigned proposes to commence work at
the site within 5 calendar days from the commencement date stipulated in the written
Notice to Proceed unless the Project Manager, in writing, subsequently notifies the
Contractor of a modified (later) commencement date. The undersigned further agrees to
substantially complete all work covered by this Bid within the calendar days specified
below, computed by excluding the commencement date and including the last day of
such period, and to be fully completed to the point of final acceptance by the Owner
within specified consecutive calendar days (see below) after Substantial Completion,
computed by excluding commencement date and including the last day of such period.
Project Substantial com~letion Final Completion (Days/Dates)
/DavslDates
1) Pond NO.2 Aunust 1, 2010 AUQust27,2010
2) All other work 485 100
Respectfullv Submitted:
, I
State of M I rJ1 1M ail
County of Vfo. ~ 'kt1.MN'
r r
~pAJ~ It, NIIK/e , being first duly sworn on
oath deposes and says that the Bidder on the above Bid IS organized as indicated and
that all statements herein made are made on behalf of such Bidder and that this
deponent is authorized to make them.
eAt t.W\ (~~L--
that it has exami ed and carefully prepared
, also deposes and says
its Bid from the Bidding Documents,
GC-P-10
including the Contract Drawings and Specifications and has checked the same in detail
before submitting this Bid; that the statements contained herein are true and correct.
(a) Corporation
The Bidder is a corporation organized and existing
Michigan, which operates under
Douglas N. Higgins, Inc.
officers are as follows:
President~ tM N, (-hg@ 1115
Secretary R,jUlAflM (-fi\A;Jw
Treasurer (.wUI'lt'Vt l~k&Y
Vi ~~t W; tl,afl1 P. tlleqlns; JtU1% H .JntBf I Kelly fL l4i Ihe
The fI., {~ it ,W1ki, '00 -(Jff,{Icif;.1-f is authorized to sign construction bids
and contracts for the company by action of its Board of Directors taken
MaLL. I b, UXA , a certified copy of which is hereto attached (strike
out this lasflsentence if not applicable),
under the laws of the State of
the legal name of
, and the full names of its
(b) Co-Partnership
The Bidder is a co-partnership consisting of individual partners whose full names are as
follows:
The co-partnership does business under the legal name of:
(c) Individual
The Bidder is an individual whose full name is
and if operating under a trade name, said trade name is
GC-P-11
DATED 3/5/10
Signatur
'0 U -Pff.J1dtnf
Title
Douglas N. Higgins, Inc.
legal entity
DOll ta..s N. t-h lVU ]);0..
Name f Bidder (T d) ,()~..' ':' <....
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Witness ~,p Pl. ..fW'A-I~
BY:
STATE OF fV1idtl.40J;]
COUNTY OF Wa..M tatcuN
The foregoin in trument w1as acknowledged before me this E:-H1 ,day q{ {tW'U'1
2010,by ihWI k ,asVtCf-f/Yr?,5/dthf
of .f {.s: C - , a f corporation, on
behalf of e corpora He/she is personally known or has produced
as identification
and did (did not) take an oath.
P-, ~~,-'':.~~,~ii'.!E Hft.Wt<!Ej:l
.. '~". -" '. ,... t Ml
NO':.;:H" puV"c, W8,sl',~~n"rtJ \Joun.~611
My SJfDI:0i-oSiOrl Exp:rGs Mar 7, 2
".'"Il,_' '
NAME:
(s!a~)~
f< . i{j 7/f1 fjl1-e .Hr1W~
(Legibly Printed)
My Commission Expires:
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. : ',,' cc\)'.,
Notary Public, State of M/ UUjd)1
Commission No.:
GC-P-12
BID BOND
KNOW ALL MEN BY THESE PRESENTS, that we Douglas N. Higgins, Inc.
(herein after called the Principal) and
Hartford Accident and Indemnity Company ,
(herein called the Surety), a corporation chartered and existing under the laws of the
State of CT with its principal offices in the city of Hartford
and authorized to do business in the State of FL are held and
firmly bound unto the Board of County Commissioners Collier COllnty. 1'1.
(hereinafter called the Owner), in the full and just sum of
five percent of attached bid dollars ($ 5% )
good and lawful money of the United States of America, to be paid upon demand of the
Owner, to which payment well and truly to be made, the Principal and the Surety bind
themselves, their heirs, and executors, administrators, and assigns, jointly and severally
and firmly by these presents.
Whereas, the Principal is about to submit, or has submitted to the Owner, a Bid for
furnishing all labor, materials, equipment and incidentals necessary to furnish, install,
and fully complete the Work on the Project known as
NCWRF Compliance Assurance Project
Bid No. 10-5446
NOW, THEREFORE, if the Owner shall accept the Bid of the PRINCIPAL and the
PRINCIPAL shall enter into the required Agreement with the Owner and within ten days
after the date of a written Notice of Award in accordance with the terms of such Bid, and
give such bond or bonds in an amount of 100% the total Contract Amount as specified in
the Bidding Documents or Contract Documents with good and sufficient surety for the
faithful performance of the Agreement and for the prompt payment of labor, materials and
supplies furnished in the prosecution thereof or, in the event of the failure of the
PRINCIPAL to enter into such Agreement or to give such bond or bonds, and deliver to
Owner the required certificates of insurance, if the PRINCIPAL shall pay to the OBLIGEE
the fixed sum of $_ noted above as liquidated damages, and not
as a penalty, as provided in the Bidding Documents, then this obligation shall be null and
void, otherwise to remain in full force and effect.
GC-P-13
IN TESTIMONY Thereof, the Principal and Surety have caused these presents to
be duly signed and sealed this 5th day of March ,2010.
Douglas N. Higgins, Inc.
Principal
k~ct,w~
1(. I~ ft. W.1l(ti I V'U' fre>Idlf1"
Hartford Acc' ent and Indemnity Company
(Seal)
BY
Countersigned
Surety
(Seal)
Local Resident Producing Agent for Hylant Group,
Ann Arbor,
MI 48106
GC-P-14
POWER OF ATTORNEY
Direct Inquiries/Claims to:
THE HARTFORD
BOND, T-4
P.O. BOX 2103, 690 ASYLUM AVENUE
HARTFORD. CONNECTICUT 06115
call: 888-266-3488 or/ax: 860-757-5835
Agency Code: 35-350851
KNOW ALL PERSONS BY THESE PRESENTS THAT:
ITI Hartford Fire Insurance Company, a corporation duly organized unc:h the laws of the State ofConnectictt
ITI Hartford Casualty Insurance Company, a corporation duly organized under the laws of the State ofhdiana
ITI Hartford Accident and Indemnity Company, a corporation duly organized unerr the laws of the State of Connecticut
D Hartford Underwriters Insurance Company, a corporation duly organized umk:T the laws of the State of Connecticut
D Twin City Fire Insurance Company, a corporation duly organized under the laws of the State of IndilIla
D Hartford Insurance Company of Illinois, a corporation duly organized unrer the laws of the State of Illinois
D Hartford Insurance Company of the Midwest, a corporation duly organized under the laws of the State of Indiana
D Hartford Insurance Company of the Southeast, a corporation duly organized unler the laws of the State of Florida
having their home office in Hartford, Connecticut, (hereinafter collectively referred to as the "Companies") do hereby make, constitute and appoint,
up to the amount of unlimited:
Dan Hines, Heather M. Johnson, Judy K. Macklem, Carol J. Youngs
of
Ann Arbor, MI
their true and lawful Attorney(s)-in-Fact, each in their separate capacity if more than one is named above, to sign its name as surety(ies) only as
delineated above by [81, and to execute, seal and acknowledge any and all bonds, undertakings, contracts and other written instruments in the
nature thereof, on behalf of the Companies in their business of guaranteeing the fidelity of persons, guaranteeing the performance of contracts and
executing or guaranteeing bonds and undertakings required or permitted in any actions or proceedings allowed by law.
In Witness Whereof, and as authorized by a Resolution of the Board of Directors of the Companies on January 22, 2004 the Companies
have caused these presents to be signed by its Assistant Vice President and its corporate seals to be hereto affixed, duly attested by its Assistant
Secretary. Further, pursuant to Resolution of the Board of Directors of the Companies, the Companies hereby unambiguously affinn that they are
and will be bound by any mechanically applied signatures applied to this Power of Attorney,
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Paul A. Bergenholtz, Assistant Secretary
M. Ross Fisher, Assistant Vice President
STATE OFCONNECTICUT}
55. Hartford
COUNTY OF HARTFORD
On this 3rd day of March, 2008, before me personally came M. Ross Fisher, to me known, who being by me duly sworn, did depose and
say: that he resides in the County of Hartford, State of Connecticut; that he is the Assistant Vice President of the Companies, the corporations
described in and which executed the above instrument; that he knows the seals of the said corporations; that the seals affixed to the said
instrument are such corporate seals; that they were so affixed by authority of the Boards of Directors of said corporations and that he signed his
name thereto by like authority.
Scott E. Paseka
Notary Public
CERTIFICATE My Commission Expires October 31,2012
i, the undersigned, Assistant Vice President of the Companies, 00 HEREBY CERTIFY that the above and foregoing is a true and correct
copy of the Power of Attorney executed by said Companies, which is still in full force effective as of March 5, 2010.
Signed and sealed at the City of Hartford.
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Gary W. Stumper, Assistant Vice President
BUSINESS CONTACT INFORMATION
Douglas N. Higgins, Inc.
(Firm's Complete Legal Name)
Main Business
3390 Travis pointe Rd., Ste. A
(Address)
Ann Arbor, MI 48108
(City, State, ZIP)
Contact Name
Title
Phone No. 734-996-9500
FAX No. 734-996-8480
Email address:
****************************************************************************************************
ADDITIONAL CONTACT INFORMATION
Send Payments To
(REQUIRED ONLY if different from above)
(Company Name used as Payee)
(Address)
(City, State, ZIP)
Contact Name
Title
Phone No.
FAX No.
Email address:
Office Servicing Collier County Account
/Place Orders/Request Supplies
(REQUIRED ONLY if different from above)
4485 Enterprise Avenue
(Address)
Naples, FL 34104
(City, State, ZIP)
Contact Name Brandy Bartolone
Title Reqional Manaqer
Phone No. 239-774-3130
FAX No. 239-774-4266
Email Address:brandvb@dnhiqqins.com
GC-P-15
THIS SHEET MUST BE SIGNED BY VENDOR
BOARD OF COUNTY COMMISSIONERS
COLLIER COUNTY, FLORIDA
Purchasing Department
BIDDERS CHECK LIST
IMPORTANT: Please read carefully, sign in the spaces indicated and return with
your Bid.
Bidder should check off each of the following items as the necessary action is completed:
1. The Bid has been signed.
2. The Bid prices offered have been reviewed.
3. The price extensions and totals have been checked.
4. Any required drawings, descriptive literature, etc. have been included.
5. Any delivery information required is included.
6. Local Vendor Preference Affidavit completed.
7. Immigration Affidavit completed.
8. Certificate of Authority to Conduct Business in State of Florida.
9. If required, the amount of Bid bond has been checked, and the Bid bond or
cashiers check has been included.
10. Any addenda have been signed and included.
11. The mailing envelope has been addressed to:
Purchasing Director
Collier County Government Center
Purchasing Building
3301 Tamiami Trail, East
Naples, Florida 34112
12. The mailing envelope must be sealed and marked with:
~Bid Number; 10-5446
~Project Name; NCWRF Compliance Assurance Project
~Opening Date. March 5, 2010
13. The Bid will be mailed or delivered in time to be received no later than the
specified ooeninQ date and time. (Otherwise Bid cannot be considered.)
ALL COURIER-DELIVERED BIDS MUST HAVE THE BID NUMBER
AND PROJECT NAME ON THE OUTSIDE OF THE COURIER PACKET
Douglas N. Higgins, Inc.
Bidder Name
K~o..wrJi0~ VtC/-PfeJ/duJi
Signatur TItle
DATE: 3/5/10
GC-P-16
o CORPORATE OFFICE
3390TRAVIS POINTE ROAD
SUITE A
ANN ARBOR, MJ 481 08
(734)996-9500
FAX: (734)996-8480
STATEMENT OF QUALIFICATIONS AND EXPERIENCE OF BIDDER
o REGIONAl OffiCE
4485 ENTERPRISE AVE.
NAPLES, Fl34104
(239)n4-3130
FAX: (239) 774-4266
1. Describe all project litigation, mediation and arbitration initiated by the bidder or one of its affiliates on
construction projects in the past eight years. Identify the current status of Initiated action.
In the past eight years we had only one arbitration initiated by a subcontractor on a project for the
South Florida Water Management District. This arbitration was due to different interpretations of a
poorly written and contradicting set of specifications regarding the inclusion of door hardware costs in
an allowance item. The arbitration took one day to resolve and the agreed compensation was roughly
$90,000.00. Oouglas N. Higgins, Inc. contributed money to the settlement to get the matter resolved.
We are In good standing with the South Florida Water Management District, we are on their
prequalified contractors list, and continue to do work for them. This initiated action is closed. We
have completed over $200,000,000.00 in work in the last eight years and this is the only initiated
action and it was resolved amicably.
2. Describe all litigation, mediation, arbitration, regulatory citations and hearings involving the bidder or
one of its affiliates involving labor disputes, discrimination complaints or safety violations on
construction projects in the last eight years.
We have had no labor disputes or discrimination complaints in the last eight years. We had OSHA
citation number 307297929 in May of 2004 regarding trench safety concerns with a penalty amount
of $3,038.00. We had OSHA citation number 311083570 in July of 2007 regarding confined space
concerns with a penalty amount of $3,750.00. Both of these citations were addressed and our safety
is continually improving. Our current Experience Modification Rating (EMR) rating is significantly
better than the industry standard and is currently at 0.86. This rating shows our lack of accidents and
injuries and allows us to pass on our workman's compensation savings on to the Owner.
3. Identify and describe In detail all construction projects in the last eight years involving the bidder or one
of its affiliates for which liquidated damages were assessed by the project owner on any partial or final
progress payment, even if those damages were not ultimately collected by that owner.
We have had only one project in the last eight years where we were charged liquidated damages. This
project was for the South Florida Water Management District. We had a significant subcontractor miss
his time commitments and cause the project to miss the substantial completion date. We settled with
the South Florida Water Management District and passed the damages on to our Subcontractor. We
fulfilled our obligations under the contract and did not take missing the schedule and paying the
damages lightly. We are in good standing with the South Florida Water Management District, we are
on their prequalified contractors list, and continue to do work for them. This inititated action is closed.
10f4
E.E.O.
o CORPORATE OFFICE
3390 TRAVIS POINTE ROAD
SUITE A.
ANN ARBOR,MI 4B10B
(734)996-9500
FAX: (734) 996-8480
4. Identify and describe in detail all construction projects underway within the last eight years during which
the owner issued any type of warning notice to remedy a situation or face contract default.
o REGIONAL OFFICE
4485ENTERPRISEA.VE.
NAPLES, Fl34104
(239}7i4-3130
FAX: (239) 774-4266
In the last years we have not been warned that we were at risk of a contract default.
5. Describe in detail the bidder's prior project experience with the proposed major subcontractors.
The two major subcontractors that we are proposing are Gulf States Electrical and Earthtech
Enterprises. Both of these subcontractors are local to Collier County. Gulf States Electrical is an
electrical and instrumentation subcontractor and has completed 80% of our Electrical and
Instrumenation work on the projects listed in our experience documentation. More specifically Gulf
States Electrical was part of our successful team for the two similar projects listed, the Marco Island
Wastewater Treatment Plant Expansion and the Golden Gate WWTP and Injection Pump Station
project.
Earthtech Enterprises is a local earthwork subcontractor that has completed 90% of our subcontracted
earthwork on the projects listed in our experience documentation. More specifically Earthtech was
part of our successful team that completed the Gateway Triangle Stormwater Improvements for
Collier County In 2008. Eathtech Enterprises, using their local knowledge and workforce, will be critical
to the completion of the critical time line required for the pond work
2of4
EEO.
o CORPORATE OffiCE
3390 TRAVIS POlNTE ROAD
SUITE A
ANN ARBOR, Ml481 08
(734)996-9500
FAX; (734) 996-8480
o REGIONAl OFFICE
4485 ENTERPRISE AVE.
NAPLES,Fl34104
(239)774-3130
FAX: (239)774-4266
Bidder's ProDosed Proiect Team EXDerience and References
Provide project experience for the past five years for each proposed team member on a separate document
submitted with the bid proposal. Identify how long each team member has been with the Bidder's
organization. Project experience information must include the following: employer, name and location and
full description of project, date of completion, final cost, and project contact references including name, title,
telephone number and email address for each contact reference. Identify any professional and occupational
licenses held by each proposed team member.
Name of Bidder's Officer Responsible for Project:
Daniel Higgins
Name of Project Manager: Brandy Bartolone
Name of Field Superintendent: Ken Fritz
Name of Project Engineer/Technician: Dereck Moorley/Mike Lobello
Name of Project Scheduler: Brandy Bartolone/Dereck Moorlev/Outside Professional Proiect Scheduler
Daniel Higgins has worked as the Officer Responsible for all the listed project experience. Brandy Bartolone,
Ken Fritz, Dereck Moorley, and Mike Lobello haye worked on the majority of the Collier County and Lee County
work listed in our project experience. Both Dereck Moorely and Mike Lobello are listed for the Project
Engineer/Technician because of the critical timelines and coordination that this project requires. Brandy
Bartolone and Dereck Moorley will work with an outside, experienced, professional scheduler to make sure the
project is completed on time and with minimal impact to the Wastewater Plant operations.
Resumes for Daniel Higgins, Brandy Bartolone, Ken Fritz, Dereck Moorley, and Mike Lobello are attached.
30f4
E.E.O.
o CORPORATE OFFICE
3390 TRAVIS POINTE ROAD
SU!TI:A
ANN ARBOR, MI48108
(734)996-9500
FAX: (734) 996-84BO
o REGIONAL OFFICE
4485 ENTERPRISE AVE.
NAPLES,FL34104
(239)774-3130
FAX: (239) 774-4266
Bidder's Similar Proiect Exoerience
On a separate document submitted with the bid proposal, the bidder must provide project experience on at
least three similar projects in size and scope within the past five years. Project experience information must
include the following: name and location and full description of project, date of compietion, initial contract
amount, final contract amount and project contact references including name, title, telephone number and
email address for each contact reference.
See the attached sheets.
Bidder's Proiect Exoerience
Provide all project experience for the past eight years on a separate document submitted with the bid
proposal. Project experience information must include the following: name and location and full description
of project, date of completion, and final cost.
See the attached sheets, Group 1 and Group 2.
40f4
E.E.O.
RESUME
Daniel N. Higgins
Position
Florida Division Manager responsible for the procurement and execution of construction projects
throughout Florida and for attracting, developing and retaining high quality people who provide
our servIces.
Technical Experience
Storm Sewer Pipeline/Utilities
Marinas Site Development
Roads and Bridges
Wand WWTP's
Shoring/Sheeting
Pump Stations
Demonstrated Competence
Construction Mgt. Customer Satisf.
Subcontract Mgt. Job Purchasing
Safety Results
Quality Control
Contract Admin.
CPM Scheduling
Summary Work Historv
D.N. Higgins, Inc., since August, 1996
Vice President and Division Manager - Hired for my management skills needed to
maintain our reputation as an excellent constructor of underground pipe, utility, pump
station, general contracting, plantiind emergency projects.
General Electric, Bloomington, IN, 1996
Managed a small business unit with 110 employees making refrigeration units for side by
side refrigerators. Responsible for all aspects of the business; safety, quality,
productivity, training, new product development, and cost control. Improved all aspects
of our small business unit while always delivering to our customer (mainline production).
General Electric, Erie, P A, 1995
Managed a small business unit 30 employees making power units for locomotives.
Respnsible for all aspects of the business; safety, quality, productivity, training, new
product development, and const control. Reduced costs by 30% implementing an
improved piece work process.
General Electric, Decatur, AL, 1994
Project Engineer for a small refrigerator manufacturing plant. Implemented various
projects to improve productivity, safety, and quality. Managed a team that installed a
manufacturing line for a new product.
D.N.Higgins, Inc., MI, 1988-1996
Laborer, Operator, Foreman, Project Manager, Vice President and Division Manager.
Worked on various utility/pipeline projects in the summers. Developed technical
experience in underground construction that is extremely important in my present
position.
Education
BSE, Mechanical Engineering, University of Michigan, 1993, Summa Cum Laude
RESUME
Brandy Bartolone
Position
Florida Regional Manager for the Southwest Region of Douglas N. Higgins, Inc. Responsible for the
procurement and execution of construction projects and for attracting, developing and retaining high quality
personnel and subcontractors who provide our services,
Technical Experience
Storm Sewer Pipeline/Utilities
Sanitary Sewer Shoring/Sheeting
Underground Ped Tunnels
Roads and Bridges
Excavation
Drainage Structures
Site Development
Demonstrated Competence
Construction Mgt. Customer Satisfaction.
Subcontract Mgt. Job Purchasing
Safety Results
Quality Control
Contract Admin.
CPM Scheduling
Summary Work History
D.N. Higgins, Inc., since October, 2003
Hired to manage all Southwest Florida underground pipe, utility, pump station, plant, general
contracting and emergency projects. Responsible for all management and field operations for the
Southwest Florida Region of Douglas N. Higgins, Inc.
Bartolone Excavating, Inc., January 1996 to 2003
Installed septic lines, downspout lines and trenching. Expanded to include basement excavation and
small commercial site work progressing to full-scale commercial work and smaller public work jobs.
Later expansion, 1999, included water main and service work, storm sewer and drainage structures
and sanitary sewer work including deep excavation and shoring. Also performed roadway
reconstruction including complete tear out, new curb and gutter, sidewalk replacement, asphalt
paving, striping and restoration work. Company jobs have included pedestrian bridges for local bike
and hiking trails, and underground pedestrian tunnels.
Bitzel Excavating, Inc., June 1991 - January 1996
Pipe Layer, Heavy Equipment Operator
United States Marine Corps, June 1987 - June 1991
Heavy Equipment Operator. Gulf War Veteran
Education/Skills
Extensive computer skills
Commercial Drivers License
OSHA Certified in Trench excavation Safety
IMSA - Florida Work Zone Safety
NPDES - Florida Stormwater, Erosion, and Sedimentation Control Inspector Certification
References
COLLIER COUNTY PUBLIC UTILITIES ENGINEERING DEPARTMENT Phone: (239) 530-5335
COLLIER COUNTY PUBLIC UTILITIES DIVISION - WATER DISTRIBUTION Phone: (239) 775-2007
COLLIER COUNTY W ASTEW A TER COLLECTIONS Phone: (239) 591-0186
COLLIER COUNTY STORMW A TER MANAGEMENT AND TRANSPORA TION DEPARTMENT
Phone: (239) 774-8192
CITY OF MARCO ISLAND- PUBI.IC WORKS Phone: (239) 389-5000
RESUME
Kenneth Fritz
Position
Field Superintendent responsible for ongoing projects and field schedules of manpower and
equipment to complete work in Florida's Southwest Region.
Technical Experience
Job Superintendent, scheduling equipment needed to perform field tasks. Onsite ordering of
materials. Familiar with paving, concrete, piling, utilities, cofferdams, site work, and plant work.
Plumbing, Mechanical, Survey Equipment, Equipment Operator, Crane Operator, Concrete,
Water/Wastewater Plant Construction including mainline installation.
Demonstrated Competence
Field scheduling of subcontractors, safety procedures, job planning, construction methods,
maintenance of traffic, equipment maintenance, scheduling, material procurement and customer
satisfaction.
Summary Work Historv
D.N. Higgins, Inc., since May 2004
Underground Utilities - water, sewer and storm sewer. Mechanical Construction. General
Construction. Heavy equipment operator. Survey and Laser equipment. Supervise all
aspects of jobs and crews.
M.F. Ronca & Sons, Inc. 1996 to November 2003
Job site foreman for public utility contractor. Read and interpret blueprints, design
As-built drawings, site layout and excavation, scheduling subcontractors and overseeing
crews.
Country Craftsmen Custom Homes, 1994 to 1996
Superintendent for excavation division of new home builder. Excavation of home sites,
excavation of footers and basements, septic systems (standard and mound systems), install
well and sewer lines, rough and final grading and schedule maintenance of equipment and
use of crews.
Education
Engineering Major - Northampton County Community College
NSC - Trenching & Excavation - Competent Person Training
References
COLLIER COUNTY PUBLIC UTILITIES ENGINEERING DEPARTMENT Phone: (239) 530-5335
COLLIER COUNTY PUBLIC UTILITIES DIVISION - WATER DISTRIBUTION Phone: (239) 775-2007
COLLIER COUNTY WASTEWATER COLLECTIONS Phone: (239) 591-0186
COLLIER COUNTY STORMW A TER MANAGEMENT AND TRANSPORA TION DEPARTMENT
Phone: (239) 774-8192
CITY OF MARCO ISLAND - PUBLIC WORKS Phone: (239) 389-5000
RESUME
Dereck Moorley
Position
Project ManagerlEngineer - Provide direction, guidance and assistance for Collier County Projects.
Coordinate daily work activities, organize and prioritize and provide technical oversight. Review
construction plans and specification and coordinate submittals and maintain records. Versed in contract
negotiations, document preparation such as: scheduling, submittals, change orders, requests for information,
identifying impending design problems, all applicable underground standards, building permits, material
procurement, and site management
Technical Experience
Water Reclamation Facility
County and State Codes
Stormwater Drainage
Water Treatment Plant
Quality Control
ASR Systems
Design Engineering
Permitting
CPM Scheduling
Proiects Completed
Collier Seminole State Park - Wastewater Treatment Plant Abandonment and Municipal Sewer Connection
US41 Water main
Everest Outfall Pressure Main, City of Cape Coral
SCRWTP Wells 39S, 40S, 41S & 42S, Collier County
Reclaimed Water Aquifer Storage and Recovery, Collier County
CAT Operations Center Pump Station & Force Main, Collier County
South Bleach Facility Improvements - NCWRF, Collier County
Gateway Triangle Stormwater Improvements - Phase I, Collier County
NCRWTP & SCRWTP Sand Separators, Collier County
Current Projects
NCRWTP Chemical Injection, Collier County
Naples Pier Lift Station, City of Naples
Treeline Master Pump Station, City of Fort Myers
Golden Gate WTP Expansion to 1.5 MGD - Florida Governmental Utility Authority
Summary Work Historv
D,N. Higgins, Inc., since September 2005
Project ManagerlEngineer for various projects in Collier County. Prepares reports, maintains
records, coordinates submittals and provides technical oversight
Collier County Government, 200 I to 2005
Collier County Public Utilities Engineering Department, Project Manager.
Florida Department of Transportation ~ ITS Department
ITS Control Center Operator - Managed incidents (accidents, disabled vehicles, etc.).
Education/Skills
Florida International University - Engineering Management, MSc
University of the West Indies - Mechanical Engineering, BSc
NSC - Trenching & Excavation - Competent Person Training
NSC - Scaffolding - Competent Person Training
References
COLLIER COUNTY PUBLIC UTILITIES ENGINEERING DEPARTMENT Phone: (239) 530-5335
COLLIER COUNTY PUBLIC UTILITIES DIVISION - WATER DISTRIBUTION Phone: (239) 775-2007
COLLIER COUNTY WASTEWATER COLLECTIONS Phone: (239) 591-0186
COLLIER COUNTY STORMWATER MANAGEMENT AND TRANSPORATION DEPARTMENT
Phone: (239) 774-8192
CITY OF MARCO ISLAND -- PUBLIC WORKS Phone: (239) 389-5000
Resume
MICHAEL A. LO BELLO
EDUCATION
B.S., Mechanical Engineering
EXPERIENCE
Lehigh University - Bethlehem, PA
Project Manager
Douglas N. Higgins, Inc. - Naples, FI June 2006-Present
Manage all aspects of municipal infrastructure projects including bidding and quoting, scheduling, material
procurement, RFI and change order development, constructability, startup and certification, project closeout and
warranty response. Completed and current projects:
. Marco Island WWTP Phase I Expansion - City of Marco Island - $9,7M
. Collier County Complex Irrigation Quality Water Project - Collier County Facilities Mgmt - $1.2M
. North Marco Waste Water Collection System Expansion -- City of Marco Island - $4.4M
. North Barfield Waste Water Collection System Expansion - City of Marco Island - $6.3M
. NCRWTP Chemistry Lab Ventilation Improvements - Collier County Public Utilities - $683,000.00
. Master Pump Station 3.16 Renovation - Collier County Public Utilities - $734,000.00
. Master Pump Station 3.18 Renovation - Collier County Public Utilities - $784,000.00
Project Manager
Collier County Department of Facilities Management - Naples, PI September 200S-June 2006
Manage renovation, repair and utility projects in all County facilities. Establish scopes of work, hire design
professionals and contractors, oversee work, and manage budgeting and scheduling. Support the Director with
due-diligence, research and technical insight. Act as essential personnel during states of emergency. Was the
primary project manager for County-wide damage due to hurricane Wilma.
Development Coordinator
Fields Development Group - Hoboken, NJ November 2004-July ZOOS
Managed the development of low, mid and high-rise mixed-use projects. Coordinated consultants during design
phases, planning board review and construction document creation. Obtained environmental, utility and
construction permits. Provided real estate prospecting services to the company President and Vice President.
Project Management Assistant
Fields Construction Corp. - Hoboken, NJ November 2004-JuIy 2005
Cost Estimating of low, mid and high-rise mixed-use projects. Advised on current construction code requirements,
new construction materials, methods and equipment. Designed, bid and managed repair and reconstruction
projects on completed buildings.
Municipal Engineer
Remington & Vernick Engineers - Haddonfield, NJ April2003-Nov.2004
Consultant to municipal boards and councils for the oldest and largest municipal engineering consulting firm in the
state. Capital - Obtained grants, designed, bid and managed capital improvement projects to $2M. Developmental-
Evaluated site plan and subdivision applications covering 160 acres and containing over 170 residential lots in
accordance with land use law and advised municipalities on approval. Negotiated performance guarantees
generating $500,000 in inspection revenue,
Design Engineer
Remington & Vernick Engineers - Haddonfield, NJ Feb. 2002-March 2003
Designed and administered projects of broad scope including storm and wastewater, plumbing and HV AC.
Provided coordination among clients, architects, contractors and project management firms.
o CO~PORATE OffiCE
3390 TRAVIS POINTE ROAD
SUITE A
ANN ARBOR, Ml48108
(734)996-9500
FAX: (734) 996-8480
SIMILAR PROJECT EXPERIENCE
Proiect Name:
Marco Island Wastewater Treatment
Plant Expansion - Phase 1 Improvements
Owner - Address - Phone:
City of Marco Island
50 Bald Eagle Drive
Marco Island, FL 34145
Mr. Bob Creighton
239-389-5182
e-mail address:bcreighton@cityofmarcoisland.com
Enqineer - Address - Phone:
CDM
9311 College Parkway
Fort Myers, FL 33919
Adam Soblenski
239-437-9494
e-mail address:SobolewskiAM@CDM.com
Contract Date:
Initial Contract Amount:
Final Contract Amount:
Completion Date:
May 23, 2006
$8,943,000.00
$9,787,283.47
January 17, 2007
Description:
Wastewater Treatment Plant Upgrade and Expansion. Work included
modification of the existing headworks with new drum screens and
washer/compactors, membrane bioreactor (MBR) installations,
modifications to the existing WWTP Tank #3 entailing new piping and
new fine bubble diffusers, repairs to multiple equalization tanks,
digester modifications, major electrical/controls work, and significant
yard piping. Work was coordinated with the continuous operations of the
existing plant. NOTE: The increase in the contract amount was due to
work requested and added to the contract, not additional money for work
intended under the original contract. NOTE: This project had $4,500,000 in
owner supplied equipment making it a larger project than showed by the contract.
Location:
Marco Island, FL
lof3
E.E.O.
o REGIONAL OFFICE
4485 ENTERPRISE AVE.
NAPLES, Fl34104
(239)n4-3130
FAX:(239)n4-4266
o CORPORATt DFACE
3390 TRAVIS POINTE ROAD
SUlTEA
ANN ARBOR, Ml 48108
g34) 996-9500
FAX; (734) 996-8480
Proiect Name:
Bay Point Water and Wastewater System Improvements
Owner - Address - Phone:
FLORIDA KEYS AQUADUCT AUTHORITY
1100 Kennedy Drive
Key West, FL 33041
Jim Reynolds
305-296-2454
e-mail address:jreynolds@fkaa.com
Enaineer - Address - Phone:
Boyle Engineering Corp.
4415 Metro Parkway, Suite 404
Fort Myers, FL 33919
Alfred J. Mittle
239-278-7996
e-mail address:Fred.Mittl@aecom.com
Contract Date:
Initial Contract Amount:
Final Contract Amount:
Completion Date:
March 1, 2004
$5,158,715.27
$5,192,140.82
April 1, 2006
Description:
This project included a complete Wastewater Treatment Plant. Work
included yard piping, tank foundations, process tanks, process equipment,
odor control, a pre-engineered building, effluent disposal wells,
electrical & instrumentation, and a vacuum station. We self performed
work and utilized significant subcontractors to complete this work.
As you can see above the contract came in very close to the original
contract amount.
Location:
Lower Keys, FL
2 of 3
E.E.O.
o REGIONAl OFFICE
4485 ENIDlPRISE AVE
NAPlES,R.34104
(239)n4-3130
FAX:(239)n4-4266
o CORPORATE OFFlCE
3390 TRAVIS POINTE ROAD
SUITE A
ANN ARBOR, Ml4810a
(734)996-9500
FAX: (734) 996-8480
o REGIONAL OFACE
4485 ENTERPRISE AVE.
NAPLES,FL34104
(239) 774-3130
fAX: (239) n4-4266
Proiect Name:
Golden Gate WWTP and Injection Pump Station
Owner - Address - Phone:
Florida Government Utility Authority
280 Wekiva Springs Rd, Suite 2000
Longwood, FL 32779
Tarek M. Fahmy,
407-629-6900
e-mail address:tfahmy@govmserv.com
Enqineer - Address - Phone:
Arcadis
4307 Vineland Rd, Suite H-20
Orlando, FL 32811
407-236-5700
Contract Date:
Initial Contract Amount:
Final Contract Amount:
Completion Date:
September 1, 2008
$2,243,000.00
$2,614,491.18
March 1,2010
Description:
Expansion to the Golden Gate City WWTP including a new Injection Well
Pump Station. Work included modifications to the Headworks, two
Clarifier's, the Biosolids Digester, sludge pumps, yard piping,
electrical/instrumentation, pump station work, and injection well feed pumps.
NOTE: The increase in the contract value was for owner requested additional
work and was not for increased costs due to intended work under the
original contract.
Location:
Collier County, FL
3 of 3
EEO.
DOUGLAS. N. HIGGINS, INC.
EXPERIENCE - PAST EIGHT YEARS - GROUP 1
Proiect Name: City County Flow Swap Proiect Name: Collier County Justice Center
Owner - Address - Proiect Manaaer - Phone: Owner + Address - Proiect Manaaer - Phone:
Collier County Public Utilities Engineering Collier County Facilities Management Department
3301 East Tamiami Trail, Buil!:ling H 3301 East Tamiami Trail
Naples, Florida 34112 Naples, Florida 34112
Sandy Sridhar John Clements
Enaineer - Address - Phone: Enaineer. Address - Phone:
Agnoll, Barber and Brundage Q. Grady Minor and Associates, P.A
7400 Trail Blvd. 3800 Via Del Rey
Naples, Florida 34102 Bonita Springs, Florida 34134
Dominic Amico David Schmitt
239+947+1144
Contract Date: Contract Date: $81,950.00
Final Contract Amount Final Contract Amount $141,568.41
Comoletion Date: Comoletion Date: August, 2009
Proiect Descriotion: Proiect Descnotion:
Installation of force main, MOV's and valve vaults to two Construction of grinder pump station (vault), installation of
locations which would allow bypass from Collier County muffin monster (grinder/auger assembly), new sanitary sewer
to the City of Naples. and manholes. Replacement of the existing sanitary sewer
with a new 12-inch main and a high water alarm system.
Proiect Name: Pump Station S-6 Gearbox Replacement Proiect Name: Cove Stormwater Pump Station Imp.
Owner. Address - Proiect Manaaer - Phone: Owner - Address - proiect Manaaer - Phone:
South Florida Water Management District City of Naples
2101 Centrepark West Drive, Suite 110 Department of Streets and Stormwater
West Palm Beach, Florida 33409 295 Riverside Circle
Gerard Flynn Naples, Florida 34102
(239) 213-5000
Enaineer - Address - Phone: Enaineer - Address - Phone:
South Florida Water Management District AECOM
3301 Gun Club Road 4415 Metro Parkway
West Palm Beach, Florida 33406 Suite 404
Michael Millares Fort Myers, Florida 33916
(239) 278-7996
Contract Date: December 3, 2009 Contract Date: 2/4/09 Award, 3/16/09 NTP
Final Contract Amount: $2,191,945.00 Final Contract Amount: $2,778,000.00
Comoletion Date: May 201 0 Comoletion Date: 2f8/10 (Contract)
Proiect Descriotion. Proiect Descriotion:
Replacement of three massive gearboxes for three 84" Replacement of large Vertical Turbine Pumps. Installation
Gas Engine driven Vertical Turbine Pumps. of a large, below grade and water table, cast in place structure
which included gates, an 60" bypass pipe, a trash rake. Project
also included significant Electrical & Instrumentation
Project Name: Master Pump Station 305 Rehabllitation Proiect Name Water Reuse Piping Modifications I Reuse
System Upgrade
Owner - Address - Proiect Manaaer
Collier County Owner - Address - Proiect Manaaer - Phone:
Public Utilities Engineering Department City of Marco Island
3301 Tamiami Trail East, Building H Public Utilities
Naples, Florida 34112 50 Baid Eagle Drive
Sandy Sridhar Marco Island, Florida 34145
Bruce Weinstein
Enaineer - Address: 239-389-5000
Q. Grady Minor and Associates, P,A
3800 Via Del Rey Enaineer:
Bonita Springs, Florida 34134 Metcalf and Eddy
David Schmitt
Contract Date: February 10, 2008
Contract Date: August 11, 2008 Final Contract Amount: $649,171.67
Final Contract Amount: $444,000.00 Comoletion Date: November 2008
Comoletion Date: January 16, 2009
proiect Descriotion: ProiectDescriDtion:
Fully rehab 2300 GPM Master Pump Station Rehab 500,000 Gallon Tank and convert potable water facility
to reuse storage facility
P~ge 1 of 7
DOUGlAS N. HIGGINS, INC.
EXPERIENCE - PAST EIGHTYEAR$ - GROUP 1
Proiect Name: CAT Operations & Administration Center Proiect Name: San Marco Master Lift Station
Pump Station and Force Main Connection
Owner - Address - Proiect Manaaer - Phone:
Owner - Address - Project Manaoer. City of Marco Island
Collier County Public Works
Alternative Transporation Division 50 Bald Eagle Drive
2885 South Horseshoe Drive Marco Island, Florida 34145
Naples, Florida 34104 Timothy E. Pinter, P_E
Sue Faulkner
Encineer - Address - Phone:
Enaineer:
Q. Grady Minor
3800 Via Del Rey
Bonita Springs, Florida 34134 Contract Dale: January 2, 2008
final Contract Amount: $833,615.61
Contract Date: February 14, 2008 Comoletion Date:
Final Contract Amount: $133,673.04
Comoletion Date: May 1, 2008
Proiect Descriotion: Proiect Descriotion:
Installation of 14-inch force main, pump station and valve Construct new 800 GPM Master Lift Station
vault to existing CAT Operations Building.
Proiect Name: Irrigation Quality Water Project Proiect Name: Golden Gate WWTP and Injection Pump
Station
Owner - Address - Proiect Manaaer:
Collier County
Facilities Management Owner ~ Address - Proiect Manaaer - Phone:
3301 Tamiami Trail East, Building W Florida Governmental Utility Authority
Naples, Florida 34112 280 Wekiva Springs Road, Suite 203
Damon Gonzales longwood, Florida 32779
Enaineer - Address - Phone: Enaineer ~ Address - Phone:
Anchor Engineering Arcadis
4307 Vineland Road
Contract Date: March 14, 2007 Suite H-20
Final Contract Amount: $1,213,474.52 Orlando, Florida 32811
Comoletion Date: January 15, 2008 407-236-5700
Proiect Descriotion: Contract Date:
Irrigation improvements at Collier County Government Complex. Final Contract Amount:
Work was coordinated with an operating complex and interruption Comoletion Date:
were minimized or eliminated. Proiect Descriotion:
Expansion of Golden Gate INWTP which included the
construction of a new digester, chlorine contact tank and
injection well pump station, modification of clarifiers #1 and #2,
installation of surge and annular pressure tanks and
annurtenances
Proiect Name: Treeline Master Pump Station Proiect Name: PS S-127 and S-133
Pump Refurbishment and Bearing Replace.
Owner - Address - Proiect Manaaer- Phone: Owner - Address - Proiect Manaaer - Phone:
City of Fort Myers South Florida Water Management District
2200 Second Street 2101 Centrepark West Drive, Suite 110
Fort Myers, Florida 33902 West Palm Beach, Florida 33409
Eliana Hayes, E.!. Mike Curley
(239) 332-6318
Enaineer - Address - Phone: Enaineer - Address - Phone:
Johnson Engineering, Inc. South Florida Water Management District
2122 Johnson Street 3301 Gun Club Road
Fort Myers, Florida 33920 West Palm Beach, Florida 33406
David Trouteaud T eri Swartz
(239) 334-0046
Contract Date: July 1, 2008 Contract Date: April 10, 2008
Final Contract Amount $1,043,805.00 - Not Final Final Contract Amount $3.947,723.00
Comoletion Date: February, 2009 Comoletion Date: July 2010
Proiect Descriotion: Proiect Descriotion:
Installation of a master pump station located along Treeline Completely recondition the main 42" vertical turbine pumps
Avenue. The project entailed a jack and bore under Treeline ,five at S-127 and five at S-133. Install new electrical and
Avenue to connect to the existing force main and instrumentation.
construction of a 20 foot deep master pump station. A 400 I0N
enerator and odor control unit were also installed.
Page2of7
DOUGLAS N. HIGGINS, INC.
EXPERIENCE - PAST EIGHT YEARS - GROUP 1
Proiect Name" Gateway Triangle Stormwater Improvements Proiect Name: Marco Island North Barfield &
North Marco Sanitary Sewer District
Owner - Address - Proiect Manaaer - Phone:
Collier County Owner - Address - Proiect Manaaer - Phone:
Stormwater Department City of Marco Island
2885 Horseshoe Drive 50 Bald Eagle Drive
Naples, Florida 34 239-252-8192 Marco Island, FL 34145
Shane Cox Mr. James Miller
239-389-5011
Enaineer - Address:
HDR, Inc. Enaineer - Address - Phone:
200 West Forsyth Street Bolye Engineering
Jacksonville, Florida 32202 4415 Metro Parkway, Suite 104
Laura Phillips Fort Myers, Fl 33916
Fred Mittl
Contract Date: November 5, 2007 239-278-7996
Final Contract Amount: $1,021,336.78
Comoletion Date: July 28, 2008 Contract Date: March 1, 2007
Proiect Descriotion:
Stormwater improvements to existing area - excavation of Final Contract Amount: North Marco $4,644,806.99
approximately 34,000 Cy of dirt and grading to form three North Barfield $7,270,729.37
continuous ponds. Installation of box culverts, sheet piling, Comoletion Dale: North Marco May 11, 2008
concrete ditch pavement and storm drainage structures. North Barfield March 24, 2008
Proiect Descriotion:
New wastewater collection system installed to replace existing
septic tanks. Work included gravity sewer, forcemain, transmission
main, pump stations, road restoration, etc.
Proiect Name: NCWRF MLE Bleach Project Proiect Name: Rehabilitation of Master Pump Station 316
Phase 2, Mechanical
Owner . Address - Proiect Manaaer: Owner ~ Address - Proiect Manaaer:
Collier County Collier County
Public Utilities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail, East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Dianna Dueri Sandy Sridhar
Enaineer - Address - Phone: Enaineer - Address - Phone:
Hole Montes Q. Grady Minor & Associates
950 Encore Way 3800 Via Del Rey
Naples, Florida 34110 Bonita Springs, Florida 34134
Jerry Taricska 239-254-2000 David Schmitt
239-947-1144
Contract Date: September 17, 2007 Contract Date: November 16, 2007
Final Contract Amount: $336,412.49 Final Contract Amount $765,823.34
Comoletion Date: June 17, 2008 Comoletion Date: June 3, 2008
Proiect Descriotion: Proiect Descriotion:
Bleach piping modifications to chlorine contact chambers Full rehab 800 GPM Master Pump Station
and modification of pump skids to have redundancy in
bleach feed system.
proiect Name: Rehabilitation of Master Pump Station 318 Proiect Name: NCRWTP Chemical Labatory
Ventilation Improvements
Owner ~ Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
Collier County Collier County
Public Utilities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Sandy Sridhar Tom Chmelik
239-732-2575
Enaineer - Address - Phone: Enaineer - Address - Phone:
Q. Grady Minor & Associates TLC Engineering
3800 Via Del Rey 1400 Colonial Boulevard, Suite 203
Bonita Springs, Florida 34134 Fort Myers, Florida 33907
David Schmitt Nicholas L. Mancuso
239-947-1144 239-275-4240
Contract Date: October 9, 2007 Contract Date: March 13, 2007
Final Contract Amount: $789,070.59 Final Contract Amount: $749,367.67
Completion Dale: June 10, 2008 Completion Date: November 30, 2008
Proiect Description' Proiect Description:
Fully rehab 3000 GPM Master Pump Station Replace complete HVAC system inclUding air handler,
ducMork, exhaust fans, condenser and rehab fume hoods
Page3of7
DOUGLAS N. HIGGINS, INC.
EXPERIENCE - PAST EIGHT YEARS - GROUP 1
I Proiect Name: Connection to Water Main - Marco Shores Proiect Name: Collier County NCRWTP AND SCRWTP
Sand Separators
Owner - Address - Proiect Manaaer: OWner - Address - Proiect Manaaer - Phone:
City of Marco Island Collier County Public Utilities
Public Works 3301 East Tamiami Trail
50 Bald Eagle Drive Naples, Florida 34112
Marco Island, Florida 34145 Diana Dueri
James Miller
Enaineer - Address - Phone:
Enaineer - Address - Phone: Hazen and Sawyer
Contract Date: April 26, 2007 Contract Date: Auaust 1 2008
Final Contract Amount $188,000.00 Final Contract Amount In oroaress
Comoletion Date: August 31, 2007 Comoletion Date: In oroaress
Proiect Descriotion: Proiect Descriotion:
Watermain connection at Marco Shores. Procurement and installation of two automatic self-cleaning
sand separators (custom built in Germany) including stainless
steel piping, valves, instruments and control panels. Installation
of system, which included two, three-chamber pump stations,
submersible numns, venturi flowmeters, etc.
Proiect Name: SCRWTP Raw Water Transmission Main Proiect Name: Decomissioning of Pelican Bay
& Appurtenances for Wastewater Treatment Plant
Raw Water Wells 39S, 40S, 41S & 42S
Owner - Address - Proiect Manaaer - Phone: OWner - Address * Proiect Manaaer - Phone:
Collier County Collier County
Public Utilities Engineering Department Public Utillties Engineering Department
3301 Tamiami Trail, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Peter Schalt Sandy Sridhar
Enaineer - Address - Phone: Enaineer - Address - Phone:
Hazen & Sawyer Hazen and Sawyer
2101 Coporate Boulevard, Suite 301 2101 Corporate Boulevard, Suite 303
Boca Ratan, Florida 33431 Boca Raton, Florida 33431
Albert Muniz Kurt Pfeffer
561-997-8070 561-997-8070
Contract Date: September 26, 2006 Contract Date: February 8, 2006
Final Contract Amount: $1,884,000.00 Finai Contract Amount: $72,500.00
Comoletion Date: April 11 , 2007 Comoletion Dale: July 30, 2006
Proiect Descriotion: Proiect Descriotion
Installed 3500 If of 16-inch HOPE raw water transmission Decomissioning of an abandoned Wastewater Treatment Plant
main along with four new raw water wells, This provided the
plant the ability to produce sufficient capacity to meet water
demands. Included installation of pigging stations and
electrical enclosures.
Proiect Name: Pelican Bay Fire and Irrigation Water Proiect Name' Reclaimed Water Aquifer Storage and
System Improvement at the Ritz Carlton Recovery
Owner - Address - Proiect Manaaer: OWner - Address - Proiect Manaaer:
Collier County Collier County
Public Utiiities Engineering Department Public Utilities Engineering Department
3301 Tamiami Trail East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Naples, Florida 34112
Claude Nesbitt Alicia Abbott
Enaineer - Address - Phone: Enaineer - Address:
Wilson Miller, Inc. Water Resource Solution
3200 Bailey lane, Suite 200 1388 Colonial Boulevard
Naples, Florida 34105 Fort Myers, Florida 33907
Craig Pager Lloyd Horvath
800-649-4336
Contract Date: April 5, 2006
Contract Date: March 30, 2006 Final Contract Amount: $4,658,515.28
Final Contract Amount: $162,723.43 Comoletion Date: June 6, 2007
Comoletion Date: February 28, 2007 Proiect Descriotion:
Proiect Descriotion: Installed a deep injection well for the storage of reclaimed water
Fire and Irrigation improvements for the Ritz Carlton. Work coming from Collier County water treatment plants. The Owner
was coordinated to maintain fire safety at all times. will have full capability to recover this reclaimed water for
market and/or use for their own irrigation needs.
Page4of7
DOUGLAS N. HIGGINS, INC.
EXPERIENCE ~ PAST EIGHT YEARS - GROUP 1
Proiect Name: Tigertail Sewer District Proiect Name: Pads for MBR and Equipment
Wastewater Collection System Expansion
Owner - Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
City of Marco Island City of Marco Island
50 Bald Eagle Drive 50 Bald Eagle Drive
Marco Island, FL 34145 Marco Island, FL 34145
Mr. James Miller Mr. Bruce Weinstein
239-389-5011 239-389-5182
Enaineer - Address - Phone: Enaineer - Address - Phone:
Bolye Engineering CDM
4415 Metro Parkway, Suite 104 9311 COllege Parkway
Fort Myers, FL 33916 Fort Myers, FL 33919
Fred Mittl Adam Soblenski
239-278-7996 239-437-9494
Contract Date: March 7, 2006 Contract Date: March 13, 2006
Final Contract Amount $2,920,703.33 Final Contract Amount: $183,000.00
Comoletion Date: December 21, 2006 Comoletion Date. May 13, 2006
Proiect Descriotion: Proiect Descriotion:
New wastewater collection system including gravity sewer, Four structural concrete slabs.
forcemain, transmission mains, laterals, pump stations, and
comnlete road restoration
Proiect Name: Rosemary Park Paving & Proiect Name: Forest Lakes MSTU
Drainage Improvements Phase 2 Drainage Improvements
Owner ~ Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
City of Bonita Springs Collier County- ATM
Public Works Department Storm water Department
9101 Bonita Beach Road 2885 Horseshoe Drive South
Bonita Springs, Florida Naples, Florida 34104
239-949-6243 Darryl Richard
Enaineer - Address - Phone: Enaineer - Address:
Q. Grady Minor Willson Miller
3800 Via Del Rey 3200 Bailey Lane, Suite 200
Bonita Springs 34134 Naples, Florida 34105
David Schmitt Craig Pajer
239-949-6243
Contract Date: April 5, 2006 Contract Date: May 2, 2006
Final Contract Amount: $831,805.33 Final Contract Amount $193,287.00
Comoletion Date: November 1, 2006 Comoletion Date: July 19, 2006
Proiect Descriotion: Proiect Descriotlon
Drainage improvements with RCP pipe and concrete structures. Drainage improvements with RCP and concrete structures.
rolect ame: Dortch P ve. Drainage & Pavmg lmpvs. rOlec ame: Lehigh Acres Interconnect
Hampton Street Sidewalk Improvements with The City of Fort Myers
Owner - Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
City of Bonita Springs
Public Works Department Florida Governmental Utility Authority
9101 Bonita Beach Road 280 Wekiva Springs Road, Suite 203
Bonita Springs, Florida Longwood, Florida 32779
239-949-6243 Enaineer - Address - Phone:
Enaineer - Address - Phone: Malcom Plrnie, Inc.
Q. Grady Minor 2301 Maitland Center Parkway, Suite 425
3800 Via Del Rey Maitfand, Florida 32751
Bonita Springs 34134 Victor Hurlburt
David Schmitt 407-659-5550
239-949-6243 Contract Date: June 15, 2006
Final Contract Amount: $2,884,382.00
Contract Date: March 15,2006 Comoletion Date: April 2007
Final Contract Amount $316,400.50
Comoletion Dale: August 1, 2006 Proiect Descriotion:
Project Description: New 8" and 12" watermain including both open cut and directional
Drainage improvements with RCP pipe and concrete structures. drilling. Work was performed along a busy thoroughfare
PageSof7
DOUGLAS N. HIGGINS, INC.
EXPERIENCE - PAST EIGHT YEARS ~ GROUP 1
Proiect Name: Pump Station 109 and 113 Improvements Proiect Name: Marco Island Wastewater Treatment
Plant Expansion., Phase 1 Improvements
Owner - Address ~ Proiect Manacer - Phone:
Collier County Owner - Address ~ Proiect Manaoer - Phone:
Public Utilities Engineering City of Marco Island
3301 Tamiami Trail East, Building H 50 Bald Eagle Drive
Sandy Sridhar Marco Island, FL 34145
Mr. Bruce Weinstein
Encineer - Address - Phone: 239-389~5182
Q. Grady Minor & Associates
3800 Via Del Rey Enaineer ~ Address - Phone:
Bonita Springs, Florida 34134 CDM
David Schmitt 9311 College Parkway
Fort Myers, FL 33919
Contract Date: February 8, 2006 Adam Soblenski
Final Contract Amount $ 1,229,561.25 239-437-9494
ComDletion Date: September 29, 2006
Proiect DescriDtion: Contract Date: May 23, 2006
New Pump Station & Complete Pump Station Rehab. Work Final Contract Amount: $9,787,283.47
included bypass pumping, structural concrete, precast concrete, Comoletion Dale. January 17, 2007
electricalllnstrumentation, and mechanical.
Proiect Descri,..,tion: Included in simtlar "roiect section
Proiect Name: Appurtenances For Wells RO 101 N Proiect Name: Construction of Wells 35 & 36
and 102N
Owner - Address ~ Proiect Manaaer - Phone: Owner ~ Address - Proiect Manaaer - Phone:
Collier County Collier County
Public Utilities Engineering Public Utilities Engineering
3301 Tamiami Trail East, Building H 3301 Tamiami Trail East, Building H
Naples, Florida 34112 Howard Brogdon
Peter Schalt
Enoineer ~ Address ~ Phone:
Enaineer ~ Address - Phone: Camp Dresser & McKee, Inc.
Hazen & Sawyer 9311 College Parkway, Suite 1
2101 Corporate Boulevard, Suite 301 Fort Myers, Florida 33919
Boca Raton, Florida 33431 Adam Sobolewski
Albert Muniz 239~432-9494
Contract Date: May 24, 2005 Contract Date: August 16, 2005
Final Contract Amount: $597,000.00 Final Contract Amount: $998,980,97
Comoletion Date: January 27, 2006 Comoletion Date: January 30, 2006
Proiect Descriotion: Proiect Descriotion:
Complete well installations with exception of the drilled well Complete well installations with exception of the drilled well
includin" "'um"s, mechanical, and electrical/instrumentation includina [Jumns, mechanical, and electrical/instrumentation
Proiect Name: 12th Avenue Interconnect Booster PS Proiect Name: NCWRF Rebuild filter Set 1
Clean and Paint Filter Beds
Owner - Address - Proiect Manaaer ~ Phone:
Collier County Owner - Address Proiect Manaaer - Phone:
Public Utilities Engineering Collier County
3301 Tamiami Trail East, Building H Public Utilities Engineering Department
Naples, Florida 34112 3301 Tamiami Trail East, Building H
Peter Schalt Karen Guliani
Enaineer ~ Address ~ Phone:
Hazen and Sawyer Enaineer - Address ~ Phone:
1905 South 25th Street, Suite 103 Collier County
Fort Pierce, Florida 34947 Public Utilities Engineering Department
Albert Muniz 3301 Tamiami Trail East, Building H
Karen Guliani
Contract Date: August 8, 2005
Final Contract Amount: $1,083,000.00 Contract Date: March 1, 2005
Comoletion Date: October 31, 2006 Final Contract Amount $354,817.00
Proiect Descriotion: New Wellfied Booster Pump Station including Comoletion Date: September 14, 2005
structural concrete, a precast building, mechanical piping, Proiect Descriotion:
major electrical and instrumentation. Clean out existing filter beds, paint, and install new filter
sand.
Page6of7
DOUGLAS N. HIGGINS, INC.
EXPERIENCE - PAST EIGHTYEARS - GROUP 1
Proiect Name: SCWRF Rehabilitation Piping Proiect Name: Michigan Street Drainage Improvements
Odor Control Modifications
Owner - Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone"
Collier County City of Bonita Springs
Public Utilities Engineering 9101 Bonita Beach Road
3301 Tamiami Trail East, Building H Bonita Springs, Florida 341 35
Naples, Florida 34112 239-949-6262
Vaughn Williams
Enaineer - Address - Phone:
Enaineer - Address - Phone: Q. Grady Minor & Associates
Hole Montes 3800 Via Del Rey
950 Encore Way Bonita Springs, Florida 34134
Naples, Florida 34110 David Schmitt
E. Joseph Goetz, Jr.
239-254-2000
Contract Date: November 21, 2005 Contract Date: January 10, 2005
Final Contract Amount: $217,900,00 Final Contract Amount. $243,610.00
Comoletion Date: July 12, 2006 Comoletion Date: September 1, 2005
Proiect Descriotion: Proiect Descriotion:
Modifications to the existing Odor Control System Drainage improvements with RCP pipe and concrete structures.
Proiect Name: Richview Court Drainage Maintenance Proiect Name: 1-75 and Alico Road Interchange Reconstr.
Owner - Address - Proiect Manaaer ~ Phone: Owner - Address - Proiect Manaaer. Phone:
City of Bonita Springs Florida Department of Transporation
Public Works Department Tallahassee, Florida
9101 Bonita Beach Road
Bonita Springs, Florida
239-949-6243
Enaineer - Address - Phone'
Enaineer - Address - Phone: Contractor. Engineer: Thomas Boyle
City of Bonita Springs Kiewit Southern 239-432-2732
Public Works Department 450 Dividend Drive 16999 James Whitehead Road
Peachtree City, Georgia Fort Myers, Florida 33912
Contract Date: December 27, 2005 Contract Date: October 5, 2005
Final Contract Amount: $29,333.50 Final Contract Amount: $1,288,742.63
Comoletion Date: January 30, 2006 Comoletjon Date: June 2007
Proiect Descriotion: Proiect Descriotion'
Drainage improvements with RCP pipe and concrete structures. Installed 12,000 LF of 36" Ductile Iron Pipe including jack & bores,
and all testinn Work was netformed as a subcontractor.
Proiect Name: Culvert Replacement in the River Oaks, Proiect Name: Twin Lakes interconnect
Palm River Subdivision
Owner - Address - Proiect Manaaer - Phone: Owner - Address - Proiect Manaaer - Phone:
Collier County Collier County
Stormwater Management Stormwater Management
2885 Horseshoe Drive 2885 Horseshoe Drive
Naples, Florida 34104 Naples, Florida 34104
Margaret Bishop Gianfranco Nicolaci
Enaineer. Address. Phone: Enaineer - Address - Phone:
Collier County Agnoli Barber & Brundage, Inc.
Stormwater Management 7400 Tamiami Trail North, Suite 200
Naples, Florida 34108
Roger Sandrus
Contract Dale: April 4, 2005 Contract Date: September 12, 2005
Final Contract Amount $576,642.50 final Contract Amount: $750,120.76
Comoletion Date: JUly 8, 2005 Comoletion Date: March 1, 2006
Proiect Descriotion: Proiect Descriotion:
Drainane imnrovements with RCP nine and concrete structures. Drainaoe imorovements with RCP Dice and concrete structures.
Pagelofl
DOUGLAS N. HIGGINS, INC.
EXPERIENCE - PAST EIGHT YEARS - GROUP 2
Project: Key West Solid Waste Transfer Station
DNH Project #943-07
Owner: City of Key West
525 Angela Street
Key West, FL 33040
Engineer: Chen & Associates
5100 NW 33 Avenue, Suite 250
Fort Lauderdale, FL 33309
Contract Date: August 2007
Completion Date: April 2009
Contract Amount: $7,943,000.00
Final Contract Amount: $8,0 I 0,630.00
Project Description: Construction of 3 buildings, scales and tipping floor for sorting and handling of solid waste for the City of
Key West
Project: Duck Key Reclaimed Water Storage and Pumping Facility
FKAA Project #2223-07
DNH Project #928-07
Owner: FLORIDA KEYS AQUADUCT AUTHORITY
1100 Kennedy Drive
Key West, FL 33041
Jim Reynolds (305) 296-2454
Engineer: Mathews Consulting, Inc.
1475 Centrepark Blvd., Suite 250
West Palm Beach, FL 33401
Contract Date: June 2007
Completion Date: September 2008
Contract Amount: $2, I 17,000.00
Final Contract Amount: $2, I 00,261,52
Project Description: Installation of 200,000 Gallon Reclaim Storage Tank and Pump Station
Project: Kermit H. Lewin RO Facility Plant Modifications at Stock Island, Florida
FKAA Project # I 089-06
CH2M Hill Project #345922
DNH Project #790-07
Owner: FLORIDA KEYS AQUADUCT AUTHORITY
1100 Kennedy Drive
201'6
Key West, FL 33041
Jim Reynolds (305) 296-2454
Engineer: CH2M Hill
641- 5th Street, Suite 2A
Key West, FL 33040
Contract Date June 2007
Completion Date: August 2008
Contract Amount: $1,643,000.00
Final Contract Amount: $1,687,868.72
Project Description: Installation of Tomeo C02 PH System and Controls
Project: Big Coppitt Wastewater Collection System
FKAA Project #4002-00
DNH Project #925-06
Owner: FLORIDA KEYS AQUADUCT AUTHORITY
1100 Kennedy Drive
Key West, FL 33041
Jim Reynolds (305) 296-2454
Engineer: Boyle Engineering Corp
4415 Metro Parkway, Suite 404
Fort Myers, FL 33916
Robert Garland (239) 278-7996
Contract Date: December, 2006
Completion Date: June 2007
Contract Amount: $2,186,480.00
Final Contract Amount: $3,968,726,86
Project Description: 14,000 LF ofForcemain installed in US I FDOT right-of-way in the Florida Keys. Also includes Stainless
Steel Bridge Pipe and 3,300 LF of Gravity Sewer. The significant increase to the contract amount was due
to the owner adding an entire new wastewater project to this contract.
Project:
Reclaimed Water Aquifer Storage and Recovery
Collier County Bid No. 06-3924
DNH Project #910-06
Owner:
Collier County Purchasing Department
3301 Tamiami Trail East
Naples, FL 34112
Project Manager: Alicia Abbott (239) 530-5344
Engineer:
Water Resource Solutions
30f6
Contract Date: May 06
Completion Date: May 07
Contract Amount: $4,340,000.00
Final Contract Amount: $4,658,515.28
Project Description: This is a new facility including an 800 ft well, well pump, structural concrete, precast concrete building,
injection pumps, lined backwash pond, ultraviolet disinfection, carbon dioxide system, Hypochlorite
system, transmission main, mechanical and underground piping/valves, concrete fencing, roadwork,
landscaping, irrigation, electrical & instrumentation
Project: Appurtenances for Wells RO-IOIN & RO-I02N
Collier County Project # DC-On
DNH Project #800-05
O-=er: Collier County Purchasing Department
3301 Tamiami Trail East
Naples, FL 34112
Project Manager: Pete Schalt
Engineer: Hazen & Sawyer
4000 Hollywood Blvd #750N
Hollywood, FL 33021
Engineer: Albert Muniz, PE (561) 997-8070
Contract Date: November 2005
Completion Date: April 2006
Contract Amount: $994,000.00
Final Contract Amount: $998,250.00
Project Description: New Wellfield Pump House Structures to include Structural Concrete, Mechanical Piping, Misc. Metals,
Major Electrical and Instrumentation. Same General Contracting principles involved with Water &
Wastewater Treatment Plants. This contract had an aggressive schedule that we achieved.
Project: Conch Key Water & Wastewater Systems Improvements
Project # 2194-01 & 4009-00
DNH Project #730-04
O-=er: FLORIDA KEYS AQUADUCT AUTHORiTY
1100 Kennedy Drive
Key West, FL 33041
Jim Reynolds (305) 296-2454
Engineer: Boyle Engineering Corporation
4415 Metro Parkway, Suite 404
40f6
Fort Myers, FL 33916
Alfred J. Mittle, PE (239) 278-7996
Contract Date: May 2004
Completion Date: May 2005
Contract Amount: $1,900,000.00
Final Contract Amount: $1,808,195.60
Project Description: Installed gravity wastewater collection sewer with lift stations & watermain throughout Conch Key. Work
included rock trenching, dewatering, and residential impacts.
Project: Lake Okeechobee Water Retention, Phosphorous Removal Project,
Nubbin Slough - New Palm Storm Water Trea1ment Areas,
IFB No. W912EP-04-B-001
DNH Project #730-04
Owner: South Florida Water Management District
Engineering & Construction Department
3301 Gun Club Road
West Palm Beach, FL 33406
Contact: Denise Arrieta, PE (561) 682-6758
Engineer: U.S. Army Corps of Engineers
Contract Date: November 2004
Completion Date: July 2006
Contract Amount: $8,900,000.00
Final Contract Amount: $9,444,634.00
Project Description: Major earthwork project on approximately 1,000 acres, creating storage ponds with earthen berms, a 42"
(4,000 LF) discharge pipe, a large pwnp station, weir wall, and intake reservoir. The pwnp station for this
project included four 30" pwnps, structural concrete, mechanical, and major electrical
Project: Naval Air Station - Repair Storm Water & Sanitary Sewer Systems - NAF, Key West
Contract N62467-03-0282
DNH Project #825-03
Owner: U.S. Department of the Navy
P.O. Box 9018
NAF, Key West, FL 33040
Jeannette Sweeting, Supervisor Contract Specialist
(305) 293-2841
50f6
David Franklin
(843) 820-5733
Contract Amount: $3,654,654.00
Final Contract Amount: $3,654,654.00
Contract Date: November 2003
Completion Date: December 2004
Description: Remove, Replace, Install new Storm Water & Sanitary Sewer Systems on various Naval Properties
Project: Naval Air Station - Replace Sewer - Trumbo Point - NAF, Key West
Contract N62467-0 I-X-0387
DNH Project #880-0 I
Owner: U,S. Department of the Navy
P.O. Box 9018
NAF, Key West, FL 33040
Jeannette Sweeting, Supervisor Contract Specialist
(305) 293-2841
David Franklin
(843) 820-5733
Contract Amount: $1,859,155.00
Final Contract Amount: $1,859,155.00
Completion Date: November 2002
Description: Remove, Replace, Install new Storm Water & Sanitary Sewer Systems on various Naval Properties
60f6
Colt" County
~.- ~
Adrrinislrative Services DMsion
Purchasing
Email: ScottJohnson@collierQov.net
Telephone: (239) 252-8995
FAX: (239) 252-6588
ADDENDUM
Memorandum
Date:
February 1, 2010
From:
Scott D. Johnson, Purchasing Agent
Purchasing Department
To:
I nterested Bidders
Subject:
Addendum #1 - ITB #10-5446
"NCWRF Compliance Proect"
The following clarifications are issued as Addendum #1 identifying the following change (s)
for the referenced bid:
1. See changed Allowance Section within Specifications
If you require additional information please post a question on the eBid site or contact me
(contact information above).
c: Peter Schalt
Dianna Perryman
,rf' \1 ID
[l 8'
AddendumTemplate
Revised: 3/25/09
1
SECTION 01135
ALLOWANCES
PART 1 - GENERAL
1.01 SECTION INCLUDES
1.02 CONTRACT ALLOWANCE
The Contractor shall include in its Contract Price an allowance equal to the Allowance
Funds shown in the bid schedule for additional work required due to unforeseen conditions.
The price negotiated (between Contractor and Owner) for any work falling under this category shall
be compensation in full for all labor, materials and equipment necessary.
The provisions for the Allowance Funds are not a guarantee the Contractor will be paid any portion
or the full amount of such Allowance Funds.
1.03 ALLOWANCE FUND
A. Provide the following amount as part of the Contract Price, which may be used for the following
Owner Directed Work: $700,000
1. Allowance for Owner's use as directed for unforeseen work and costs associated with
modifications to existing structures and changes due to existing underground improvements.
2. Allowance for Owner's use as directed for work and costs associated with repairs to the existing
air diffusion system in MLE aeration basins.
3. Allowance for Owner's use as directed for work and costs associated with removal of grit and
debris from the MLE aeration basins, influent trough and effluent trough.
1.04 CONTRACT ALLOWANCES AND CONSTRUCTION SCHEDULE
A. As part of Bid Item 2, the Contractor shall include an allowance in the original schedule to
accomplish Owner Director Work. The allocated time in the pre-construction schedule for Bid Item
4B and 4C shall be 120 calendar days (10 days per aeration basin).
B. The initial submittal of the construction schedule shall include appropriate activity (ies) for each
MLE aeration basin to complete Owner Directed Work and the duration of the activity (ies) shall be
10 calendar days,
C. The Contractor shall plan, coordinate and complete all work associated with Bid Items 1 through
4 within the Contract Time.
END OF SECTION
CONSTRUCTION AGREEMENT
THE BOARD OF COUNTY COMMISSIONERS OF COLLIER COUNTY,
FLORIDA, ("Owner") hereby contracts with Douglas N. Higgins, Inc. ("Contractor") of
4485 Enterprise Avenue, Naples, Florida 34104, a Florida Corporation, authorized to do
business in the State of Florida, to perform all work ("Work") in connection with NCWRF
Compliance Assurance Project, Bid No. 10-5446 ("Project"), as said Work is set forth in
the Plans and Specifications prepared by Hole Montes, Inc., the Engineer and/or
Architect of Record ("Design Professional") and other Contract Documents hereafter
specified.
Owner and Contractor, for the consideration herein set forth, agree as follows:
Section 1. Contract Documents.
A. The Contract Documents consist of this Agreement, the Exhibits described in
Section 6 hereof, the Legal Advertisement, the Bidding Documents and any duly
executed and issued addenda, Change Orders, Work Directive Changes, Field Orders
and amendments relating thereto. All of the foregoing Contract Documents are
incorporated by reference and made a part of this Agreement (all of said documents
including the Agreement sometimes being referred to herein as the "Contract
Documents" and sometimes as the "Agreement" and sometimes as the "Contract"). A
copy of the Contract Documents shall be maintained by Contractor at the Project site at
all times during the performance of the Work.
B. Owner shall furnish to the Contractor one reproducible set of the Contract
Documents and the appropriate number of sets of the Construction Documents, signed
and sealed by the Design Professional, as are reasonably necessary for permitting.
Section 2. Scope of Work.
Contractor agrees to furnish and pay for all management, supervision, financing, labor,
materials, tools, fuel, supplies, utilities, equipment and services of every kind and type
necessary to diligently, timely, and fully perform and complete in a good and
workmanlike manner the Work required by the Contract Documents.
Section 3. Contract Amount.
In consideration of the faithful performance by Contractor of the covenants in this
Agreement to the full satisfaction and acceptance of Owner, Owner agrees to pay, or
cause to be paid, to Contractor the following amount (herein "Contract Amount"), in
accordance with the terms of this Agreement: Eight Million Six Hundred Eighty Three
Thousand Dollars ($ 8,683,000.00).
GC-CA-1
Section 4. Bonds.
A. Contractor shall provide Performance and Payment Bonds, in the form
prescribed in Exhibit A, in the amount of 100% of the Contract Amount, the costs of
which are to be paid by Contractor. The Performance and Payment Bonds shall be
underwritten by a surety authorized to do business in the State of Florida and otherwise
acceptable to Owner; provided, however, the surety shall meet the requirements of the
Department of the Treasury Fiscal Service, "Companies Holding Certificates of Authority
as Acceptable Sureties on Federal Bonds and as Acceptable Reinsurance Companies"
circular. This circular may be accessed via the web at
www.fms.treas.qov/c570/c570.html#certified. Should the Contract Amount be less than
$500,000, the requirements of Section 287.0935, F.S. shall govern the rating and
classification of the surety.
B. If the surety for any bond furnished by Contractor is declared bankrupt, becomes
insolvent, its right to do business is terminated in the State of Florida, or it ceases to
meet the requirements imposed by the Contract Documents, the Contractor shall, within
five (5) calendar days thereafter, substitute at its cost and expense another bond and
surety, both of which shall be subject to the Owner's approval.
Section 5. Contract Time and Liquidated Damaaes.
A. Time of Performance.
Time is of the essence in the performance of the Work under this Agreement. The
"Commencement Date" shall be established in the written Notice to Proceed to be
issued by the Project Manager, as hereinafter defined. Contractor shall commence the
Work within five (5) calendar days from the Commencement Date. No Work shall be
performed at the Project site prior to the Commencement Date. Any Work performed by
Contractor prior to the Commencement Date shall be at the sole risk of Contractor.
Contractor shall achieve Substantial Completion within the calendar days from the
Commencement Date (herein "Contract Time") (specified below). The date of
Substantial Completion of the Work (or designated portions thereof) is the date certified
by the Design Professional when construction is sufficiently complete, in accordance
with the Contract Documents, so Owner can occupy or utilize the Work (or designated
portions thereof) for the use for which it is intended. Contractor shall achieve Final
Completion within the specified calendar days (see below) after the date of Substantial
Completion. Final Completion shall occur when the Agreement is completed in its
entirety, is accepted by the Owner as complete and is so stated by the Owner as
completed
Project
SUb.stantial comPletion~inal Completion (DayslDates)
(Days/Dates) _
AJ!!!!!.st 1,2010 _.----.6lJ9ust 27, 2010
485 100
---- ~
1) Pond No.2
2\ All other work
As used herein and throughout the Contract Documents, the phrase "Project Manager"
refers to the Owner's duly authorized representative and shall mean the Division
GC-CA-2
Administrator or Department Director, as applicable, acting directly or through duly
authorized representatives.
B. Liquidated Damages in General.
Owner and Contractor recognize that, since time is of the essence for this Agreement,
Owner will suffer financial loss if Contractor fails to achieve Substantial Completion
within the time specified above, as said time may be adjusted as provided for herein. In
such event, the total amount of Owner's damages, will be difficult, if not impossible, to
definitely ascertain and quantify. Should Contractor fail to achieve Substantial
Completion within the number of calendar days established herein, Owner shall be
entitled to assess, as liquidated damages, but not as a penalty, (see table below) for
each calendar day thereafter until Substantial Completion is achieved. Further, in the
event Substantial Completion is reached, but the Contractor fails to reach Final
Completion within the required time period, Owner shall also be entitled to assess and
Contractor shall be liable for all actual damages incurred by Owner as a result of
Contractor failing to timely achieve Final Completion. The Project shall be deemed to
be substantially completed on the date the Project Manager (or at his/her direction, the
Design Professional) issues a Certificate of Substantial Completion pursuant to the
terms hereof. Contractor hereby expressly waives and relinquishes any right which it
may have to seek to characterize the above noted liquidated damages as a penalty,
which the parties agree represents a fair and reasonable estimate of the Owner's actual
damages at the time of contracting if Contractor fails to Substantially or Finally
Complete the Work within the required time periods.
Project Liquidated Damages
Per Day
1) Pond NO.2 $288,000 Flat Rate
2) All other work $1,100.00 Derdav
C. Computation of Time Periods.
When any period of time is referenced by days herein, it shall be computed to exclude
the first day and include the last day of such period. If the last day of any such period
falls on a Saturday or Sunday or on a day made a legal holiday by the law of the
applicable jurisdiction, such day shall be omitted from the computation, and the last day
shall become the next succeeding day which is not a Saturday, Sunday or legal holiday.
D. Determination of Number of Days of Default.
For all contracts, regardless of whether the Contract Time is stipulated in calendar days
or working days, the Owner will count default days in calendar days.
E. Right of Collection.
The Owner has the right to apply any amounts due Contractor under this Agreement or
any other agreement between Owner and Contractor, as payment on such liquidated
damages due under this Agreement in Owner's sole discretion. Notwithstanding
GC-CA-3
anything herein to the contrary, Owner retains its right to liquidated damages due under
this Agreement even if Contractor, at Owner's election and in its sole discretion, is
allowed to continue and to finish the Work, or any part of it, after the expiration of the
Contract Time including granted time extensions.
F. Completion of Work by Owner.
In the event Contractor defaults on any of its obligations under the Agreement and
Owner elects to complete the Work, in whole or in part, through another contractor or its
own forces, the Contractor and its surety shall continue to be liable for the liquidated
damages under the Agreement until Owner achieves Substantial and Final Completion
of the Work. Owner will not charge liquidated damages for any delay in achieving
Substantial or Final Completion as a result of any unreasonable action or delay on the
part of the Owner.
G. Final Acceptance by Owner.
The Owner shall consider the Agreement complete when the Contractor has completed
in its entirety all of the Work and the Owner has accepted all of the Work and notified
the Contractor in writing that the Work is complete. Once the Owner has approved and
accepted the Work, Contractor shall be entitled to final payment in accordance with the
terms of the Contract Documents.
H. Recovery of Damages Suffered by Third Parties.
Contractor shall be liable to Owner to the extent Owner incurs damages from a third
party as a result of Contractor's failure to fulfill all of its obligations under the Contract
Documents. Owner's recovery of any delay related damages under this Agreement
through the liquidated damages does not preclude Owner from recovering from
Contractor any other non-delay related damages that may be owed to it arising out of or
relating to this Agreement.
Section 6. Exhibits Incorporated.
The following documents are expressly agreed to be incorporated by reference and
made a part of this Agreement.
Exhibit A:
Exhibit B:
Exhibit C:
Exhibit D:
Exhibit E:
Exhibit F:
Exhibit G:
Exhibit H:
Exhibit I:
Exhibit J:
Exhibit K:
Exhibit L:
Exhibit M:
Performance and Payment Bond Forms
Insurance Requirements
Release and Affidavit Form
Contractor Application for Payment Form
Change Order Form
Certificate of Substantial Completion Form
Final Payment Checklist
General Terms and Conditions
Supplemental Terms and Conditions
Technical Specifications
Permits
Standard Details (if applicable)
Plans and Specifications prepared by Hole Montes, Inc.
GC-CA-4
Exhibit N:
and identified as follows: NCWRF Compliance Assurance Project
as shown on Plan Sheets 1 through 177.
Contractor's List of Key Personnel
Section 7. Notices
A. All notices required or made pursuant to this Agreement by the Contractor to the
Owner shall be shall be deemed duly served if delivered by U.S. Mail, E-mail or
Facsimile, addressed to the following:
Peter Schalt, PMP
Collier County Public Utilities
3301 Tamiami Trail East; BLDG H, 3'd Floor
Naples, FL 34112
Tel: 239/252-5343
Fax: 239/252-5378
Email: PeterSchalt(1v.collieraov.net
B. All notices required or made pursuant to this Agreement by Owner to Contractor
shall be made in writing and shall be deemed duly served if delivered by U.S. Mail, E-
mail or Facsimile, addressed to the following:
Daniel Higgins, Vice President
Douglas N. Higgins, Inc.
4485 Enterprise Avenue,
Naples, Florida 34014
Tel: 239-774-3130
Fax: 239-774-4266
C. Either party may change its above noted address by giving written notice to the
other party in accordance with the requirements of this Section.
Section 8. PUBLIC ENTITY CRIMES.
8.1 By its execution of this Contract, Construction Contractor acknowledges that it
has been informed by Owner of the terms of Section 287.133(2)(a) of the Florida
Statutes which read as follows:
"A person or affiliate who has been placed on the convicted
vendor list following a conviction for a public entity crime may not
submit a bid on a contract to provide any goods or services to a
public entity for the construction or repair of a public building or
public work, may not submit bids on leases of real property to a
public entity, may not be awarded or perform work as a contractor,
supplier, subcontractor, or consultant under a contract with any
public entity in excess of the threshold amount provided in s.
GC-CA-5
287.017 for CATEGORY TWO for a period of 36 months from the
date of being placed on the convicted vendor list."
Section 9. Modification.
No modification or change to the Agreement shall be valid or binding upon the parties
unless in writing and executed by the party or parties intended to be bound by it.
Section 10. Successors and Assians.
Subject to other provisions hereof, the Agreement shall be binding upon and shall inure
to the benefit of the successors and assigns of the parties to the Agreement.
Section 11. Governina Law.
The Agreement shall be interpreted under and its performance governed by the laws of
the State of Florida.
Section 12. No Waiver.
The failure of the Owner to enforce at any time or for any period of time anyone or
more of the provisions of the Agreement shall not be construed to be and shall not be a
waiver of any such provision or provisions or of its right thereafter to enforce each and
every such provision.
Section 13. Entire Aareement.
Each of the parties hereto agrees and represents that the Agreement comprises the full
and entire agreement between the parties affecting the Work contemplated, and no
other agreement or understanding of any nature concerning the same has been entered
into or will be recognized, and that all negotiations, acts, work performed, or payments
made prior to the execution hereof shall be deemed merged in, integrated and
superseded by the Agreement.
Section 14. Severabilitv.
Should any provision of the Agreement be determined by a court to be unenforceable,
such a determination shall not affect the validity or enforceability of any other section or
part thereof.
Section 15. Change Order Authorization.
The Project Manager shall have the authority on behalf of the Owner to execute all
Change Orders and Work Directive Changes to the Agreement to the extent provided
for under the Owner's Purchasing Policy and accompanying administrative procedures.
GC-CA-6
Section 16. Construction.
Any doubtful or ambiguous language contained in this Agreement shall not be
construed against the party who physically prepared this Agreement. The rule
sometimes referred to as "fortius contra proferentum" (pursuant to which ambiguities in
a contractual term which appears on its face to have been inserted for the benefit of one
of the parties shall be construed against the benefited party) shall not be applied to the
construction of this Agreement.
Section 17. Order of Precedence
In the event of any conflict between or among the terms of any of the Contract
Documents, the terms of the Construction Agreement and the General Terms and
Conditions shall take precedence over the terms of all other Contract Documents,
except the terms of any Supplemental Conditions shall take precedence over the
Construction Agreement and the General Terms and Conditions. To the extent any
conflict in the terms of the Contract Documents cannot be resolved by application of the
Supplemental Conditions, if any, or the Construction Agreement and the General Terms
and Conditions, the conflict shall be resolved by imposing the more strict or costly
obligation under the Contract Documents upon the Contractor at Owner's discretion.
****
GC-CA-7
IN WITNESS WHEREOF, the parties have executed this Agreement on the
date(s) indicated below.
CONTRACTOR:
TWO WITNESSES:
,:0 ..,</ ct,,-,-..<-
FIRST WITNESS
Da vld ~()JaU'fe
Type/Print Name
X~aA-1LZ J4cUltt'L
SECON-O-WITNESS
k. ~'t{ UtI) lib flttU-J;eY
Type/Print Name
By:
Douglas N. Higgins, In9
Jd .G~
dmf
Date: ~ 1. WID
ATTEST:
DWighi'E::i B,r.ock, Clerk
2rJl~~OC.
""~=:dAS'~O Form
· ~"TlJ:L-
Assislimt County Attorney
_:. ,""y
I
OWNER:
BOARD OF COUNTY COMMISSIONERS OF
COLLIER COUNTY FLORIDA
BY:
GC-CA-8
EXHIBIT A
PUBLIC PAYMENT BOND
NCWRF Compliance Assurance Project
Bond No. 35BCSFD7633
Contract No. 10-5446
KNOW ALL MEN BY THESE PRESENTS: That Douglas N. Higgins, Inc,
3390 Travis pointe, Suite A, Ann Arbor, MI 48108 as Principal,
and Hartford Accident and Indemnity Company I as
Surety, located at P.O. Box 2103, 690 Asylum Avenue, Hartford, CT 06115
(Business Address) are held and firmly bound to The Board of County Commissioners of Collier
as Obligee in the sum of Eight Million Six Hundred Eighty Three Thousand Dollars County
($ 8,683,000.00 ) for the payment whereof we bind ourselves, our heirs, executors,
personal representatives, successors and assigns, jointly and severally.
WHEREAS, Principal has entered into a contract dated as of the _ day of
2010, with Obligee for NCWRF Compliance Assurance Project Bid No 10-5446
in FL accordance with drawings and specifications, which
contract is incorporated by reference and made a part hereof, and is referred to herein
as the Contract.
THE CONDITION OF THIS BOND is that if Principal:
Promptly makes payment to all claimants as defined in Section 255.05(1), Florida
Statutes, supplying Principal with labor, materials or supplies, used directly or indirectly
by Principal in the prosecution of the work provided for in the Contract, then this bond is
void; otherwise it remains in full force.
Any changes in or under the Contract and compliance or noncompliance with any
formalities connected with the Contract or the changes do not affect Sureties obligation
under this Bond.
The provisions of this bond are subject to the time limitations of Section 255.05(2). In
no event will the Surety be liable in the aggregate to claimants for more than the penal
sum of this Payment Bond, regardless of the number of suits that may be filed by
claimants.
IN WITNESS WHEREOF, the above parties have executed this instrument this 25th
day of 2010, the name of each party being affixed and these presents
duly signed by its under-signed representative, pursuant to authority of its governing
body.
GC-CA-A-1
Signed, sealed and delivered
in the presence of:
PRINCIPAL
,j)~
~-"
Douglas N. Higgins, Inc.
BY:
NAME:
ITS:
~~~ WJiv-L
vir _ ~J~/j(je
STATE OF ~ I Ut~
COUNTY OF . A J{.{ , /..-V
The foregoing instrument was acknowledged before m~ thj~~ay 9f ~C{yU1
20jQ, by . j KIt: ,as VI -f'/fSidel1 of
'. -. " ,a I\;] I cJli~1corporation, on behaif of the
corpor on. He/s . ersonall known to me OR as produced as
identification and did (d1Q...oot) take an oath.
My Commission Expires: _3/7// /
'If #:r~ - ~~iC
(Signature VNotary)
NAME:
, '""",
'.:c'/:,':r~
(Legibly Printed)
':',
I-/;I
"
(AFFIX OFFICIAL SEAL)
Notary Public, State of M I U1 ~
Commission No.:
ATTEST:
SURETY
Hartford Accident and Indemnity Company
(Printed Name)
P.O. Box 2103
690 Asylum Avenue
Hartford, CT 06115
(Business Address
(Authorized Signature)
Witnesses to Surety
(Printed Name)
GC-CA-A-2
)
,
OR
(~tUttt~ 'IIt ~bt\Hi~
As Attorney in Fact ,)
(Attach Power of Attorney)
( 'II.. (
i ,/,
~_.-/ Ct- .J-' /'/ ')
I, -,~ _
/
/
~~~
Witnesses
Heather M. Johnson
(Printed Name) Attorney in Fact
24 Frank Lloyd Wright Drive
P.O. Box 541, Suite J4100
Ann Arhoy MT 48106
(Business Address)
(734) 741-0011
(Telephone Number)
~6~TJT$~F ~~ ~~:~~~ (rlr+, 1\.3'" \>h~\er-avJ)
The foregoing
March
Attorney in Fact
Surety, on behalf of Surety,
instrument was
, 2010, by
acknowledged before me this 25th day of
Heather M. Johnson I as
of Hartford Accident and Indemnity Company
He/She is personally known to me OR has produced
as identification and who did (did not)
take a n oath.
My Commission Expires:
'1ld~1 dO\S
C'Q.,JL...t Q (L, ~
(Signature)(j
Name: C _\-\e..r~\ A. ~Q('\\i-:-...
(Legibly Pr" d)
(AFFIX OFFICIAL SEAL)
Notary Public, State of: MI
Commission No.: N/A
GC-CA-A-3
EXHIBIT A
PUBLIC PERFORMANCE BOND
NCWRF Compliance Assurance Project
Bond No. 35BCSFD7633
Contract No. 10-5446
KNOW ALL MEN BY THESE PRESENTS: That Douglas N. Higgins, Inc.
, as Principal, and Hartford Accident
and Indemni ty Company , as Surety, located at
P.o. Box 2103, 690 Asylum Avenue, Hartford, CT 06115
(Business Address) are held and firmly bound to
The Board of County Commissioners of Collier County ,as Obligee in the sum of
Eight Million Six Hundred Eighty Three Thousand Dollars
($ 8,683,000.00 ) for the payment whereof we bond ourselves, our heirs, executors,
personal representatives, successors and assigns, jointly and severally,
WHEREAS, Principal has entered into a contract dated as of the
2010, with
NCWRF Compliance Assurance Project, Bid No. 10-5446
in accordance with drawings and specifications, which contract is incorporated by
reference and made a part hereof, and is referred to herein as the Contract.
Obligee
day of
for
THE CONDITION OF THIS BOND is that if Principal:
1. Performs the Contract at the times and in the manner prescribed in the Contract;
and
2. Pays Obligee any and all losses, damages, costs and attorneys' fees that
Obligee sustains because of any default by Principal under the Contract, including, but
not limited to, all delay damages, whether liquidated or actual, incurred by Obligee; and
3. Performs the guarantee of all work and materials furnished under the Contract for
the time specified in the Contract, then this bond is void; otherwise it remains in full
force. Any changes in or under the Contract and compliance or noncompliance with
any formalities connected with the Contract or the changes do not affect Sureties
obligation under this Bond.
The Surety, for value received, hereby stipulates and agrees that no changes,
extensions of time, alterations or additions to the terms of the Contract or other work to
be performed hereunder, or the specifications referred to therein shall in anywise affect
its obligations under this bond, and it does hereby waive notice of any such changes,
extensions of time, alterations or additions to the terms of the Contract or to work or to
the specifications.
GC-CA-A-4
This instrument shall be construed in all respects as a common law bond, It is
expressly understood that the time provisions and statute of limitations under Section
255.05, Florida Statutes, shall not apply to this bond.
In no event will the Surety be liable in the aggregate to Obligee for more than the penal
sum of this Performance Bond regardless of the number of suits that may be filed by
Obligee.
IN WITNESS WHEREOF, the above parties have executed this instrument this 25th
day of March , 2010, the name of each party being affixed and these
presents duly signed by its undersigned representative, pursuant to authority of its
governing body.
Signed, sealed and delivered
in the presence of:
PRINCIPAL
Douqlas N. Higgins, Inc.
BY:
K~Ji1 ,W.JJv..l
-9~/I LJ Ii- WJj,1< ~ ~
I", /"./../$/ M
NAME:
ITS:
~6~TNET$~F /t;~~l~~C{W
The foregoing instrument was aCknowled,ged before me
Mtlya-, , 2010, by , ,I /-1, LAJ, / Kl ;>
VI 0- !,giciel1 t of. 0 I '
MI eM I aa...iA corporation, on beh of the c
personallv -1<nown to me OR has produced
as identification and did (did not) take an oath,
My Commission Expires 3/7 /; / (sCat*j ,;211-"--'-- ,~~~~p
this~ day of
, as
(AFFIX OFFICIAL SEAL)
Name:
(Legibly Printed)
Notary Public, State of: M/ctJ'.ftV7
Commission No.: '
, .:~ f~ .:',
t.1j,MI
'j; ,\':.~'~' 7, ~~C:11
GC-CA-A-5
ATTEST:
SURETY:
Hartford Accident and Indemnity Company
(Printed Name)
P.O. Box 2103
690 Asylum Avenue
Hartford, CT 06115
(Business Address)
(Authorized Signature)
Witnesses as to Surety
(Printed Name)
OR
(~~~l.{tttttJtX\t WQ1i0t0
As Attorney in Fact , -'
(Attach Power of Attorney)
/
2.://~" ~~/ c1 ~ 1-':)
,
~WlA
Witnesses
Heather M. Johnson
(Printed Name)
24 Frank Lloyd Wright Drive
P.O. Box 541, Suite J41QO
Ann Arbor. MI 48106
(Business Address)
(734) 741.0044
(Telephone Number)
STATE OF i~c.t-,i~Of'l
COUNTY OF _1"\(1\ jJ{> La<::\"~,-~\f\ V:"'<,I\\er-auJ)
The foregoing instrument was acknowledged before me this 25th day of
March ,2010, by Heather M. Johnson , as Attorney in Fact
of Hartford Accident and Indemnity <;ea Surety, on
behalf of Surety. He/She is personally known to me OR has produced
as identification and who did (did not) take an oath.
CUo)) f2. U. ~~
(Signatur~
Name: C \)e.~ f\ ~~~ \ ~
(Legibly Pri )
My Commission Expires:
'11 d.3 J ;::"06
(AFFIX OFFICIAL SEAL)
Notary Public, State of:
Commission No.: N/A
MI
GC-CA-A-6
POWER OF ATTORNEY
Direct Inquiries/Claims to:
THE HARTFORD
BOND, T-4
PO. BOX 2103, 690 ASYLUM AVENUE
HARTFORD, CONNECTICUT 06115
call: 888-266-3488 or fax: 860-757-5835
Agency Code: 35-350851
KNOW ALL PERSONS BY THESE PRESENTS THAT:
~ Hartford Fire Insurance Company, a corporation duly organized unch the laws of the State ofConnecticu
~ Hartford Casualty Insurance Company, a corporation duly organized under the laws urthe State of hdiana
~ Hartford Accident and Indemnity Company, a corporation duly organized und:r the Jaws orthe State of Connecticut
D Hartford Underwriters Insurance Company, a corporation duly organized umer the laws orthe State of Connecticut
D Twin City Fire Insurance Company, a corporation duly organized under the laws ufthe State oflndima
D Hartford Insurance Company of Illinois, a corporation duly organized und:r the laws ofthe State of Illinois
D Hartford Insurance Company of the Midwest, a corporation duly organized uncrr the laws of the State of Indiana
D Hartford Insurance Company of the Southeast, a corporation duly organized umer the laws of the State of Florida
having their home office in Hartford, Connecticut, (hereinafter collectively referred to as the "Companies") do hereby make, constitute and appoint,
up to the amount of unlimited:
Dan Hines, Heather M. Johnson, Judy K. Macklem, Carol J. Youngs
of
Ann Arbor, MI
their true and lawful Attorney(sHn-Fact, each in their separate capacity if more than one is named above, to sign its name as surety(ies) only as
delineated above by 0, and to execute, seal and acknowledge any and all bonds, undertakings, contracts and other written instruments in the
nature thereof, on behalf of the Companies in their business of guaranteeing the fidelity of persons, guaranteeing the performance of contracts and
executing or guaranteeing bonds and undertakings required or permitted in any actions or proceedings allowed by law.
In Witness Whereof, and as authorized by a Resolution of the Board of Directors of the Companies on January 22, 2004 the Companies
have caused these presents to be signed by its Assistant Vice President and its corporate seals to be hereto affixed, duly attested by its Assistant
Secretary. Further, pursuant to Resolution of the Board of Directors of the Companies, the Companies hereby unambiguously affirm that they are
and will be bound by any mechanically applied signatures applied to this Power of Attorney.
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Paul A. Bergenholtz, Assistant Secretary
M. Ross Fisher, Assistant Vice President
STATE OF CONNECTICUT}
55.
COUNTY OF HARTFORD
Hartford
On this 3rd day of March, 2008, before me personally came M. Ross Fisher, to me known, who being by me duly sworn, did depose and
say: that he resides in the County of Hartford, State of Connecticut; that he is the Assistant Vice President of the Companies, the corporations
described in and which executed the above instrument; that he knows the seals of the said corporations; that the seals affixed to the said
instrument are such corporate seals; that they were so affixed by authority of the Boards of Directors of said corporations and that he signed his
name thereto by like authority.
)
.^ q- r:? /-
/<,.) c./"c/ C /e:_~~
Scott E. Paseka
Notary Public
CERTIFICATE My Commission Expires October 31, 2012
I, the undersigned, Assistant Vice President of the Companies, DO HEREBY CERTIFY that the above and foregoing is a true and correct
copy of the Power of Attorney executed by said Companies, which is still in full force effective as of March 25, 2010.
Signed and sealed at the City of Hartford,
~
~l
.
;i11[vjy~ {'
j
Gary W. Stumper, Assistant Vice President
EXHIBIT B
INSURANCE REQUIREMENTS
The Vendor shall at its own expense, carry and maintain insurance coverage from responsible
companies duly authorized to do business in the State of Florida as set forth in EXHIBIT B of this
solicitation. The Vendor shall procure and maintain property insurance upon the entire project, if
required, to the full insurable value of the scope of work.
The County and the Vendor waive against each other and the County's separate Vendors,
Contractors, Design Consultant, Subcontractors, agents and employees of each and all of them, all
damages covered by property insurance provided herein, except such rights as they may have to the
proceeds of such insurance. The Vendor and County shall, where appropriate, require similar
waivers of subrogation from the County's separate Vendors, Design Consultants and Subcontractors
and shall require each of them to include similar waivers in their contracts.
Collier County shall be responsible for purchasing and maintaining its own liability insurance.
Certificates issued as a result of the award of this solicitation must identify "For any and all work
performed on behalf of Collier County."
The General Liability Policy provided by Vendor to meet the requirements of this solicitation shall
name Collier County, Florida, as an additional insured as to the operations of Vendor under this
solicitation and shall contain a severability of interests provisions.
Collier County Board of County Commissioners shall be named as the Certificate Holder. The
"Certificate Holder" should read as follows:
Collier County
Board of County Commissioners
Naples, Florida
The amounts and types of insurance coverage shall conform to the minimum requirements set forth in
EXHIBIT B with the use of Insurance Services Office (ISO) forms and endorsements or their
equivalents. If Vendor has any self-insured retentions or deductibles under any of the below listed
minimum required coverage, Vendor must identify on the Certificate of Insurance the nature and
amount of such self- insured retentions or deductibles and provide satisfactory evidence of financial
responsibility for such obligations. All self-insured retentions or deductibles will be Vendor's sole
responsibility.
Coverage@} shall be maintained without interruption from the date of commencement of the Work
until the date of completion and acceptance of the scope of work by the County or as specified in this
solicitation, whichever is longer.
The Vendor and/or its insurance carrier shall provide thirty (30) days written notice to the County of
policy cancellation or non-renewal on the part of the insurance carrier or the Vendor. The Vendor
shall also notify the County, in a like manner, within twenty-four (24) hours after receipt, of any
GC-CA-B-1
notices of expiration, cancellation, non-renewal or material change in coverage or limits received by
Vendor from its insurer and nothing contained herein shall relieve Vendor of this requirement to
provide notice. In the event of a reduction in the aggregate limit of any policy to be provided by
Vendor hereunder, Vendor shall immediately take steps to have the aggregate limit reinstated to the
full extent permitted under such policy.
Should at any time the Vendor not maintain the insurance coverage~ required herein, the County
may terminate the Agreement or at its sole discretion shall be authorized to purchase such
coverage~ and charge the Vendor for such coverage~ purchased. If Vendor fails to reimburse the
County for such costs within thirty (30) days after demand, the County has the right to offset these
costs from any amount due Vendor under this Agreement or any other agreement between the
County and Vendor. The County shall be under no obligation to purchase such insurance, nor shall it
be responsible for the coverage~ purchased or the insurance company or companies used. The
decision of the County to purchase such insurance coverage~ shall in no way be construed to be a
waiver of any of its rights under the Contract Documents.
If the initial or any subsequently issued Certificate of Insurance expires prior to the completion of the
scope of work, the Vendor shall furnish to the County renewal or replacement Certificate(s) of
Insurance not later than ten (10) calendar days after the expiration date on the certificate. Failure of
the Vendor to provide the County with such renewal certificate(s) shall be considered justification for
the County to terminate any and all contracts.
GC-CA-B-2
Collier County Florida
Insurance and Bonding Requirements
Worker's
Compensation
Statutory Limits of Florida Statutes, Chapter 440 and all Federal
Government Statutory Limits and Requirements
2. [8J Employer's Liability $2,000,000.00 single limit per occurrence
3. [8J Commercial
General Liability
(Occurrence Form)
patterned after the
current ISO form
4. [8J Indemnification
Bodily Injury and Property Damage
$2,000,000.00 single limit per occurrence
To the maximum extent permitted by Florida law, the
ContractorNendor/Consultant shall indemnify and hold harmless
Collier County, its officers and employees from any and all
liabilities, damages, losses and costs, including, but not limited
to, reasonable attorneys' fees and paralegals' fees, to the extent
caused by the negligence, recklessness, or intentionally wrongful
conduct of the ContractorNendor/Consultant or anyone
employed or utilized by the ContractorNendor/Consultant in the
performance of this Agreement. This indemnification obligation
shall not be construed to negate, abridge or reduce any other
rights or remedies which otherwise may be available to an
indemnified party or person described in this paragraph. This
section does not pertain to any incident arising from the sole
negligence of Collier County.
4. [8J Automobile Liability $ 500,000.00 Each Occurrence; Bodily Injury & Property Damage,
Owned/Non-owned/Hired; Automobile Included
5. 0 Other insurance as 0 Watercraft
noted: Per Occurrence
$
o United States Longshoreman's and Harborworker's Act
coverage shall be maintained where applicable to the completion
of the work.
$
Per Occurrence
o Maritime Coverage (Jones Act) shall be maintained where
applicable to the completion of the work.
$
Per Occurrence
GC-CA-B-3
6. [8J Bid bond
7. [8J Performance and
Payment Bonds
o Aircraft Liability coverage shall be carried in limits of not less
than $5,000,000 each occurrence if applicable to the completion
of the Services under this Agreement.
$
Per Occurrence
o Pollution
Per Occurrence
$
o Professional Liability $
Per Occurrence
. $ 500,000 each claim and in the aggregate
· $1,000,000 each claim and in the aggregate
· $2,000,000 each claim and in the aggregate
o Project Professional Liability
Per Occurrence
$
o Valuable Papers Insurance
Per Occurrence
$
Shall be submitted with proposal response in the form of certified
funds, cashiers' check or an irrevocable letter of credit, a cash
bond posted with the County Clerk, or proposal bond in a sum
equal to 5% of the cost proposal. All checks shall be made
payable to the Collier County Board of County Commissioners on
a bank or trust company located in the State of Florida and
insured by the Federal Deposit Insurance Corporation.
For projects in excess of $200,000, bonds shall be submitted
with the executed contract by Proposers receiving award, and
written for 100% of the Contract award amount, the cost borne by
the Proposer receiving an award. The Performance and Payment
Bonds shall be underwritten by a surety authorized to do
business in the State of Florida and otherwise acceptable to
Owner; provided, however, the surety shall be rated as "A-" or
better as to general policy holders rating and Class V or higher
rating as to financial size category and the amount required shall
not exceed 5% of the reported policy holders' surplus, all as
reported in the most current Best Key Rating Guide, published by
A.M. Best Company, Inc of 75 Fulton Street, New York, New
York 10038.
GC-CA-B-4
8. [8J Vendor shall ensure that all subcontractors comply with the same insurance requirements that
he is required to meet. The same Vendor shall provide County with certificates of insurance
meeting the required insurance provisions.
9. [8J Collier County must be named as "ADDITIONAL INSURED" on the Insurance Certificate for
Commercial General Liability where required.
10. [8J Collier County Board of County Commissioners shall be named as the Certificate Holder and
the certificate must read "For any and all work performed on behalf of Collier County.
NOTE: The "Certificate" should read as follows:
. For any and all work performed on behalf of Collier County.
. Collier County Board of County Commissioners, Naples, Florida
No County Division, Department or individual name should appear on the Certificate.
11. [8J Thirty (30) Days Cancellation Notice required.
Vendor's Insurance Statement
We understand the insurance requirements of these specifications and that the evidence of insurability
may be required within five (5) days of the award of this solicitation.
Name of
Firm
Date
Vendor
Signature
Print
Name
Insurance
Agency
Agent
Name
Telephone Number
GC-CA-B-5
~~"
PRODUCER
CERTIFICATE OF LIABILITY INSURANCE
OP 10 U1
HIGGI-5 03 26
THIS CERTIFICATE IS ISSUED AS A MATTER OF INFORMATION
ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE
HOLDER. THIS CERTIFICATE DOES NOT AMEND, EXTEND OR
ALTER THE COVERAGE AFFORDED BY THE POLICIES BELOW.
DATE (MMfDDIYYYY)
10
Hylant Group lnc - Ann Arbor
24 Frank Lloyd Wright Dr J4100
Ann Arbor MI 48105
Phone: 734-741-0044 Fax:734-741-1850
Douglas N. Higgins,
3390 Travis P01nte,
Ann Arbor MI 48108
Inc.
Suite A
....."INSURERS~-"()RI)ING COVERA.?E______ 1!'l~IC#_
;~~SURER A__ _ cc>n_~_'::'~~~~~()_~:'r":n~! compa~,__,"______~__O 3 5 2 8 9__
!~~~~:_:~:_ .... ~;;~~~;~~'1;~~~;~~anc~~~--~~~~6~~-..
INSURER D. C<;>_n_~~_nen~c~~a~_~~ Compa~J. ' 020443
INSURERE RSUI Indemnit Co 22314
INSURED
COVERAGES
THE POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIOD INDICATED. NOTWITHSTANDING
ANY REQUIREMENT, TERM OR CONDITION OF ANY CONTRACT OR OTHER DOCUMENT WITH RESPECT TO WHICH THIS CERTIFICATE MAY BE ISSUED OR
MAY PERTAIN, THE INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL THE TERMS, EXCLUSIONS AND CONDITIONS OF SUCH
POLICIES. AGGREGATE LIMITS SHOWN MAY HAVE BEEN REDUCED BY PAID CLAIMS
I
LTR NSR
A
TYPE OF INSURANCE
GENERAL LIABILITY
~~"MMERCIAL GENERAL LIABILITY
~---W. CLAIMS MADE ~j OCCUR
XiIncludes XCU
-.-.,..-.--------...--------
X Contractual Liab
.......-.--....... .....---
, GEN'L AGGREGATE LIMIT APPLIES PER
-I POLICY 'i--] :;~gi- LOC
AUTOMOBILE LIABILITY
I ~ ANY AUTO
____.1 ALL OWNED AUTOS
k- SCHEDULED AUTOS
~_I HIRED AUTOS
~ X -j NON-OWNED AUTOS
!.-<-
I
POLICY NUMBER
-I crRT~C~~66~ ~~\F~~S~N , LIMITS
12/10/09 12/10/10 r.~.~~l~~~E~;~~~""l~--;: .~p. ~~~~~OO=.",,__
~_M~!?~XP(Anyoney~~~ ~__!_5J_~___.
lP~_RSON. AL. ~_~~V.~NJUR" Y m+_$__1_!J!Q__0.,..9_Q_9._
~~~_~AL ~9GREG~~ -:::i~~Q.Q{), _OO~_
i PRODU~2:S - CO~~!(?~_~~__~J 9_9.0 , 00 q_____
,
U1061922047
B
U1061922033
12/10/09
12/10/10
COMBINED SINGLE LIMIT ~ $ 1 000 000
(Eaaccldent) "
f ------- --- .---........________
BODILY INJURY , $
(Per person}
BODILY INJURY
(Per accident)
- -l--'~--
PROPERTY DAMAGE
{Per accident}
,
AUTO ONLY - EA ACCIDENT $
OTHER THAN
AUTO ONLY:
EA ACC $
AGG
EXCESS I UMBRELLA LIABILITY
F OCCUR :~J CLAIMS MADE U1061922050
" 1 DEDUCTIBLE
X I RETENTION $10,000
WORKERS COMPENSATION
AND EMPLOYERS' LIABILITY Y I N
C ANY PROPRIETORlPARTNERlEXECUTIVD WC161922 0 16
OFFICER/MEMBER EXCLUDED?
(Mandatory in NH)
~~~~11Ls~~bOV~~?~~S below
"I OTHER
E Professional and
Pollution Liab
DESCRIPTION OF OPERATIONS I LOCATIONS (VEHICLES (EXCLUSIONS ADDEO BY ENDORSEMENT I SPECIAL PROVISIONS
Additional Insured for General Liability - Board of County
Commissioners, Collier County. For any and all work performed
Collier County
, EACH OCCURRENCE
'..1() , 000,000
--,10. ,0 OQ."OO 0 .
,
o
12/10/09
12/10/10 fAGGREGAT'..
~...
12/10/09
12/10/10
,
i__x_ JORY L1MlI~_L__LE_.B..-_j_ .____.,,_______
I_~_~:. EA~~^~~~DENT __..___~_$ 50q,J 000_
E.l-DISEASE-EAEMPLOYEE $ 500,000
....--... .--.. ........------.
E.L DISEASE.POllCYLlMIT : $1 000 000
PEC0025095
12/10/09
12/10/10
2,000,000
25,000 ded
on behalf of
CERTIFICATE HOLDER
CANCELLA liON
SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EXPIRATION
COLC002 DATE THEREOF, THE ISSUING INSURER WILL ENDEAVOR TO MAIL ~ DAYS WRITTEN
NOTICE TO THE CERTIFICATE HOLDER NAMED TO THE LEFT, BUT FAILURE TO 00 SO SHALL
Collier County Board of IMPOSE NO OBLIGATION OR LIABILITY OF ANY KINO UPON THE INSURER, ITS AGENTS OR
County
Commissioners Naples, FL REPRESENTATIVES.
3301 Tamiami Trail East AU~C:NTV~L~
Nan1es FL 34412
ACORD 25 (2009/01)
@1988-2009ACORD CORPORATION. All rights reserved.
The ACORD name and logo are registered marks of ACORD
IMPORTANT
If the certificate holder is an ADDITIONAL INSURED, the policy(ies) must be endorsed. A statement
on this certificate does not confer rights to the certificate holder in lieu of such endorsement(s).
If SUBROGATION IS WAIVED, subject to the terms and conditions of the policy, certain policies may
require an endorsement. A statement on this certificate does not confer rights to the certificate
holder in lieu of such endorsement(s).
DISCLAIMER
This Certificate of Insurance does not constitute a contract between the issuing insurer(s), authorized
representative or producer, and the certificate holder, nor does it affirmatively or negatively amend,
extend or alter the coverage afforded by the policies listed thereon.
ACORO 25 (2009/01)
EXHIBIT C
RELEASE AND AFFIDAVIT FORM
COUNTY OF COLLIER
STATE OF FLORIDA)
Before me, the undersigned authority, personally appeared
who after being duly sworn, deposes and says:
(1) In accordance with the Contract Documents and in consideration of $ paid,
("Contractor") releases and waives for itself and it's subcontractors,
material-men, successors and assigns, all claims demands, damages, costs and expenses, whether in contract or in tort,
against the Board of County Commissioners of Collier County, Florida, relating in any way to the performance of the
Agreement between Contractor and Owner dated , 2010 for the period from
to , excluding all retainage withheld and any pending claims or
disputes as expressly specified as follows:
(2) Contractor certifies for itself and its subcontractors, material-men, successors and assigns, that all charges for
labor, materials, supplies, lands, licenses and other expenses for which Owner might be sued or for which a lien or a
demand against any payment bond might be filed, have been fully satisfied and paid.
(3) To the maximum extent permitted by law, Contractor agrees to indemnify, defend and save harmless Owner from
all demands or suits, actions, claims of liens or other charges filed or asserted against the Owner arising out of the
performance by Contractor of the Work covered by this Release and Affidavit.
(4) This Release and Affidavit is given in connection with Contractor's [monthly/final] Application for Payment No.
CONTRACTOR
BY:
ITS:
President
DATE:
Witnesses
STATE OF
COUNTY OF
The foregoing instrument was acknowledged before me this _ day of ,2010, by
,as of I a
corporation, on behalf of the corporation. He/she is personally known to me or has produced
as identification and did (did not) take an oath.
My Commission Expires:
(Signature of Notary)
NAME:
(Legibly Printed)
(AFFIX OFFICIAL SEAL)
Notary Public, State of
Commissioner No.:
GC-CA-C-1
EXHIBIT D
FORM OF CONTRACT APPLICATION FOR PAYMENT
(County Project Manager)
(County Department)
Collier County Board of County Commissioners (the OWNER) or
Collier County Water-Sewer District (the OWNER)
Bid No.
Project No.
Application Date
FROM:
(Contractor's Representative) Payment Application No.
(Contractor's Name) for Work accomplished through the Date:
(Contractor's Address)
RE:
(Project Name)
Original Contract Time:
Revised Contract Time:
%
%
Original Contract Price: $
Total Change Orders to Date $
Revised Contract Amount $
Total value of Work Completed
and stored to Date $
Less Retainage $
Total Earned Less Retainage $
Less previous payment (s) $
AMOUNT DUE THIS
APPLICATION: $
Retainage @ 10% thru[insert date] $
Retainage @ _% after [insert date] $
=
Percent Work completed to Date:
Percent Contract Time completed to Date
Liquidated Damages to be Accrued $
ATTACH SCHEDULE OF VALUES AND ACCOMPANYING DOCUMENTATION TO THIS APPLICATION
CONTRACTOR'S CERTIFICATION: The undersigned CONTRACTOR certifies that: (1) all previous progress payments
received from OWNER on account of Work done under the Contract referred to above have been applied to discharge in
full all obligations of CONTRACTOR incurred in connection with Work covered by prior Applications for Payment
numbered 1 through _ inclusive; (2) title to all materials and equipment incorporated in said Work or otherwise listed
in or covered by this Application for Payment will pass to OWNER at time of payment free and clear of all liens, claims,
security interests and encumbrances (except such as covered by Bond acceptable to OWNER); (3) all amounts have
been paid for work which previous payments were issued and received from the OWNER and that current payment is now
due; and (4) CONTRACTOR has only included amounts in this Application for Payment properly due and owing and
CONTRACTOR has not included within the above referenced amount any claims for unauthorized or changed Work that
has not been properly approved by Owner in writing and in advance of such Work.
By CONTRACTOR: (Contractor's Name)
(Signature) DATE:
(Type Name & Title)
(shall be signed by a duly authorized representative of CONTRACTOR)
Payment to the CONTRACTOR for the above AMOUNT DUE THIS APPLICATION is recommended:
By Design Professional:
(DP's Name)
(Signature) DATE:
(Type Name & Title)
Payment to the CONTRACTOR for the above AMOUNT DUE THIS APPLICATION is approved:
By OWNER'S Project Manager:
(Signature) DATE:
(Type Name and Title)
GC-CA-D-1
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EXHIBIT E
CHANGE ORDER
TO:
Project Name:
Sid No.:
Change Order No.:
FROM: Collier County Government
Construction Agreement Dated:
Date:
Change Order Description
Original Agreement Amount ...........................................................$
Sum of previous Change Orders Amount .......................................$
This Change Order Amount ..........................................................$
Revised Agreement Amount ... ....... .............. ........... .................. ...... $
Original Contract Time in calendar days
Adjusted number of calendar days due to previous Change Orders
This Change Order adjusted time is
Revised Contract Time in calendar days
Original Notice to Proceed Date
Completion date based on original Contract Time
Revised completion date
Contractor's acceptance of this Change Order shall constitute a modification to the Agreement
and will be performed subject to all the same terms and conditions as contained in the
Agreement, as if the same were repeated in this acceptance. The adjustments, if any, to the
Agreement shall constitute a full and final settlement of any and all claims of the Contractor
arising out of, or related to, the change set forth herein, including claims for impact and delay
costs.
Prepared by:
Date:
Project Manager
Recommended by:
Date:
Design Professional
Accepted by:
Date:
Contractor
Approved by:
Date:
Department Director
Authorized by:
Division Administrator
Date:
(For use by Owner: Fund
Number: )
Cost Center:
Object Code:
Project
GC-CA-E-1
EXHIBIT F
CERTIFICATE OF SUBSTANTIAL COMPLETION
OWNER'S Project No
PROJECT:
Design Professional's Project No.
CONTRACTOR
Contract For
Contract Date
This Certificate of Substantial Completion appiies to all Work under the Contract Documents or to the
following specified parts thereof:
To
OWNER
And
To
Substantial Completion is the state in the progress of the Work when the Work (or designated
portion) is sufficiently complete in accordance with the Contract Documents so that the Owner
can occupy or utilize the Work for its intended use. The Work to which this Certificate applies has
been inspected by authorized representatives of OWNER, CONTRACTOR AND DESIGN
PROFESSIONAL, and that Work is hereby declared to be substantially complete in accordance with the
requirements of the Contract Documents on:
DATE OF SUBSTANTIAL COMPLETION
A tentative list of items to be completed or corrected is attached hereto. This list may not be all-inclusive,
and the failure to inciude an item in it does not alter the responsibility of CONTRACTOR to complete all
the Work in accordance with the Contract Documents. The items in the tentative list shall be completed
or corrected by CONTRACTOR within days of the above date of Substantial Completion.
GC-CA-F-1
The responsibilities between OWNER and CONTRACTOR for security, operation, safety, maintenance,
heat, utilities, insurance and warranties shall be as follows:
RESPONSIBILITIES:
OWNER:
CONTRACTOR
The following documents are attached to and made a part of this Certificate:
This certificate does not constitute an acceptance of Work not in accordance with the Contract
Documents nor is it a release of CONTRACTOR'S obligation to complete the Work in accordance with the
Contract Documents.
Executed by Design Professional on
,2010
Design Professional
By:
Type Name and Title
CONTRACTOR accepts this Certificate of Substantial Completion on _
,2010
CONTRACTOR
By:
Type Name and Title
OWNER accepts this Certificate of Substantial Completion on_
,2010
OWNER
By:
Type Name and Title
GC-CA-F-2
EXHIBIT G
FINAL PAYMENT CHECKLIST
Bid No.:
Contractor:
Project No.: __
Date:
,2010
The following items have been secured by the
for the Project known as
and have been reviewed and found to comply with the requirements of the Contract Documents.
Original Contract Amount:
Final Contract Amount:
Commencement Date:
Substantial Completion Time as set forth in the Agreement:
Actual Date of Substantial Completion:
Calendar Days.
Final Completion Time as set forth in the Agreement:
Actual Final Completion Date:
Calendar Days.
YES
NO
1. All Punch List items completed on
2. Warranties and Guarantees assigned to Owner (attach to this form).
3. Effective date of General one year warranty from Contractor is:
4. 2 copies of Operation and Maintenance manuals for equipment and
system submitted (list manuals in attachment to this form).
5. As-Built drawings obtained and dated:
6. Owner personnel trained on system and equipment operation.
7. Certificate of Occupancy No.:
issued on (attach to this form).
8. Certificate of Substantial Completion issued on
9. Final Payment Application and Affidavits received from Contractor on:
10. Consent of Surety received on
11. Operating Department personnel notified Project is in operating phase.
12. All Spare Parts or Special Tools provided to Owner:
13. Finished Floor Elevation Certificate provided to Owner:
14. Vendor Evaluation
15. Other:
If any of the above is not applicable, indicate by N/A. If NO is checked for any of the above, attach
explanation.
Acknowledgments:
By Contractor:
(Company Name)
(Signature)
(Typed Name & Title)
GC-CA-G,1
By Design
Professional:
By Owner:
GC-CA-G-2
(Firm Name)
(Signature)
(Typed Name & Title)
(Department Name)
(Signature)
(Name & Title)
EXHIBIT H
GENERAL TERMS AND CONDITIONS
1. INTENT OF CONTRACT DOCUMENTS.
1.1 It is the intent of the Contract Documents to describe a functionally complete
Project (or portion thereof) to be constructed in accordance with the Contract
Documents. Any work, materials or equipment that may reasonably be inferred from
the Contract Documents as being required to produce the intended result shall be
supplied whether or not specifically called for. When words which have a well known
technical or trade meaning are used to describe work, materials or equipment, such
words shall be interpreted in accordance with that meaning. Reference to standard
specifications, manuals or codes of any technical society, organization or association or
to the laws or regulations of any governmental authority having jurisdiction over the
Project, whether such reference be specific or by implication, shall mean the latest
standard specification, manual, code, law or regulation in effect at the time the Work is
performed, except as may be otherwise specifically stated herein.
1.2 If before or during the performance of the Work Contractor discovers a conflict,
error or discrepancy in the Contract Documents, Contractor immediately shall report
same to the Project Manager in writing and before proceeding with the Work affected
thereby shall obtain a written interpretation or clarification from the Project Manager;
said interpretation or clarification from the Project Manager may require Contractor to
consult directly with Design Professional or some other third party, as directed by
Project Manager. Contractor shall take field measurements and verify field conditions
and shall carefully compare such field measurements and conditions and other
information known to Contractor with the Contract Documents before commencing any
portion of the Work.
1.3 Drawings are intended to show general arrangements, design and extent of Work
and are not intended to serve as shop drawings. Specifications are separated into
divisions for convenience of reference only and shall not be interpreted as establishing
divisions for the Work, trades, subcontracts, or extent of any part of the Work. In the
event of a discrepancy between or among the drawings, specifications or other Contract
Document provisions, Contractor shall be required to comply with the provision which is
the more restrictive or stringent requirement upon the Contractor, as determined by the
Project Manager. Unless otherwise specifically mentioned, all anchors, bolts, screws,
fittings, fillers, hardware, accessories, trim and other parts required in connection with
any portion of the Work to make a complete, serviceable, finished and first quality
installation shall be furnished and installed as part of the Work, whether or not called for
by the Contract Documents.
2. INVESTIGATION AND UTILITIES.
2.1 Subject to Section 2.3 below, Contractor shall have the sole responsibility of
satisfying itself concerning the nature and location of the Work and the general and
local conditions, and particularly, but without limitation, with respect to the following:
GC-CA-J-1
those affecting transportation, access, disposal, handling and storage of materials;
availability and quality of labor; water and electric power; availability and condition of
roads; work area; living facilities; climatic conditions and seasons; physical conditions at
the work-site and the project area as a whole; topography and ground surface
conditions; nature and quantity of the surface materials to be encountered; subsurface
conditions; equipment and facilities needed preliminary to and during performance of
the Work; and all other costs associated with such performance. The failure of
Contractor to acquaint itself with any applicable conditions shall not relieve Contractor
from any of its responsibilities to perform under the Contract Documents, nor shall it be
considered the basis for any claim for additional time or compensation.
2.2 Contractor shall locate all existing roadways, railways, drainage facilities and
utility services above, upon, or under the Project site, said roadways, railways, drainage
facilities and utilities being referred to in this Sub-Section 2.2 as the "Utilities".
Contractor shall contact the owners of all Utilities to determine the necessity for
relocating or temporarily interrupting any Utilities during the construction of the Project.
Contractor shall schedule and coordinate its Work around any such relocation or
temporary service interruption. Contractor shall be responsible for properly shoring,
supporting and protecting all Utilities at all times during the course of the Work. The
Contractor is responsible for coordinating all other utility work so as to not interfere with
the prosecution of the Work (except those utilities to be coordinated by the Owner as
may be expressly described elsewhere in the Contract Documents).
2.3 Notwithstanding anything in the Contract Documents to the contrary, if conditions
are encountered at the Project site which are (i) subsurface or otherwise concealed
physical conditions which differ materially from those indicated in the Contract
Documents or (ii) unknown physical conditions of an unusual nature, which differ
materially from those ordinarily found to exist and generally recognized as inherent in
construction activities of the character provided for in the Contract Documents, and
which reasonably should not have been discovered by Contractor as part of its scope of
site investigative services required pursuant to the terms of the Contract Documents,
then Contractor shall provide Owner with prompt written notice thereof before conditions
are disturbed and in no event later than three (3) calendar days after first observance of
such conditions. Owner and Design Professional shall promptly investigate such
conditions and, if they differ materially and cause an increase or decrease in
Contractor's cost of, or time required for, performance of any part of the Work, Owner
will acknowledge and agree to an equitable adjustment to Contractor's compensation or
time for performance, or both, for such Work. If Owner determines that the conditions at
the site are not materially different from those indicated in the Contract Documents or
not of an unusual nature or should have been discovered by Contractor as part of its
investigative services, and that no change in the terms of the Agreement is justified,
Owner shall so notify Contractor in writing, stating its reasons. Claims by Contractor in
opposition to such determination by Owner must be made within seven (7) calendar
days after Contractor's receipt of Owner's written determination notice. If Owner and
Contractor cannot agree on an adjustment to Contractor's cost or time of performance,
the dispute resolution procedure set forth in the Contract Documents shall be complied
with by the parties.
GC-CA-J-2
3. SCHEDULE.
3.1 The Contractor, within ten (10) calendar days after receipt of the Notice of Award,
shall prepare and submit to Project Manager, for their review and approval, a progress
schedule for the Project (herein "Progress Schedule"). The Progress Schedule shall
relate to all Work required by the Contract Documents, and shall utilize the Critical Path
method of scheduling and shall provide for expeditious and practicable execution of the
Work within the Contract Time. The Progress Schedule shall indicate the dates for
starting and completing the various stages of the Work.
3.2 The Progress Schedule shall be updated monthly by the Contractor. All monthly
updates to the Progress Schedule shall be subject to the Project Manager's review and
approval. Contractor shall submit the updates to the Progress Schedule with its
monthly Applications for Payment noted below. The Project Manager's review and
approval of the submitted Progress Schedule updates shall be a condition precedent to
the Owner's obligation to pay Contractor.
3.3 All work under this Agreement shall be performed in accordance with the
requirements of all Collier County Noise Ordinances then in effect. Unless otherwise
specified, work will generally be limited to the hours of 7:00 a.m. to 7:00 p.m., Monday
through Saturday. No work shall be performed outside the specified hours without the
prior approval of the Project Manager.
4. PROGRESS PAYMENTS.
4.1 Prior to submitting its first monthly Application for Payment, Contractor shall
submit to Project Manager, for their review and approval, a schedule of values based
upon the Contract Price, listing the major elements of the Work and the dollar value for
each element. After its approval by the Project Manager, this schedule of values shall
be used as the basis for the Contractor's monthly Applications for Payment. This
schedule shall be updated and submitted each month along with a completed copy of
the Application for Payment form signed by the Contractor's authorized representative
and attached to the Agreement as Exhibit D.
4.2 Prior to submitting its first monthly Application for Payment, Contractor shall
provide to the Project Manager the list of its Subcontractors and materialmen submitted
with its Bid showing the work and materials involved and the dollar amount of each
subcontract and purchase order. Contractor acknowledges and agrees that any
modifications to the list of Subcontractors submitted with Contractor's Bid and any
subsequently identified Subcontractors are subject to Owner's prior written approval.
The first Application for Payment shall be submitted no earlier than thirty (30) days after
the Commencement Date. Notwithstanding anything herein to the contrary, if approved
by Owner in its sole discretion, Contractor may submit its invoice for any required
Payment and Performance Bonds prior to the first Application of Payment provided that
Contractor has furnished Owner certified copies of the receipts evidencing the premium
paid by Contractor for the bonds.
GC-CA-J-3
4.3 Unless expressly approved by Owner in advance and in writing, said approval at
Owner's sole discretion, Owner is not required to make any payment for materials or
equipment that have not been incorporated into the Project. If payment is requested on
the basis of materials and equipment not incorporated into the Project, but delivered
and suitably stored at the site or at another location, and such payment and storage
have been agreed to by Owner in writing, the Application for Payment also shall be
accompanied by a bill of sale, invoice or other documentation warranting that the Owner
has received the materials and equipment free and clear of all liens, charges, security
interests and encumbrances, together with evidence that the materials and equipment
are covered by appropriate property insurance and other arrangements to protect
Owner's interest therein, all of which shall be subject to the Owner's satisfaction.
Thereafter, with each Application for Payment, Contractor also shall complete and
submit to Owner as part of its Application for Payment, the Stored Materials Record
attached hereto and made a part hereof as Exhibit D-3.
4.4 Contractor shall submit four (4) copies of its monthly Application for Payment to
the Project Manager or his or her designee, as directed by Owner (which designee may
include the Design Professional). After the date of each Application for Payment is
stamped as received and within the timeframes set forth in Section 218.735 F.S., the
Project Manager, or Design Professional, shall either: (1) Indicate its approval of the
requested payment; (2) indicate its approval of only a portion of the requested payment,
stating in writing its reasons therefore; or (3) return the Application for Payment to the
Contractor indicating, in writing, the reason for refusing to approve payment. Payments
of proper invoices in the amounts approved shall be processed and paid in accordance
with Section 218.735, F.S. and the administrative procedures established by the
County's Purchasing Department and the Clerk of Court's Finance Department
respectively.
In the event of a total denial by Owner and return of the Application for Payment by the
Project Manager, the Contractor may make the necessary corrections and re-submit the
Application for Payment. The Owner shall, within ten (10) business days after the
Application for Payment is stamped and received and after Project Manager approval of
an Application for Payment, pay the Contractor the amounts so approved.
4.5 Owner shall retain ten percent (10%) of the gross amount of each monthly
payment request or ten percent (10%) of the portion thereof approved by the Project
Manager for payment, whichever is less. Such sum shall be accumulated and not
released to Contractor until final payment is due unless otherwise agreed to by the
Owner in accordance with Florida Statute 255.078. The Project Manager shall have the
discretion to establish, in writing, a schedule to periodically reduce the percentage of
cumulative retainage held through out the course of the Project schedule. Owner shall
reduce the amount of the retainage withheld on each payment request subsequent to
fifty percent (50%) completion subject to the guidelines set forth in Florida Statute
255.078 and as set forth in the Owner's Purchasing Policy.
4.6 Monthly payments to Contractor shall in no way imply approval or acceptance of
Contractor's Work.
GC-CA-J-4
4.7 Each Application for Payment, subsequent to the first pay application, shall be
accompanied by a Release and Affidavit, in the form attached as Exhibit C,
acknowledging Contractor's receipt of payment in full for all materials, labor, equipment
and other bills that are then due and payable by Owner with respect to the current
Application for Payment. Further, to the extent directed by Owner and in Owner's sole
discretion, Contractor shall also submit a Release and Affidavit from each
Subcontractor, sub-subcontractor, or supplier in the form attached as Exhibit C
acknowledging that each Subcontractor, sub-subcontractor or supplier has been paid in
full through the previous month's Application for Payment The Owner shall not be
required to make payment until and unless these affidavits are furnished by Contractor.
4.8 Contractor agrees and understands that funding limitations exist and that the
expenditure of funds must be spread over the duration of the Project at regular intervals
based on the Contract Amount and Progress Schedule. Accordingly, prior to submitting
its first monthly Application for Payment, Contractor shall prepare and submit for Project
Manager's review and approval, a detailed Project Funding Schedule, which shall be
updated as necessary and approved by Owner to reflect approved adjustments to the
Contract Amount and Contract Time. No voluntary acceleration or early completion of
the Work shall modify the time of payments to Contractor as set forth in the approved
Project Funding Schedule.
4.9 Notwithstanding anything in the Contract Documents to the contrary, Contractor
acknowledges and agrees that in the event of a dispute concerning payments for Work
performed under this Agreement, Contractor shall continue to perform the Work
required of it under this Agreement pending resolution of the dispute provided that
Owner continues to pay Contractor all amounts that Owner does not dispute are due
and payable.
4.10 Payments will be made for services furnished, delivered, and accepted, upon
receipt and approval of invoices submitted on the date of services or within six (6)
months after completion of contract. Any untimely submission of invoices beyond the
specified deadline period is subject to non-payment under the legal doctrine of "laches"
as untimely submitted. Time shall be deemed of the essence with respect to the timely
submission of invoices under this agreement.
5. PAYMENTS WITHHELD.
5.1 The Project Manager may decline to approve any Application for Payment, or
portions thereof, because of subsequently discovered evidence or subsequent
inspections that reveal non-compliance with the Contract Documents. The Project
Manager may nullify the whole or any part of any approval for payment previously
issued and Owner may withhold any payments otherwise due Contractor under this
Agreement or any other agreement between Owner and Contractor, to such extent as
may be necessary in the Owner's opinion to protect it from loss because of:
(a) defective Work not remedied; (b) third party claims filed or reasonable evidence
indicating probable filing of such claims; (c) failure of Contractor to make payment
GC-CA-J-5
properly to subcontractors or for labor, materials or equipment; (d) reasonable doubt
that the Work can be completed for the unpaid balance of the Contract Amount; (e)
reasonable indication that the Work will not be completed within the Contract Time; (f)
unsatisfactory prosecution of the Work by the Contractor; or (g) any other material
breach of the Contract Documents by Contractor.
5.2 If any conditions described in 5.1. are not remedied or removed, Owner may,
after three (3) days written notice, rectify the same at Contractor's expense. Provided,
however, in the event of an emergency, Owner shall not be required to provide
Contractor any written notice prior to rectifying the situation at Contractor's expense.
Owner also may offset against any sums due Contractor the amount of any liquidated or
non-liquidated obligations of Contractor to Owner, whether relating to or arising out of
this Agreement or any other agreement between Contractor and Owner.
6. FINAL PAYMENT.
6.1 Owner shall make final payment to Contractor in accordance with Section
218.735, F.S. and the administrative procedures established by the County's
Purchasing Department and the Clerk of Court's Finance Department after the Work is
finally inspected and accepted by Project Manager as set forth with Section 20.1 herein,
provided that Contractor first, and as an explicit condition precedent to the accrual of
Contractor's right to final payment, shall have furnished Owner with a properly executed
and notarized copy of the Release and Affidavit attached as Exhibit C, as well as, a duly
executed copy of the Surety's consent to final payment and such other documentation
that may be required by the Contract Documents and the Owner. Prior to release of
final payment and final retainage, the Contractor's Representative and the Project
Manager shall jointly complete the Final Payment Checklist, a representative copy of
which is attached to this Agreement as Exhibit G.
6.2 Contractor's acceptance of final payment shall constitute a full waiver of any and
all claims by Contractor against Owner arising out of this Agreement or otherwise
relating to the Project, except those previously made in writing in accordance with the
requirements of the Contract Documents and identified by Contractor as unsettled in its
final Application for Payment. Neither the acceptance of the Work nor payment by
Owner shall be deemed to be a waiver of Owner's right to enforce any obligations of
Contractor hereunder or to the recovery of damages for defective Work not discovered
by the Design Professional or Project Manager at the time of final inspection.
7. SUBMITTALS AND SUBSTITUTIONS.
7.1 Contractor shall carefully examine the Contract Documents for all requirements
for approval of materials to be submitted such as shop drawings, data, test results,
schedules and samples. Contractor shall submit all such materials at its own expense
and in such form as required by the Contract Documents in sufficient time to prevent
any delay in the delivery of such materials and the installation thereof.
GC-CA-J-6
7.2 Whenever materials or equipment are specified or described in the Contract
Documents by using the name of a proprietary item or the name of a particular supplier,
the naming of the item is intended to establish the type, function and quality required.
Unless the name is followed by words indicating that no substitution is permitted,
materials or equipment of other suppliers may be accepted by Owner if sufficient
information is submitted by Contractor to allow the Owner to determine that the material
or equipment proposed is equivalent or equal to that named. Requests for review of
substitute items of material and equipment will not be accepted by Owner from anyone
other than Contractor and all such requests must be submitted by Contractor to Project
Manager within thirty (30) calendar days after Notice of Award is received by
Contractor, unless otherwise mutually agreed in writing by Owner and Contractor.
7.3 If Contractor wishes to furnish or use a substitute item of material or equipment,
Contractor shall make application to the Project Manager for acceptance thereof,
certifying that the proposed substitute shall adequately perform the functions and
achieve the results called for by the general design, be similar and of equal substance
to that specified and be suited to the same use as that specified. The application shall
state that the evaluation and acceptance of the proposed substitute will not prejudice
Contractor's achievement of substantial completion on time, whether or not acceptance
of the substitute for use in the Work will require a change in any of the Contract
Documents (or in the provisions of any other direct contract with Owner for the Project)
to adapt the design to the proposed substitute and whether or not incorporation or use
by the substitute in connection with the Work is subject to payment of any license fee or
royalty. All variations of the proposed substitute from that specified will be identified in
the application and available maintenance, repair and replacement service shall be
indicated. The application also shall contain an itemized estimate of all costs that will
result directly or indirectly from acceptance of such substitute, including costs for
redesign and claims of other contractors affected by the resulting change, all of which
shall be considered by the Project Manager in evaluating the proposed substitute. The
Project Manager may require Contractor to furnish at Contractor's expense additional
data about the proposed substitute.
7.4 If a specific means, method, technique, sequence or procedure of construction is
indicated in or required by the Contract Documents, Contractor may furnish or utilize a
substitute means, method, sequence, technique or procedure of construction
acceptable to the Project Manager, if Contractor submits sufficient information to allow
the Project Manager to determine that the substitute proposed is equivalent to that
indicated or required by the Contract Documents. The procedures for submission to
and review by the Project Manager shall be the same as those provided herein for
substitute materials and equipment.
7.5 The Project Manager shall be allowed a reasonable time within which to evaluate
each proposed substitute and, if need be, to consult with the Design Professional. No
substitute will be ordered, installed or utilized without the Project Manager's prior written
acceptance which shall be evidenced by a Change Order, a Work Directive Change, a
Field Order or an approved Shop Drawing. The Owner may require Contractor to
furnish at Contractor's expense a special performance guarantee or other surety with
GC-CA-J-T
respect to any substitute. The Project Manager will record time required by the Project
Manager and the Project Manager's consultants in evaluating substitutions proposed by
Contractor and making changes in the Contract Documents occasioned thereby.
Whether or not the Owner accepts a proposed substitute, Contractor shall reimburse
Owner for the charges of the Design Professional and the Design Professional's
consultants for evaluating each proposed substitute.
8. DAILY REPORTS, AS-BUlL TS AND MEETINGS.
8.1 Unless waived in writing by Owner, Contractor shall complete and submit to
Project Manager on a weekly basis a daily log of the Contractor's work for the preceding
week in a format approved by the Project Manager. The daily log shall document all
activities of Contractor at the Project site including, but not limited to, the following:
8.1.1 Weather conditions showing the high and low temperatures during
work hours, the amount of precipitation received on the Project site, and any other
weather conditions which adversely affect the Work;
8.1.2
8.1.3
personnel;
Soil conditions which adversely affect the Work;
The hours of operation by Contractor's and Sub-Contractor's
8.1.4 The number of Contractor's and Sub-Contractor's personnel present
and working at the Project site, by subcontract and trade;
8.1.5 All equipment present at the Project site, description of equipment use
and designation of time equipment was used (specifically indicating any down time);
8.1.6 Description of Work being performed at the Project site;
8.1.7 Any unusual or special occurrences at the Project site;
8.1.8 Materials received at the Project site;
8.1.9 A list of all visitors to the Project
8.1.10 Any problems that might impact either the cost or quality of the Work or
the time of performance.
The daily log shall not constitute nor take the place of any notice required to be given by
Contractor to Owner pursuant to the Contract Documents.
8.2 Contractor shall maintain in a safe place at the Project site one record copy of
the Contract Documents, including, but not limited to, all drawings, specifications,
addenda, amendments, Change Orders, Work Directive Changes and Field Orders, as
well as all written interpretations and clarifications issued by the Design Professional, in
good order and annotated to show all changes made during construction. The
GC-CA-J-8
annotated drawings shall be continuously updated by the Contractor throughout the
prosecution of the Work to accurately reflect all field changes that are made to adapt the
Work to field conditions, changes resulting from Change Orders, Work Directive
Changes and Field Orders, and all concealed and buried installations of piping, conduit
and utility services. All buried and concealed items, both inside and outside the Project
site, shall be accurately located on the annotated drawings as to depth and in
relationship to not less than two (2) permanent features (e.g. interior or exterior wall
faces). The annotated drawings shall be clean and all changes, corrections and
dimensions shall be given in a neat and legible manner in a contrasting color. The
"As-Built" record documents, together with all approved samples and a counterpart of all
approved shop drawings shall be available to the Project Manager or Design
Professional for reference. Upon completion of the Work and as a condition precedent
to Contractor's entitlement to final payment, these "As-Built" record documents, samples
and shop drawings shall be delivered to Project Manager by Contractor for Owner.
8.3 Contractor shall keep all records and supporting documentation which concern or
relate to the Work hereunder for a minimum of five (5) years from the date of
termination of this Agreement or the date the Project is completed or such longer period
as may be required by law, whichever is later. Owner, or any duly authorized agents or
representatives of Owner, shall have the right to audit, inspect and copy all such
records and documentation as often as they deem necessary during the period of this
Agreement and during the document retention period noted above; provided, however,
such activity shall be conducted only during normal business hours.
9. CONTRACT TIME AND TIME EXTENSIONS.
9.1 Contractor shall diligently pursue the completion of the Work and coordinate the
Work being done on the Project by its subcontractors and material-men, as well as
coordinating its Work with all work of others at the Project Site, so that its Work or the
work of others shall not be delayed or impaired by any act or omission by Contractor.
Contractor shall be solely responsible for all construction means, methods, techniques,
sequences, and procedures, as well as coordination of all portions of the Work under
the Contract Documents, and the coordination of Owner's suppliers and contractors as
set forth in Paragraph 12.2. herein.
9.2 Should Contractor be obstructed or delayed in the prosecution of or completion
of the Work as a result of unforeseeable causes beyond the control of Contractor, and
not due to its fault or neglect, including but not restricted to acts of Nature or of the
public enemy, acts of government, fires, floods, epidemics, quarantine regulation,
strikes or lockouts, Contractor shall notify the Owner in writing within forty-eight (48)
hours after the commencement of such delay, stating the cause or causes thereof, or be
deemed to have waived any right which Contractor may have had to request a time
extension.
9.3 No interruption, interference, inefficiency, suspension or delay in the
commencement or progress of the Work from any cause whatever, including those for
which Owner may be responsible, in whole or in part, shall relieve Contractor of its duty
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to perform or give rise to any right to damages or additional compensation from Owner.
Contractor expressly acknowledges and agrees that it shall receive no damages for
delay. Contractor's sole remedy, if any, against Owner will be the right to seek an
extension to the Contract Time; provided, however, the granting of any such time
extension shall not be a condition precedent to the aforementioned "No Damage For
Delay" provision. This paragraph shall expressly apply to claims for early completion,
as well as to claims based on late completion.
g.4 In no event shall any approval by Owner authorizing Contractor to continue
performing Work under this Agreement or any payment issued by Owner to Contractor
be deemed a waiver of any right or claim Owner may have against Contractor for delay
damages hereunder.
10. CHANGES IN THE WORK.
10.1 Owner shall have the right at any time during the progress of the Work to
increase or decrease the Work. Promptly after being notified of a change, Contractor
shall submit an itemized estimate of any cost or time increases or savings it foresees as
a result of the change. Except in an emergency endangering life or property, or as
expressly set forth herein, no addition or changes to the Work shall be made except
upon written order of Owner, and Owner shall not be liable to the Contractor for any
increased compensation without such written order. No officer, employee or agent of
Owner is authorized to direct any extra or changed work orally. Any alleged changes
must be approved by Owner in writing prior to starting such items. Owner will not be
responsible for the costs of any changes commenced without Owner's express prior
written approval. Failure to obtain such prior written approval for any changes will be
deemed: (i) a waiver of any claim by Contractor for such items and (ii) an admission by
Contractor that such items are in fact not a change but rather are part of the Work
required of Contractor hereunder.
10.2 A Change Order, in the form attached as Exhibit E to this Agreement, shall be
issued and executed promptly after an agreement is reached between Contractor and
Owner concerning the requested changes. Contractor shall promptly perform changes
authorized by duly executed Change Orders. The Contract Amount and Contract Time
shall be adjusted in the Change Order in the manner as Owner and Contractor shall
mutually agree.
10.3 If Owner and Contractor are unable to agree on a Change Order for the
requested change, Contractor shall, nevertheless, promptly perform the change as
directed by Owner in a written Work Directive Change. In that event, the Contract
Amount and Contract Time shall be adjusted as directed by Owner. If Contractor
disagrees with the Owner's adjustment determination, Contractor must make a claim
pursuant to Section 11 of these General Conditions or else be deemed to have waived
any claim on this matter it might otherwise have had.
10.4 In the event a requested change results in an increase to the Contract Amount,
the amount of the increase shall be limited to the Contractor's reasonable direct labor
GC-CA-J-10
and material costs and reasonable actual equipment costs as a result of the change
(including allowance for labor burden costs) plus a maximum ten percent (10%) markup
for all overhead and profit. In the event such change Work is performed by a
Subcontractor, a maximum ten percent (10%) markup for all overhead and profit for all
Subcontractors' and sub-subcontractors' direct labor and material costs and actual
equipment costs shall be permitted, with a maximum five percent (5%) markup thereon
by the Contractor for all of its overhead and profit, for a total maximum markup of fifteen
percent (15%). All compensation due Contractor and any Subcontractor or
sub-subcontractor for field and home office overhead is included in the markups noted
above. Contractor's and Sub-Contractor's bond costs associated with any change order
shall be included in the overhead and profit expenses and shall not be paid as a
separate line item. No markup shall be placed on sales tax, shipping or subcontractor
markup.
10.5 Owner shall have the right to conduct an audit of Contractor's books and records
to verify the accuracy of the Contractor's claim with respect to Contractor's costs
associated with any Change Order or Work Directive Change.
10.6 The Project Manager shall have authority to order minor changes in the Work not
involving an adjustment to the Contract Amount or an extension to the Contract Time
and not inconsistent with the intent of the Contract Documents. Such changes may be
effected by Field Order or by other written order. Such changes shall be binding on the
Contractor.
10.7 Any modifications to this Contract shall be in compliance with the County
Purchasing Policy and Administrative Procedures in effect at the time such
modifications are authorized.
11. CLAIMS AND DISPUTES.
11.1 Claim is a demand or assertion by one of the parties seeking an adjustment or
interpretation of the terms of the Contract Documents, payment of money, extension of
time or other relief with respect to the terms of the Contract Documents. The term
"Claim" also includes other disputes and matters in question between Owner and
Contractor arising out of or relating to the Contract Documents. The responsibility to
substantiate a Claim shall rest with the party making the Claim.
11.2 Claims by the Contractor shall be made in writing to the Project Manager within
forty-eight (48) hours from when the Contractor knew or should have known of the event
giving rise to such Claim or else the Contractor shall be deemed to have waived the
Claim. Written supporting data shall be submitted to the Project Manager within fifteen
(15) calendar days after the occurrence of the event, unless the Owner grants additional
time in writing, or else the Contractor shall be deemed to have waived the Claim. All
Claims shall be priced in accordance with the provisions of Subsection 10.4.
11.3 The Contractor shall proceed diligently with its performance as directed by the
Owner, regardless of any pending Claim, action, suit or administrative proceeding,
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unless otherwise agreed to by the Owner in writing. Owner shall continue to make
payments in accordance with the Contract Documents during the pendency of any
Claim.
12. OTHER WORK.
12.1 Owner may perform other work related to the Project at the site by Owner's own
forces, have other work performed by utility owners or let other direct contracts. If the
fact that such other work is to be performed is not noted in the Contract Documents,
written notice thereof will be given to Contractor prior to starting any such other work. If
Contractor believes that such performance will involve additional expense to Contractor
or require additional time, Contractor shall send written notice of that fact to Owner and
Design Professional within forty-eight (48) hours of being notified of the other work. If
the Contractor fails to send the above required forty-eight (48) hour notice, the
Contractor will be deemed to have waived any rights it otherwise may have had to seek
an extension to the Contract Time or adjustment to the Contract Amount.
12.2 Contractor shall afford each utility owner and other contractor who is a party to
such a direct contract (or Owner, if Owner is performing the additional work with
Owner's employees) proper and safe access to the site and a reasonable opportunity
for the introduction and storage of materials and equipment and the execution of such
work and shall properly connect and coordinate its Work with theirs. Contractor shall do
all cutting, fitting and patching of the Work that may be required to make its several
parts come together properly and integrate with such other work. Contractor shall not
endanger any work of others by cutting, excavating or otherwise altering their work and
will only cut or alter their work with the written consent of the Project Manager and the
others whose work will be affected. The duties and responsibilities of Contractor under
this paragraph are for the benefit of such utility owners and other Contractors to the
extent that there are comparable provisions for the benefit of Contractor in said direct
contracts between Owner and such utility owners and other contractors.
12.3 If any part of Contractor's Work depends for proper execution or results upon the
work of any other contractor or utility owner (or Owner), Contractor shall inspect and
promptly report to Project Manager in writing any delays, defects or deficiencies in such
work that render it unavailable or unsuitable for such proper execution and results.
Contractor's failure to report will constitute an acceptance of the other work as fit and
proper for integration with Contractor's Work.
13. INDEMNIFICATION AND INSURANCE.
13.1 To the maximum extent permitted by Florida law, Contractor shall indemnify and
hold harmless Owner and its officers and employees from any and all liabilities, claims,
damages, penalties, demands, judgments, actions, proceedings, losses or costs,
including, but not limited to, reasonable attorneys' fees and paralegals' fees, whether
resulting from any claimed breach of this Agreement by Contractor or from personal
injury, property damage, direct or consequential damages, or economic loss, to the
extent caused by the negligence, recklessness, or intentional wrongful misconduct of
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Contractor or anyone employed or utilized by the Contractor in the performance of this
Agreement.
13.2 The duty to defend under this Article 13 is independent and separate from the
duty to indemnify, and the duty to defend exists regardless of any ultimate liability of the
Contractor, Owner and any indemnified party. The duty to defend arises immediately
upon presentation of a claim by any party and written notice of such claim being
provided to Contractor. Contractor's obligation to indemnify and defend under this
Article 13 will survive the expiration or earlier termination of this Agreement until it is
determined by final judgment that an action against the Owner or an indemnified party
for the matter indemnified hereunder is fully and finally barred by the applicable statute
of limitations.
13.3 Contractor shall obtain and carry, at all times during its performance under the
Contract Documents, insurance of the types and in the amounts set forth in Exhibit B to
the Agreement. Further, the Contractor shall at all times comply with all of the terms,
conditions, requirements and obligations set forth under Exhibit B.
14. COMPLIANCE WITH LAWS.
14.1 Contractor agrees to comply, at its own expense, with all federal, state and local
laws, codes, statutes, ordinances, rules, regulations and requirements applicable to the
Project, including but not limited to those dealing with taxation, worker's compensation,
equal employment and safety (including, but not limited to, the Trench Safety Act,
Chapter 553, Florida Statutes). If Contractor observes that the Contract Documents are
at variance therewith, it shall promptly notify Project Manager in writing. To the extent
any law, rule, regulation, code, statute, or ordinance requires the inclusion of certain
terms in this Agreement in order for this Agreement to be enforceable, such terms shall
be deemed included in this Agreement. Notwithstanding anything in the Contract
Documents to the contrary, it is understood and agreed that in the event of a change in
any applicable laws, ordinances, rules or regulations subsequent to the date this
Agreement was executed that increases the Contractor's time or cost of performance of
the Work, Contractor is entitled to a Change Order for such increases, except to the
extent Contractor knew or should have known of such changes prior to the date of this
Agreement.
14.2 By executing and entering into this agreement, the Contractor is formally
acknowledging without exception or stipulation that it is fully responsible for complying
with the provisions of the Immigration Reform and Control Act of 1986 as located at 8
U.S.C. 1324, et seq. and regulations relating thereto, as either may be amended.
Failure by the Contractor to comply with the laws referenced herein shall constitute a
breach of this agreement and the County shall have the discretion to unilaterally
terminate this agreement immediately.
15. CLEANUP AND PROTECTIONS.
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15.1 Contractor agrees to keep the Project site clean at all times of debris, rubbish
and waste materials arising out of the Work. At the completion of the Work, Contractor
shall remove all debris, rubbish and waste materials from and about the Project site, as
well as all tools, appliances, construction equipment and machinery and surplus
materials, and shall leave the Project site clean and ready for occupancy by Owner.
15.2 Any existing surface or subsurface improvements, including, but not limited to,
pavements, curbs, sidewalks, pipes, utilities, footings, structures, trees and shrubbery,
not indicated in the Contract Documents to be removed or altered, shall be protected by
Contractor from damage during the prosecution of the Work. Subject to the Section 2.3
above, any such improvements so damaged shall be restored by Contractor to the
condition equal to that existing at the time of Contractor's commencement of the Work.
16. ASSIGNMENT.
16.1 Contractor shall not assign this Agreement or any part thereof, without the prior
consent in writing of Owner. Any attempt to assign or otherwise transfer this Agreement,
or any part herein, without the Owner's consent, shall be void. If Contractor does, with
approval, assign this Agreement or any part thereof, it shall require that its assignee be
bound to it and to assume toward Contractor all of the obligations and responsibilities
that Contractor has assumed toward Owner.
17. PERMITS, LICENSES AND TAXES.
17.1 Pursuant to Section 218.80, F.S., Owner will pay for all Collier County permits
and fees, including license fees, permit fees, impact fees or inspection fees applicable
to the Work through an internal budget transfer(s). Contractor is not responsible for
paying for permits issued by Collier County, but Contractor is responsible for acquiring
all permits. Owner may require the Contractor to deliver internal budget transfer
documents to applicable Collier County agencies when the Contractor is acquiring
permits.
17.2 All permits, fees and licenses necessary for the prosecution of the Work which
are not issued by Collier County shall be acquired and paid for by the Contractor.
17.3 Contractor shall pay all sales, consumer, use and other similar taxes associated
with the Work or portions thereof, which are applicable during the performance of the
Work.
18. TERMINATION FOR DEFAULT.
18.1 Contractor shall be considered in material default of the Agreement and such
default shall be considered cause for Owner to terminate the Agreement, in whole or in
part, as further set forth in this Section, if Contractor: (1) fails to begin the Work under
the Contract Documents within the time specified herein; or (2) fails to properly and
timely perform the Work as directed by the Project Manager or as provided for in the
approved Progress Schedule; or (3) performs the Work unsuitably or neglects or
refuses to remove materials or to correct or replace such Work as may be rejected as
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unacceptable or unsuitable; or (4) discontinues the prosecution of the Work; or (5) fails
to resume Work which has been suspended within a reasonable time after being
notified to do so; or (6) becomes insolvent or is declared bankrupt, or commits any act
of bankruptcy; or (7) allows any final judgment to stand against it unsatisfied for more
than ten (10) days; or (8) makes an assignment for the benefit of creditors; or (g) fails to
obey any applicable codes, laws, ordinances, rules or regulations with respect to the
Work; or (10) materially breaches any other provision of the Contract Documents.
18.2 Owner shall notify Contractor in writing of Contractor's default(s). If Owner
determines that Contractor has not remedied and cured the default(s) within seven (7)
calendar days following receipt by Contractor of said written notice or such longer
period of time as may be consented to by Owner in writing and in its sole discretion,
then Owner, at its option, without releasing or waiving its rights and remedies against
the Contractor's sureties and without prejudice to any other right or remedy it may be
entitled to hereunder or by law, may terminate Contractor's right to proceed under the
Agreement, in whole or in part, and take possession of all or any portion of the Work
and any materials, tools, equipment, and appliances of Contractor, take assignments of
any of Contractor's subcontracts and purchase orders, and complete all or any portion
of Contractor's Work by whatever means, method or agency which Owner, in its sole
discretion, may choose.
18.3 If Owner deems any of the foregoing remedies necessary, Contractor agrees that
it shall not be entitled to receive any further payments hereunder until after the Project is
completed. All moneys expended and all of the costs, losses, damages and extra
expenses, including all management, administrative and other overhead and other
direct and indirect expenses (including Design Professional and attorneys' fees) or
damages incurred by Owner incident to such completion, shall be deducted from the
Contract Amount, and if such expenditures exceed the unpaid balance of the Contract
Amount, Contractor agrees to pay promptly to Owner on demand the full amount of
such excess, including costs of collection, attorneys' fees (including appeals) and
interest thereon at the maximum legal rate of interest until paid. If the unpaid balance of
the Contract Amount exceeds all such costs, expenditures and damages incurred by the
Owner to complete the Work, such excess shall be paid to the Contractor. The amount
to be paid to the Contractor or Owner, as the case may be, shall be approved by the
Project Manager, upon application, and this obligation for payment shall survive
termination of the Agreement.
18.4 The liability of Contractor hereunder shall extend to and include the full amount of
any and all sums paid, expenses and losses incurred, damages sustained, and
obligations assumed by Owner in good faith under the belief that such payments or
assumptions were necessary or required, in completing the Work and providing labor,
materials, equipment, supplies, and other items therefor or re-Ietting the Work, and in
settlement, discharge or compromise of any claims, demands, suits, and judgments
pertaining to or arising out of the Work hereunder.
18.5 If, after notice of termination of Contractor's right to proceed pursuant to this
Section, it is determined for any reason that Contractor was not in default, or that its
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default was excusable, or that Owner is not entitled to the remedies against Contractor
provided herein, then the termination will be deemed a termination for convenience and
Contractor's remedies against Owner shall be the same as and limited to those afforded
Contractor under Section 19 below.
18.6 In the event (i) Owner fails to make any undisputed payment to Contractor within
thirty (30) days after such payment is due or Owner otherwise persistently fails to fulfill
some material obligation owed by Owner to Contractor under this Agreement, and
(ii) Owner has failed to cure such default within fourteen (14) days of receiving written
notice of same from Contractor, then Contractor may stop its performance under this
Agreement until such default is cured, after giving Owner a second fourteen (14) days
written notice of Contractor's intention to stop performance under the Agreement. If the
Work is so stopped for a period of one hundred and twenty (120) consecutive days
through no act or fault of the Contractor or its Subcontractors or their agents or
employees or any other persons performing portions of the Work under contract with the
Contractor or any Subcontractor, the Contractor may terminate this Agreement by giving
written notice to Owner of Contractor's intent to terminate this Agreement. If Owner
does not cure its default within fourteen (14) days after receipt of Contractor's written
notice, Contractor may, upon fourteen (14) additional days' written notice to the Owner,
terminate the Agreement and recover from the Owner payment for Work performed
through the termination date, but in no event shall Contractor be entitled to payment for
Work not performed or any other damages from Owner.
19. TERMINATION FOR CONVENIENCE AND RIGHT OF SUSPENSION.
19.1 Owner shall have the right to terminate this Agreement without cause upon
seven (7) calendar days written notice to Contractor. In the event of such termination
for convenience, Contractor's recovery against Owner shall be limited to that portion of
the Contract Amount earned through the date of termination, together with any
retainage withheld and reasonable termination expenses incurred, but Contractor shall
not be entitled to any other or further recovery against Owner, including, but not limited
to, damages or any anticipated profit on portions of the Work not performed.
19.2 Owner shall have the right to suspend all or any portions of the Work upon giving
Contractor not less than two (2) calendar days' prior written notice of such suspension.
If all or any portion of the Work is so suspended, Contractor's sole and exclusive
remedy shall be to seek an extension of time to its schedule in accordance with the
procedures set forth in the Contract Documents. In no event shall the Contractor be
entitled to any additional compensation or damages. Provided, however, if the ordered
suspension exceeds six (6) months, the Contractor shall have the right to terminate the
Agreement with respect to that portion of the Work which is subject to the ordered
suspension.
20. COMPLETION.
20.1 When the entire Work (or any portion thereof designated in writing by Owner) is
ready for its intended use, Contractor shall notify Project Manager in writing that the
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entire Work (or such designated portion) is substantially complete. Within a reasonable
time thereafter, Owner, Contractor and Design Professional shall make an inspection of
the Work (or designated portion thereof) to determine the status of completion. If
Owner, after conferring with the Design Professional, does not consider the Work (or
designated portion) substantially complete, Project Manager shall notify Contractor in
writing giving the reasons therefor. If Owner, after conferring with the Design
Professional, considers the Work (or designated portion) substantially complete, Project
Manager shall prepare and deliver to Contractor a Certificate of Substantial Completion
which shall fix the date of Substantial Completion for the entire Work (or designated
portion thereof) and include a tentative punch-list of items to be completed or corrected
by Contractor before final payment. Owner shall have the right to exclude Contractor
from the Work and Project site (or designated portion thereof) after the date of
Substantial Completion, but Owner shall allow Contractor reasonable access to
complete or correct items on the tentative punch-list.
20.2 Upon receipt of written certification by Contractor that the Work is completed in
accordance with the Contract Documents and is ready for final inspection and
acceptance, Project Manager and Design Professional will make such inspection and, if
they find the Work acceptable and fully performed under the Contract Documents shall
promptly issue a final Certificate for Payment, recommending that, on the basis of their
observations and inspections, and the Contractor's certification that the Work has been
completed in accordance with the terms and conditions of the Contract Documents, that
the entire balance found to be due Contractor is due and payable. Neither the final
payment nor the retainage shall become due and payable until Contractor submits:
(1) Receipt of Contractor's Final Application for Payment.
(2) The Release and Affidavit in the form attached as Exhibit C.
(3) Consent of surety to final payment.
(4) Receipt of the final payment check list.
(5) If required by Owner, other data establishing payment or satisfaction of all
obligations, such as receipts, releases and waivers of liens, arising out of
the Contract Documents, to the extent and in such form as may be
designated by Owner.
Owner reserves the right to inspect the Work and make an independent determination
as to the Work's acceptability, even though the Design Professional may have issued its
recommendations. Unless and until the Owner is completely satisfied, neither the final
payment nor the retainage shall become due and payable.
21. WARRANTY.
21.1 Contractor shall obtain and assign to Owner all express warranties given to
Contractor or any subcontractors by any subcontractor or materialmen supplying
materials, equipment or fixtures to be incorporated into the Project. Contractor warrants
to Owner that any materials and equipment furnished under the Contract Documents
shall be new unless otherwise specified, and that all Work shall be of good quality, free
from all defects and in conformance with the Contract Documents. Contractor further
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warrants to Owner that all materials and equipment furnished under the Contract
Documents shall be applied, installed, connected, erected, used, cleaned and
conditioned in accordance with the instructions of the applicable manufacturers,
fabricators, suppliers or processors except as otherwise provided for in the Contract
Documents. If, within one (1) year after Substantial Completion, any Work is found to
be defective or not in conformance with the Contract Documents, Contractor shall
correct it promptly after receipt of written notice from Owner. Contractor shall also be
responsible for and pay for replacement or repair of adjacent materials or Work which
may be damaged as a result of such replacement or repair. Further, in the event of an
emergency, Owner may commence to correct any defective Work, without prior notice
to Contractor, at Contractor's expense. These warranties are in addition to those
implied warranties to which Owner is entitled as a matter of law.
21.2 No later than 30 days prior to expiration of the warranty, the Project Manager, or
another representative of the Owner, shall conduct an inspection of the warranted work
to verify compliance with the requirements of the Agreement. The Contractor's
Representative shall be present at the time of inspection and shall take remedial actions
to correct any deficiencies noted in the inspection. Failure of the Contractor to correct
the cited deficiencies shall be grounds for the Owner to disqualify the Contractor from
future bid opportunities with the Owner, in addition to any other rights and remedies
available to Owner.
22. TESTS AND INSPECTIONS.
22.1 Owner, Design Professional, their respective representatives, agents and
employees, and governmental agencies with jurisdiction over the Project shall have
access at all times to the Work, whether the Work is being performed on or off of the
Project site, for their observation, inspection and testing. Contractor shall provide
proper, safe conditions for such access. Contractor shall provide Project Manager with
timely notice of readiness of the Work for all required inspections, tests or approvals.
22.2 If the Contract Documents or any codes, laws, ordinances, rules or regulations of
any public authority having jurisdiction over the Project requires any portion of the Work
to be specifically inspected, tested or approved, Contractor shall assume full
responsibility therefore, pay all costs in connection therewith and furnish Project
Manager the required certificates of inspection, testing or approval. All inspections,
tests or approvals shall be performed in a manner and by organizations acceptable to
the Project Manager.
22.3 Contractor is responsible, without reimbursement from Owner, for re-inspection
fees and costs; to the extent such re-inspections are due to the fault or neglect of
Contractor.
22.4 If any Work that is to be inspected, tested or approved is covered without written
concurrence from the Project Manager, such work must, if requested by Project
Manager, be uncovered for observation. Such uncovering shall be at Contractor's
expense unless Contractor has given Project Manager timely notice of Contractor's
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intention to cover the same and Project Manager has not acted with reasonable
promptness to respond to such notice. If any Work is covered contrary to written
directions from Project Manager, such Work must, if requested by Project Manager, be
uncovered for Project Manager's observation and be replaced at Contractor's sole
expense.
22.5 The Owner shall charge to Contractor and may deduct from any payments due
Contractor all engineering and inspection expenses incurred by Owner in connection
with any overtime work. Such overtime work consisting of any work during the
construction period beyond the regular eight (8) hour day and for any work performed
on Saturday, Sunday or holidays.
22.6 Neither observations nor other actions by the Project Manager or Design
Professional nor inspections, tests or approvals by others shall relieve Contractor from
Contractor's obligations to perform the Work in accordance with the Contract
Documents.
23. DEFECTIVE WORK.
23.1 Work not conforming to the requirements of the Contract Documents or any
warranties made or assigned by Contractor to Owner shall be deemed defective Work.
If required by Project Manager, Contractor shall as directed, either correct all defective
Work, whether or not fabricated, installed or completed, or if the defective Work has
been rejected by Project Manager, remove it from the site and replace it with non-
defective Work. Contractor shall bear all direct, indirect and consequential costs of
such correction or removal (including, but not limited to fees and charges of engineers,
architects, attorneys and other professionals) made necessary thereby, and shall hold
Owner harmless for same.
23.2 If the Project Manager considers it necessary or advisable that covered Work be
observed by Design Professional or inspected or tested by others and such Work is not
otherwise required to be inspected or tested, Contractor, at Project Manager's request,
shall uncover, expose or otherwise make available for observation, inspection or tests
as Project Manager may require, that portion of the Work in question, furnishing all
necessary labor, material and equipment. If it is found that such Work is defective,
Contractor shall bear all direct, indirect and consequential costs of such uncovering,
exposure, observation, inspection and testing and of satisfactory reconstruction
(including, but not limited to, fees and charges of engineers, architects, attorneys and
other professionals), and Owner shall be entitled to an appropriate decrease in the
Contract Amount. If, however, such Work is not found to be defective, Contractor shall
be allowed an increase in the Contract Amount and/or an extension to the Contract
Time, directly attributable to such uncovering, exposure, observation, inspection, testing
and reconstruction.
23.3 If any portion of the Work is defective, or if Contractor fails to supply sufficient
skilled workers, suitable materials or equipment or fails to finish or perform the Work in
such a way that the completed Work will conform to the Contract Documents, Project
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Manager may order Contractor to stop the Work, or any portion thereof, until the cause
for such order has been eliminated. The right of Project Manager to stop the Work
shall be exercised, if at all, solely for Owner's benefit and nothing herein shall be
construed as obligating the Project Manager to exercise this right for the benefit of
Design Engineer, Contractor, or any other person.
23.4 Should the Owner determine, at its sole opinion, it is in the Owner's best interest
to accept defective Work, the Owner may do so. Contractor shall bear all direct, indirect
and consequential costs attributable to the Owner's evaluation of and determination to
accept defective Work. If such determination is rendered prior to final payment, a
Change Order shall be executed evidencing such acceptance of such defective Work,
incorporating the necessary revisions in the Contract Documents and reflecting an
appropriate decrease in the Contract Amount. If the Owner accepts such defective
Work after final payment, Contractor shall promptly pay Owner an appropriate amount
to adequately compensate Owner for its acceptance of the defective Work.
23.5 If Contractor fails, within a reasonable time after the written notice from Project
Manager, to correct defective Work or to remove and replace rejected defective Work
as required by Project Manager or Owner, or if Contractor fails to perform the Work in
accordance with the Contract Documents, or if Contractor fails to comply with any of the
provisions of the Contract Documents, Owner may, after seven (7) days written notice
to Contractor, correct and remedy any such deficiency. Provided, however, Owner shall
not be required to give notice to Contractor in the event of an emergency. To the extent
necessary to complete corrective and remedial action, Owner may exclude Contractor
from any or all of the Project site, take possession of all or any part of the Work, and
suspend Contractor's services related thereto, take possession of Contractor's tools,
appliances, construction equipment and machinery at the Project site and incorporate in
the Work all materials and equipment stored at the Project site or for which Owner has
paid Contractor but which are stored elsewhere. Contractor shall allow Owner, Design
Professional and their respective representatives, agents, and employees such access
to the Project site as may be necessary to enable Owner to exercise the rights and
remedies under this paragraph. All direct, indirect and consequential costs of Owner in
exercising such rights and remedies shall be charged against Contractor, and a Change
Order shall be issued, incorporating the necessary revisions to the Contract Documents,
including an appropriate decrease to the Contract Amount. Such direct, indirect and
consequential costs shall include, but not be limited to, fees and charges of engineers,
architects, attorneys and other professionals, all court costs and all costs of repair and
replacement of work of others destroyed or damaged by correction, removal or
replacement of Contractor's defective Work. Contractor shall not be allowed an
extension of the Contract Time because of any delay in performance of the Work
attributable to the exercise by Owner of Owner's rights and remedies hereunder.
24. SUPERVISION AND SUPERINTENDENTS.
24.1 Contractor shall plan, organize, supervise, schedule, monitor, direct and control
the Work competently and efficiently, devoting such attention thereto and applying such
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skills and expertise as may be necessary to perform the Work in accordance with the
Contract Documents. Contractor shall be responsible to see that the finished Work
complies accurately with the Contract Documents. Contractor shall keep on the Work at
all times during its progress a competent resident superintendent, who shall be subject
to Owner's approval and not be replaced without prior written notice to Project Manager
except under extraordinary circumstances. The superintendent shall be employed by
the Contractor and be the Contractor's representative at the Project site and shall have
authority to act on behalf of Contractor. All communications given to the superintendent
shall be as binding as if given to the Contractor. Owner shall have the right to direct
Contractor to remove and replace its Project superintendent, with or without cause.
Attached to the Agreement as Exhibit N is a list identifying Contractor's Project
Superintendent and all of Contractor's key personnel who are assigned to the Project;
such identified personnel shall not be removed without Owner's prior written approval,
and if so removed must be immediately replaced with a person acceptable to Owner.
24.2 Contractor shall have a competent superintendent on the project at all times
whenever contractor's work crews, or work crews of other parties authorized by the
Project Manager are engaged in any activity whatsoever associated with the Project.
Should the Contractor fail to comply with the above condition, the Project Manager
shall, at his discretion, deduct from the Contractor's monthly pay estimate, sufficient
moneys to account for the Owner's loss of adequate project supervision, not as a
penalty, but as liquidated damages, separate from the liquidated damages described in
Section 5.B, for services not rendered.
25. PROTECTION OF WORK.
25.1 Contractor shall fully protect the Work from loss or damage and shall bear the
cost of any such loss or damage until final payment has been made. If Contractor or
anyone for whom Contractor is legally liable for is responsible for any loss or damage
to the Work, or other work or materials of Owner or Owner's separate contractors,
Contractor shall be charged with the same, and any moneys necessary to replace such
loss or damage shall be deducted from any amounts due Contractor.
25.2 Contractor shall not load nor permit any part of any structure to be loaded in any
manner that will endanger the structure, nor shall Contractor subject any part of the
Work or adjacent property to stresses or pressures that will endanger it.
25.3 Contractor shall not disturb any benchmark established by the Owner or Design
Professional with respect to the Project. If Contractor, or its subcontractors, agents or
anyone for whom Contractor is legally liable, disturbs the Owner or Design
Professional's benchmarks, Contractor shall immediately notify Project Manager and
Design Professional. The Owner or Design Professional shall re-establish the
benchmarks and Contractor shall be liable for all costs incurred by Owner associated
therewith.
26. EMERGENCIES.
GC-CA-J-21
26.1 In the event of an emergency affecting the safety or protection of persons or the
Work or property at the Project site or adjacent thereto, Contractor, without special
instruction or authorization from Owner or Design Professional is obligated to act to
prevent threatened damage, injury or loss. Contractor shall give Project Manager
written notice within forty-eight (48) hours after Contractor knew or should have known
of the occurrence of the emergency, if Contractor believes that any significant changes
in the Work or variations from the Contract Documents have been caused thereby. If
the Project Manager determines that a change in the Contract Documents is required
because of the action taken in response to an emergency, a Change Order shall be
issued to document the consequences of the changes or variations. If Contractor fails
to provide the forty-eight (48) hour written notice noted above, the Contractor shall be
deemed to have waived any right it otherwise may have had to seek an adjustment to
the Contract Amount or an extension to the Contract Time.
27. USE OF PREMISES.
27.1 Contractor shall maintain all construction equipment, the storage of materials and
equipment and the operations of workers to the Project site and land and areas
identified in and permitted by the Contract Documents and other lands and areas
permitted by law, rights of way, permits and easements, and shall not unreasonably
encumber the Project site with construction equipment or other material or equipment.
Contractor shall assume full responsibility for any damage to any such land or area, or
to the owner or occupant thereof, or any land or areas contiguous thereto, resulting from
the performance of the Work.
28. SAFETY.
28.1 Contractor shall be responsible for initiating, maintaining and supervising all
safety precautions and programs in connection with the Work. Contractor shall take all
necessary precautions for the safety of, and shall provide the necessary protection to
prevent damage, injury or loss to:
28.1.1 All employees on or about the project site and other persons and/or
organizations who may be affected thereby;
28.1.2 All the Work and materials and equipment to be incorporated therein,
whether in storage on or off the Project site; and
28.1.3 Other property on Project site or adjacent thereto, including trees,
shrubs, walks, pavements, roadways, structures, utilities and any underground
structures or improvements not designated for removal, relocation or replacement in the
Contract Documents.
28.2 Contractor shall comply with all applicable codes, laws, ordinances, rules and
regulations of any public body having jurisdiction for the safety of persons or property or
to protect them from damage, injury or loss. Contractor shall erect and maintain all
necessary safeguards for such safety and protection. Contractor shall notify owners of
adjacent property and of underground structures and improvements and utility owners
GC-CA-J-22
when prosecution of the Work may affect them, and shall cooperate with them in the
protection, removal, relocation or replacement of their property. Contractor's duties and
responsibilities for the safety and protection of the Work shall continue until such time
as the Work is completed and final acceptance of same by Owner has occurred.
All new electrical installations shall incorporate NFPA 70E Short Circuit Protective
Device Coordination and Arc Flash Studies where relevant as determined by the
engineer.
All electrical installations shall be labeled with appropriate NFPA 70E arch flash
boundary and PPE Protective labels.
28.3. Contractor shall designate a responsible representative located on a full time
basis at the Project site whose duty shall be the prevention of accidents. This person
shall be Contractor's superintendent unless otherwise designated in writing by
Contractor to Owner.
28.4 Alcohol, drugs and all illegal substances are strictly prohibited on any Owner
property. All employees of Contractor, as well as those of all subcontractors and those
of any other person or entity for whom Contractor is legally liable (collectively referred to
herein as "Employees"), shall not possess or be under the influence of any such
substances while on any Owner property. Further, Employees shall not bring on to any
Owner property any gun, rifle or other firearm, or explosives of any kind.
28.5 Contractor acknowledges that the Work may be progressing on a Project site
which is located upon or adjacent to an existing Owner facility. In such event,
Contractor shall comply with the following:
28.5.1
All Owner facilities are smoke free. Smoking is strictly prohibited;
28.5.2 All Employees shall be provided an identification badge by
Contractor. Such identification badge must be prominently displayed on the outside of
the Employees' clothing at all times. All Employees working at the Project site must log
in and out with the Contractor each day;
28.5.3 Contractor shall strictly limit its operations to the designated work
areas and shall not permit any Employees to enter any other portions of Owner's
property without Owner's expressed prior written consent;
28.5.4 All Employees are prohibited from distributing any papers or other
materials upon Owner's property, and are strictly prohibited from using any of Owner's
telephones or other office equipment;
28.5.5 All Employees shall at all times comply with the OSHA regulations
with respect to dress and conduct at the Project site. Further, all Employees shall
comply with the dress, conduct and facility regulations issued by Owner's officials
onsite, as said regulations may be changed from time to time;
GC-CA-J-23
28.5.6 All Employees shall enter and leave Owner's facilities only through
the ingress and egress points identified in the site utilization plan approved by Owner or
as otherwise designated, from time to time, by Owner in writing;
28.5.7 When requested, Contractor shall cooperate with any ongoing
Owner investigation involving personal injury, economic loss or damage to Owner's
facilities or personal property therein;
28.5.8 The Employees may not solicit, distribute or sell products while on
Owner's property. Friends, family members or other visitors of the Employees are not
permitted on Owner's property; and
28.5.9 At all times, Contractor shall adhere to Owner's safety and security
regulations, and shall comply with all security requirements at Owner's facilities, as said
regulations and requirements may be modified or changed by Owner from time to time.
29. PROJECT MEETINGS.
Prior to the commencement of Work, the Contractor shall attend a pre-construction
conference with the Project Manager, Design Professional and others as appropriate to
discuss the Progress Schedule, procedures for handling shop drawings and other
submittals, and for processing Applications for Payment, and to establish a working
understanding among the parties as to the Work. During the prosecution of the Work,
the Contractor shall attend any and all meetings convened by the Project Manager with
respect to the Project, when directed to do so by Project Manager or Design
Professional. The Contractor shall have its subcontractors and suppliers attend all such
meetings (including the pre-construction conference) as may be directed by the Project
Manager.
30. VENDOR PERFORMANCE EVALUATION
Owner has implemented a Vendor Performance Evaluation System for all contracts
awarded in excess of $25,000. To this end, vendors will be evaluated on their
performance upon completion/termination of this Agreement.
31. MAINTENANCE OF TRAFFIC POLICY
For all projects that are conducted within a Collier County Right-of-Way, the Contractor
shall provide and erect Traffic Control Devices as prescribed in the current edition of the
Manual On Uniform Traffic Control Devices (MUTCD), where applicable on local
roadways and as prescribed in the Florida Department of Transportations Design
Standards (DS), where applicable on state roadways. These projects shall also comply
with Collier County's Maintenance of Traffic Policy, #5807, incorporated herein by
reference. Copies are available through Risk Management and/or Purchasing
Departments, and is available on-line at colliergov.neUpurchasing.
GC-CA-J-24
The Contractor will be responsible for obtaining copies of all required manuals, MUTCD,
FDOT Roadway & Traffic Design Standards Indexes, or other related documents, so to
become familiar with their requirements. Strict adherence to the requirements of the
Maintenance of Traffic ("MOT") policy will be enforced under this Contract.
All costs associated with the Maintenance of Traffic shall be included on the line item on
the bid page.
If MOT is required, MOT is to be provided within ten (10) days of receipt of Notice of
Award.
32. SALES TAX SAVINGS AND DIRECT PURCHASE
32.1 Contractor shall pay all sales, consumer, use and other similar taxes associated
with the Work or portions thereof, which are applicable during the performance of the
Work. No markup shall be applied to sales tax. Additionally, as directed by Owner and
at no additional cost to Owner, Contractor shall comply with and fully implement the
sales tax savings program with respect to the Work, as set forth in section 32.2 below:
32.2 Notwithstanding anything herein to the contrary, because Owner is exempt from
sales tax and may wish to generate sales tax savings for the Project, Owner reserves
the right to make direct purchases of various construction materials and equipment
included in the Work ("Direct Purchase"). Contractor shall prepare purchase orders to
vendors selected by Contractor, for execution by Owner, on forms provided by Owner.
Contractor shall allow two weeks for execution of all such purchase orders by Owner.
Contractor represents and warrants that it will use its best efforts to cooperate with
Owner in implementing this sales tax savings program in order to maximize cost
savings for the Project. Adjustments to the Contract Amount will be made by
appropriate Change Orders for the amounts of each Owner Direct Purchase, plus the
saved sales taxes. A Change Order shall be processed promptly after each Direct
Purchase, or group of similar or related Direct Purchases, unless otherwise mutually
agreed upon between Owner and Contractor. With respect to all Direct Purchases by
Owner, Contractor shall remain responsible for coordinating, ordering, inspecting,
accepting delivery, storing, handling, installing, warranting and quality control for all
Direct Purchases. Notwithstanding anything herein to the contrary, Contractor
expressly acknowledges and agrees that all Direct Purchases shall be included within
and covered by Contractor's warranty to Owner to the same extent as all other
warranties provided by Contractor pursuant to the terms of the Contract Documents. In
the event Owner makes a demand against Contractor with respect to any Direct
Purchase and Contractor wishes to make claim against the manufacturer or supplier of
such Direct Purchase, upon request from Contractor Owner shall assign to Contractor
any and all warranties and Contract rights Owner may have from any manufacturer or
supplier of any such Direct Purchase by Owner.
32.3 Bidder represents and warrants that it is aware of its statutory responsibilities for
sale tax under Chapter 212, Florida Statutes, and for its responsibilities for Federal
excise taxes.
GC-CA-J-25
33. SUBCONTRACTS
33.1 Contractor shall review the design and shall determine how it desires to divide
the sequence of construction activities. Contractor will determine the breakdown and
composition of bid packages for award of subcontracts, based on the current Project
Milestone Schedule, and shall supply a copy of that breakdown and composition to
Owner and Design Professional for their review and approval prior to submitting its first
Application for Payment. Contractor shall take into consideration such factors as
natural and practical lines of severability, sequencing effectiveness, access and
availability constraints, total time for completion, construction market conditions,
availability of labor and materials, community relations and any other factors pertinent to
saving time and costs.
33.2 A Subcontractor is any person or entity who is performing, furnishing, supplying
or providing any portion of the Work pursuant to a contract with Contractor. Contractor
shall be solely responsible for and have control over the Subcontractors. Contractor
shall negotiate all Change Orders, Work Directive Changes, Field Orders and Requests
for Proposal, with all affected Subcontractors and shall review the costs of those
proposals and advise Owner and Design Professional of their validity and
reasonableness, acting in Owner's best interest, prior to requesting approval of any
Change Order from Owner. All Subcontractors performing any portion of the Work on
this Project must be "qualified" as defined in Collier County Ordinance 87-25, meaning a
person or entity that has the capability in all respects to perform fully the Agreement
requirements with respect to its portion of the Work and has the integrity and reliability
to assure good faith performance.
33.3 In addition to those Subcontractors identified in Contractor's bid that were
approved by Owner, Contractor also shall identify any other Subcontractors, including
their addresses, licensing information and phone numbers, it intends to utilize for the
Project prior to entering into any subcontract or purchase order and prior to the
Subcontractor commencing any work on the Project. The list identifying each
Subcontractor cannot be modified, changed, or amended without prior written approval
from Owner. Any and all Subcontractor work to be self-performed by Contractor must
be approved in writing by Owner in its sole discretion prior to commencement of such
work. Contractor shall continuously update that Subcontractor list, so that it remains
current and accurate throughout the entire performance of the Work.
33.4 Contractor shall not enter into a subcontract or purchase order with any
Subcontractor, if Owner reasonably objects to that Subcontractor. Contractor shall not
be required to contract with anyone it reasonably objects to. Contractor shall keep on
file a copy of the license for every Subcontractor and sub-subcontractor performing any
portion of the Work, as well as maintain a log of all such licenses. All subcontracts and
purchase orders between Contractor and its Subcontractors shall be in writing and are
subject to Owner's approval. Further, unless expressly waived in writing by Owner, all
subcontracts and purchase orders shall (1) require each Subcontractor to be bound to
Contractor to the same extent Contractor is bound to Owner by the terms of the
Contract Documents, as those terms may apply to the portion of the Work to be
GC-CA-J-26
performed by the Subcontractor, (2) provide for the assignment of the subcontract or
purchase order from Contractor to Owner at the election of Owner upon termination of
Contractor, (3) provide that Owner will be an additional indemnified party of the
subcontract or purchase order, (4) provide that Owner, Collier County Government, will
be an additional insured on all liability insurance policies required to be provided by the
Subcontractor except workman's compensation and business automobile policies, (5)
assign all warranties directly to Owner, and (6) identify Owner as an intended third-party
beneficiary of the subcontract or purchase order. Contractor shall make available to
each proposed Subcontractor, prior to the execution of the subcontract, copies of the
Contract Documents to which the Subcontractor will be bound. Each Subcontractor
shall similarly make copies of such documents available to its sub-subcontractors.
33.5 Each Subcontractor performing work at the Project Site must agree to provide
field (on-site) supervision through a named superintendent for each trade (e.g., general
concrete forming and placement, masonry, mechanical, plumbing, electrical and
roofing) included in its subcontract or purchase order. In addition, the Subcontractor
shall assign and name a qualified employee for scheduling direction for its portion of the
Work. The supervisory employees of the Subcontractor (including field superintendent,
foreman and schedulers at all levels) must have been employed in a supervisory
(leadership) capacity of substantially equivalent level on a similar project for at least two
years within the last five years. The Subcontractor shall include a resume of experience
for each employee identified by it to supervise and schedule its work.
33.6 Unless otherwise expressly waived by Owner in writing, all subcontracts and
purchase orders shall provide:
33.6.1 That the Subcontractor's exclusive remedy for delays in the
performance of the subcontract or purchase order caused by events beyond its control,
including delays claimed to be caused by Owner or Design Professional or attributable
to Owner or Design Professional and including claims based on breach of contract or
negligence, shall be an extension of its contract time.
33.6.2 In the event of a change in the work, the Subcontractor's claim for
adjustments in the contract sum are limited exclusively to its actual costs for such
changes plus no more than 10% for overhead and profit.
33.6.3 The subcontract or purchase order, as applicable, shall require the
Subcontractor to expressly agree that the foregoing constitute its sole and exclusive
remedies for delays and changes in the Work and thus eliminate any other remedies for
claim for increase in the contract price, damages, losses or additional compensation.
Further, Contractor shall require all Subcontractors to similarly incorporate the terms of
this Section 33.6 into their sub-subcontracts and purchase orders.
33.6.4 Each subcontract and purchase order shall require that any claims by
Subcontractor for delay or additional cost must be submitted to Contractor within the
time and in the manner in which Contractor must submit such claims to Owner, and that
GC-CA-J-27
failure to comply with such conditions for giving notice and submitting claims shall result
in the waiver of such claims.
34. CONSTRUCTION SERVICES
34.1 Contractor shall maintain at the Project site, originals or copies of,
on a current basis, all Project files and records, including, but not limited to, the following
administrative records:
34.1.1
34.1.2
34.1.3
34.1.4
34.1.5
34.1.6
34.1.7
34.1.8
34.1.9
34.1.10
34.1.11
34.1.12
34.1.13
34.1.14
34.1.15
34.1.16
34.1.17
34.1.18
34.1.19
34.1.20
34.1.21
34.1.22
34.1.23
34.1.24
34.1.25
34.1.26
34.1.27
34.1.28
34.1.29
34.1.30
34.1.31
34.1.32
Subcontracts and Purchase Orders
Subcontractor Licenses
Shop Drawing Submittal/Approval Logs
Equipment Purchase/Delivery Logs
Contract Drawings and Specifications with Addenda
Warranties and Guarantees
Cost Accounting Records
Labor Costs
Material Costs
Equipment Costs
Cost Proposal Request
Payment Request Records
Meeting Minutes
Cost-Estimates
Bulletin Quotations
Lab Test Reports
Insurance Certificates and Bonds
Contract Changes
Permits
Material Purchase Delivery Logs
Technical Standards
Design Handbooks
"As-Built" Marked Prints
Operating & Maintenance Instruction
Daily Progress Reports
Monthly Progress Reports
Correspondence Files
Transmittal Records
Inspection Reports
Punch Lists
PMIS Schedule and Updates
Suspense (Tickler) Files of Outstanding
Requirements
The Project files and records shall be available at all times to Owner and Design
Professional or their designees for reference, review or copying.
GC-CA-J-28
34.2 Contractor Presentations
At the discretion of the County, the Contractor may be required to provide a brief update
on the Project to the Collier County Board of County Commissioners, "Board", up to two
(2) times per contract term. Presentations shall be made in a properly advertised Public
Meeting on a schedule to be determined by the County Manager or his designee. Prior
to the scheduled presentation date, the Contractor shall meet with appropriate County
staff to discuss the presentation requirements and format. Presentations may include,
but not be limited to, the following information: Original contract amount, project
schedule, project completion date and any changes to the aforementioned since Notice
to Proceed was issued.
35, SECURITY
If required, Contractor shall be responsible for the costs of providing background checks
and drug testing for all employees that shall provide services to the County under this
Agreement. This may include, but not be limited to, checking federal, state and local
law enforcement records, including a state and FBI fingerprint check, credit reports,
education, residence and employment verifications and other related records.
Consultant shall be required to maintain records on each employee and make them
available to the County for at least four (4) years.
36. VENUE
Any suit or action brought by either party to this Agreement against the other party
relating to or arising out of this Agreement must be brought in the appropriate federal or
state courts in Collier County, Florida, which courts have sole and exclusive jurisdiction
on all such matters.
37. VALUE ENGINEERING
All projects with an estimated cost of $10 million or more shall be reviewed for
consideration of a Value Engineering (VE) study conducted during project development.
A "project" shall be defined as the collective contracts, which may include but not be
limited to: design, construction, and construction, engineering and inspection (CEI)
services. Additionally, any project with an estimated construction value of $2 million or
more may be reviewed for VE at the discretion of the County.
38. ABOVEGROUND/UNDERGROUND TANKS
An underground 62-761, Florida Administrative Code (F.A.C.) or aboveground 62-762,
F.A.C. regulated tank requires notification to the 'County' prior to installation or closure
of the tank. The Pollution Control Department (239-252-2502), via contract GC-690
with the Florida Department of Environmental Protection (FDEP), is the County (local
program) for the purposes of these rules
GC-CA-J-29
Regulated tanks require notification to the 'county' local program thirty (30) days prior to
installation and again forty-eight (48) hours prior to commencement of the installation.
Closure activities require a ten (10) day notification and then a forty-eight (48) hour
notification prior to commencement. The notification is to allow for scheduling of the
inspections pertaining to the installation/closure activities. A series of inspections will
be scheduled based upon system design after discussing the project with the
contractor/project manager. Specifics on applicability, exemptions, and requirements
for regulated pollutant storage tank systems can be found in 62-761, FAC. and 62-762,
FAC. or you may contact the Pollution Control Department with your questions.
Please note that equipment must be listed on the FDEP approved equipment list and
will be verified at inspection along with installation and testing procedures. The
approved equipment list is constantly updated and can be found at the FDEP Storage
Tank Regulation website along with rules, forms and other applicable information.
39. STANDARDS OF CONDUCT: PROJECT MANAGER, SUPERVISOR,
EMPLOYEES.
The Contractor shall employ people to work on Owner's projects who are neat, clean,
well-groomed and courteous. Subject to the Americans with Disabilities Act, Contractor
shall supply competent employees who are physically capable of performing their
employment duties. The Owner may require the Contractor to remove an employee it
deems careless, incompetent, insubordinate or otherwise objectionable and whose
continued employment on Owner's projects is not in the best interest of the County.
GC-CA-J-30
EXHIBIT I
SUPPLEMENTAL TERMS AND CONDITIONS
1. The Notice to Proceed will be issued only after the following documentation has
been submitted to Owner:
a. Complete contractual documents, including payment and performance
bonds and insurance certificate;
b. Progress schedule, which shall utilize the Critical Path method of
scheduling and Microsoft Project;
c. Submittal schedule;
d. Draw (funding) Schedule, which shall consist of a monthly projection of
the value of the work to be completed and materials stored for the entire
duration of the project;
e. Safety Program/Risk Management Program;
f. Quality Assurance/Quality Control Program; and
g. Security Plan
2. The CPM Schedule and Draw Schedule shall be updated monthly and
submitted with each Contractor Application for Payment. If both items are not
submitted with Application for Payment, that payment will be withheld until
both items are received and accepted by the Owner and Engineer.
3. All engineering site plans and drawings referencing a specific geographic area
must be submitted in an AutoCad 14 or later format drawn in the Florida State
Plane East (US Feet) Coordinate System. The drawings should either
reference specific established Survey monumentation, such as Certified
Section Corners (Half or Quarter Sections are also acceptable), or be derived
from the RTK(Real-Time Kinematic) GPS Network as provided by the Collier
County Transportation Division.
4. The County may, at its discretion, use VISA/MASTER card credit network as a
payment vehicle for goods and/or services purchased as a part of this contract.
GC-CA-J-31
EXHIBIT J
TECHNICAL SPECIFICATIONS
See Separate downloadable file from www.collierQov.netlbid
GC-CA-J-32
eT '-~u.nty
WATER - SEWER DISTRICT
,
NORTH COUNTY W A TERRECLAMA TION FACILITY
-
- .
ODOR CONTROL CONTAINMENT
AND IQW ATER UPGRADES
COMPLIANCE ASSURANCE PROJECT
TECHNICAL SPECIFICATIONS
ISSUED FOR CONSTRUCTION
January 2010
HOLE MONTES
ENGINEERS. PlANNERS, SURVEYORS
HM Project No. 2009.032
-
COLLIER COUNTY WATER-SEWER DISTRICT
NORTH COUNTY WATER RECLAMATION FACILITY
ODOR CONTROL - IQ MODS
DIVISION I - GENERAL REQUIREMENTS
Section 0 I 11 0 - Summary of Work
Section 0 I 120 - Sequence of Work
Section 01130 - Measurement and Payment
Section 01135 - Allowances
Section 01140 - Maintenance of Utility Operations
Section 01150 - Protection of Existing Facilities
Section 01160 - Alteration of Existing Facilities
Section 01200 - Project Meetings
Section 01310 - Construction Progress Schedules
Section 01315 - Coordination
Section 01330 - Submittals
Section 0 I 41 0 - Regulatory Requirements
Section 01420 -.:. Reference Standards.
Section 01430 - Materials Testing
Section 0 I 450 - Quality Control
Section 01470 - Color Audio-Video Preconstruction Record
Section 01510 - Temporary Utilities
Section 01520 - Occupancy
Section 01525 - Field Offices and Sheds
Section 01540 - Security
Section 0 I 54 I - Field Engineering
Section 01550 - Access Roads and Parking Areas
Section 01570 - Temporary Environmental Controls
Section 0 I 600 - Materials and Equipment
Section 01740 - Construction Cleaning
Section 0 I 750 - Testing and Start-Up
Section 01770 - Contract Closeout
Section 0 I 780 - Warranties and Bonds
Section 01781 - Project Record Documents
Section 0 I 830 - Operation and Maintenance Data
DIVISION 2 - SITEWORK
Section 02220 - Demolition
Section 02230 - Clearing, Grubbing and Stripping
Section 02240 - Dewatering
Section 02310 - Erosion and Sedimentation Control
Section 02315 - Site Earthwork
January 2010
INOEX-1
NCWRF COMPLIANCE ASSURANCE PROJECT
Section 02316 - Structural Earthwork
Section 02317 - Trenching, Bedding and Backfill for Pipe
Section 02503 - Cleaning and Flushing of Piping Systems
Section 02505 - Pressure Testing of Piping Systems
Section 02507 - Disinfection of Potable Water Piping
Section 02530 - Gravity Sanitary Sewer System
Section 02630 - Storm Sewers and Structures
Section 02660 - Geomembrane Lined Reservoir
Section 02740 - Asphaltic Concrete Pavement
Section 02765 - Concrete Pavement, Curb and Walkways
Section 02890 - Pavement Marking and Traffic Signs
DIVISION 3 - CONCRETE
Section 03100 - Concrete F ormwork
Section 03200 - Concrete Reinforcement
Section 03290 - Joints in Concrete
Section 03300 - Cast-in-Place Concrete
Section 03315 - Grout
Section 03350 - Concrete Finishes
Section 03370 - Concrete Curing
Section 03400 - Precast Concrete, General
Section 03480 - Precast Concrete Manholes, Handholes and Vaults
DIVISION 5 -METALS
Section 050 I 0 - Metal Materials.
Section 05035 - Galvanizing
Section 05050 - Metal Fastening
Section 05500 - Metal Fabrications
Section 05515 - Ladders - Aluminum
Section 05520 - Handrails and Railings
Section 05531 - Grating, Floor Plates and Access Hatches
Section 05540 - Castings
DIVISION 6 - WOOD AND PLASTICS
Section 06600 - Glass Fiber and Resin Fabrications
DIVISION 7 - THERMAL AND MOISTURE PROTECTION
Section 07190 - Vapor Barrier
DIVISION 9 - FINISHES
January 201 0
INDEX-2
NCWRF COMPLIANCE ASSURANCE PROJECT
__~. _ _",_'___ ,',_,',_'_' _",__",,,, ,.,_.,~",,__,...,., mo...._".
Section 09850 - Painting
DNISION 10- SPECIAL TIES
Section 10400 - Signage
Section 10524 - Emergency Shower/Eyewash Stations
DIVISION 1 I - EQUIPMENT
Section 11000 - Equipment - General
Section 11 100 - Pumps, General
Section 11 180 - Chemical Resistant Sump Pumps
Section 11300 - Diffusers, Fine Bubble, Full Floor
Section 11400 - Blowers, Centrifugal, Multi-Stage
DIVISION 13 - SPECIAL CONSTRUCTION
Section 13110 - Fall Protection System
Section 13200 - Odor Control Systems - Chemical .
Section 13200A - Odor Control Systems - Chemical
Section 13201 - Odor Control System - Bioscrubber
Section 13201A - Odor Control Systems - Bioscrubber
Section 13205 - Odor Control Chemical Storage Tanks
Section 13300 - Aluminum Odor Control Covers
DIVISION 15 - MECHANICAL
Section 15000 - Piping, General
Section 15010 - Mill Piping - Exposed and Buried
Section 15012 - Steel Pipe
Section 15020 - Pipe Supports
Section 15030 - Piping and Equipment Identification Systems
Section 15110 - Valves and Accessories
Section 151 14 - Miscellaneous Valves and Appurtenances
Section 15116- Valve Actuators, Electric
Section 15121- Piping Expansion Compensation
Section 15122 - Ductile Iron Pipe
Section 15123 - Polyvinyl Chloride (PVC) and Chlorinated Polyvinyl Chloride (CPVC) Pipe
Section 1514 I - Housekeeping Pads, Concrete
Section 15161 - Vibration Isolation Equipment
Section 152 I 0 - FRP Ductwork
Section 15290 - Insulation
DIVISION 16 - ELECTRICAL
Section 16015 - Electrical Reference Symbols
January 2010
INDEX.3
NCWRF COMPLIANCE ASSURANCE PROJECT
Section 16020 - Work Included
Section 16025 - Codes, Fees, and Standards
Section 16035 -Acceptance Tests and Performance Verification
Section 16037 - Short Circuit, Coordination and Arc Flash Studies
Section 16040 - Identification
Section 16050 - Special Requirements
Section 16110 - Raceways and Conduit
Section 16120 -Low Voltage Wires and Cables
Section 16130 - Outlet Boxes
Section 16134 - Panelboards
Section 16140 - Wiring Devices
Section 16150 - Electric Motors
Section 16160 - Motor Controls
Section 16165 - Variable Frequency Drives
Section 16170 - Disconnects
Section 16180 - Overcurrent Protective Devices
Section 16 I 90 - Supporting Devices
Section 16430 - Underground Duct Lines
Section 16450 - Grounding
Section 16460 - Transformers (480V Dry Type)
Section 16501 - Lighting Fixtures
Section 16610 - Lightning Protection System
Section 16709 - Surge Suppression, Bonding & Grounding
Section 16910 - Control Panels
DIVISION 17 - INSTRUMENTATION
Section 17000 - Control and Information System Scope and General Requirements
Section 17015 - Preliminary Design Review
Section 17030 - Control and Information System Submittals
Section 17040 - Control and Information System Training Requirements
Section 17060 - Signal Coordination Requirements
Section 17070 - Control and Information System Testing - General
Section 17073 - Field Testing
Section 17080 - Quality Assurance
Section 17120 - Programmable Logic Controllers
Section 17185 - Communications Networks
Section 17190 - Uninterruptible Power Systems
Section 17500 - Enclosures, General
Section 17510 - Cabinets and Panels
Section 17520 - Field Panels
Section 17550 - Panel Instruments and Accessories
Section 17560 - Transient Voltage Surge Suppression Devices
Section 17600 - Unpowered Instruments, General
Section 17610 - Insert Venturi Flow Tubes
Section 17650 - Pressure Gauges
January 2010
INDEX.4
NCWRF COMPLIANCE ASSURANCE PROJECT
'-~_._,_._-
.__ __' '_'_"_""""_"_'__'0'____' _ ,___,~ ._ ,_,_.,_"~,_w,~"",,_,,,_~,,_,,,__,
Section 17670 - Level Switches (Suspended Float Type)
Section 17698 -Instrumentation and Control System Accessories
Section 17700 - Powered Instruments, General
Section 17701 - Magnetic Flow Meters
Section 17740 - Ultrasonic Liquid Level Measurement Systems
Section 17750 - Non-Intrusive Leak Detection System
Section 17760 - Pressure Indicating Transmitters
Section 17800 - Analytical Instruments, General
Section 17851 - Single Point Gas Monitoring Systems
Section 17852 - Portable Hydrogen Sulfide Analyzer
Section 17900 - Control Strategy Descriptions
Section 179 I 0 - Instrument Schedule
Section 17920 - Schedule
January 2010
INDEX.5
NCWRF COMPLIANCE ASSURANCE PROJECT
SECTION 01110
SUMMARY OF WORK
PART 1 - GENERAL
1.01 SECTION INCLUDES
General description of the Work required under this Contract.
1.02 WORK COVERED BY CONTRACT DOCUMENTS
A. Work of this Contract comprises construction at the Collier County - North County
Water Reclamation Facility (NCWRF). The Contractor shall refer to the Contract
Documents for a more complete description of the Work.
B. The Work can be summarized to include furnishing labor, materials, equipment,
services, incidentals for the following items:
1. Upgrades to Odor Control Systems:
a. New biological scrubber for Pretreatment Facility including demolition as
shown on the Contract Drawings, associated duct, valves, concrete work,
modifications to existing structures and duct, access structures, piping,
electrical and instrumentation work, start-up, testing and appurtenances.
b. New chemical scrubber and modifications to existing chemical scrubber for
Pretreatment Facility and Sludge Holding/Feed Tanks including associated
duct, valves, concrete work, modifications to existing structures and piping and
duct, piping, electrical and instrumentation work, start-up, testing and
appurtenances.
c. New chemical scrubber systems for the existing MLE aeration basins including
demolition as shown on the Contract Drawings chemical storage and feed
systems, basin covers, fall protection system, associated duct, valves,
concrete work, access structures, piping, electrical and instrumentation work,
start-up, testing and appurtenances.
d. Modifications to the existing MLE aeration basins including demolition as
shown on the Contract Drawings, one new blower and associated piping and
appurtenances in the Blower Building, conversion of the existing second
anoxic mixing/aeration zone to fine bubble diffusion, modifications to the
process air piping, air flow meters, air modulating valves, electrical and
instrumentation work, start-up, testing and appurtenances.
e. Modifications to the North Bleach System including new bleach storage and
feed facility for Pre-filter Splitter Box, concrete work, roof structure, bleach
feed piping systems with precast trenches and leak detection systems,
relocation of chemical pump skid, piping, modifications to the north chlorine
January 2010
01110-1
NCWRF COMPLIANCE ASSURANCE PROJECT
SUMMARY OF WORK
__. .._~_. ___..~__.'.'_'>w~,___~________','~~_"__._d"__
-" -'-"'-"_._-"-~-'-"-"-_._,-'._-_._...-~-
contact chambers, electrical and instrumentation work, start-up, testing and
appurtenances.
f. Piping, valves, flow meter and control valve for reuse ponds, circulation piping
and South-to-North Reuse Interconnect including piping, tie-ins, concrete
work, electrical and instrumentation work, start-up, testing and appurtenances.
g. Re-shaping of existing reuse ponds and other ponds including lining of Ponds
2 and 4, repairs to pond berms, liner repairs, piping and valving, concrete work
and limestone roadway and appurtenances.
h. Re-shaping and stabilizing existing exterior pond berms.
I. New potable water connection and supply including tap of existing water main,
water main, jack and bore, meter backflow preventer, concrete work, piping
and valving, casing pipe, testing and appurtenances.
J. Site work including paving, Iimerock roadways, excavation, backfill,
dewatering, storm drainage systems, sod and seeding, restoration and testing.
k. Miscellaneous work including metals, grating, ladders, painting, coatings,
safety equipment, signage, lightning protection, and all other work and
responsibilities described in the Contract Documents.
I. Temporary equipment and materials and manufacturers' trained field
technicians for start-up, calibration, testing, and certification of installed
equipment and systems.
m. Installation, Operation and Maintenance Manuals as described in the Contract
Documents.
n. Dewatering and cleaning of the influent and effluent channels for the MLE
aeration basins. (Contract Allowance Funds)
o. Cleaning and removal of grit and debris from the entire bottom of the MLE
aeration basins. (Contract Allowance Funds)
p. Repairs to the existing aeration system In the MLE aeration basins as
directed. (Contract Allowance Funds)
1.03 SPECIAL PROJECT MILESTONE AND SCHEDULE
The Contract work includes a partial project completion milestone with liquidated
damages. Refer to Section 01120 and the Contract Documents for additional
information and requirements.
1.04 CONTRACT ALLOWANCES AND CONSTRUCTION SCHEDULE
A. As part of Bid Item 2, the Contractor shall include an activity in the initial construction
schedule to accomplish Owner Directed Work. The allocated time in the pre-
January 201 0
01110.2
NCWRF COMPLIANCE ASSURANCE PROJECT
SUMMARY OF WORK
construction schedule for Bid Item 4B and 4C shall be 120 calendar days (10 days per
aeration basin).
B. The initial submittal of the construction schedule shall include appropriate activity(ies)
for each MLE aeration basin to complete Owner Directed Work and the duration of
the activity(ies) shall be 10 calendar days.
C. The Contractor shall plan, coordinate and complete all work associated with Bid Items
1 through 4 within the Contract Time.
1.05 SPECIAL EXPERIENCE REQUIREMENTS
A. ThE! Owner requires certain experience qualifications. The Contractor and the
proposed project key personnel must have prior experience on similar projects. Refer
to the Bid Proposal for additional information and requirements. Failure of a bidder to
document such qualifications may result in rejection of that bid.
B. Refer to Section 16050 for information and requirements related to requirements
and qualifications of electrical subcontractors. Electrical subcontractors who are not
identified in Section 16050 must be pre-qualified by submittal of specified
information at least 14 days prior to bid opening date.
1.06 CONTRACT METHOD
Construct the Work under a single contract. Certain materials as described in the
Contract Documents will be furnished by the Owner for unloading, storing, installation,
start-up and testing assistance by the Contractor. The Contractor shall provide
coordination and technical support associated with Owner furnished material.
1.07 WORK BY OTHERS
During the construction period for this project, the Owner (either with his own forces or
under a separate contract) will be performing other work that will require the
cooperation of the Contractor in scheduling and his coordination to avoid conflicts.
END OF SECTION
January 2010
01110.3
NCWRF COMPLIANCE ASSURANCE PROJECT
SUMMARY OF WORK
- - -"-~"-""-^""-'-_' .,.__..~~"._..,.,.,-"..._- -
.'_'"___d.,.,'--._.."__'_._
SECTION 01120
SEQUENCE OF WORK
PART 1 - GENERAL
1.01 SECTION INCLUDES
A special partial project completion milestone and schedule, and constraints
regarding construction sequence.
1.02 SPECIAL PROJECT MILESTONE AND SCHEDULE
The Contractor shall plan, coordinate and prosecute the Contract Work so as to
achieve early Partial Substantial Completion of the following areas of work no later
than August 1,2010. Liquidated Damages will be assessed if the Contract Work in
these specifically identified area has not achieved Substantial Completion by August
1,2010.
1. Lining of Pond 4 and
2. Associated earthwork, site work and piping.
The construction schedule shall identify the activities, logic, resources and
completion dates necessary to achieve this Project Milestone.
1.03 CONSTRUCTION SEQUENCING
A. The following construction constraints and work sequences are not intended to
be a complete or exhaustive list, and the descriptions provided are general in
nature. The Contractor is responsible for identifying all work activities that
could affect any operational aspect of the NCWRF and providing the Owner
and Engineer sufficient prior notice. Refer to Sections 01140 and 01150 for
additional information and requirements. The following work sequences are
intended to be general in nature and not inclusive of all steps or details. The
Contractor can submit alternative work sequences to the Engineer for review.
B The following areas of Contract Work require specific planning and
coordination to avoid interruptions to the treatment capability of the NCWRF.
1. Existin~ MLE Aeration Basins
At Aeration Basins 4, 5, 6, the work must be carefully sequenced. The
work includes conversion of swing zones to diffused air, air piping
replacement and addition/re-arrangement of air diffusers, vertical
relocation of process air header, demolition and installation of odor
control ductwork, odor control covers, new odor control systems, OCS
Nos. 4 & 5, and installation of PSW piping and hose stations.
January 2010
01120.1
NCWRF COMPLIANCE ASSURANCE PROJECT
SEQUENCE OF WORK
In order to perform the work listed above, multiple aeration basins will
need to be taken out of service for an extended period of time. The
Contractor will be required to coordinate the basin construction timing
and schedule with the Owner. In order to accommodate the air
requirements of the Aeration Basins, the construction phase steps
anticipated for this work are as follows:
a. The Contractor shall install a temporary 24" steel aeration air
bypass pipe for the air header between basins 4A and 5B. The
temporary pipe shall be laid on the deck of the aeration basins and
eventually tied into the 30"x24" SS tee and 24" SS tee installed in a
later step of this sequence.
b. The Oxidation Ditch Treatment Train will need to be placed into
operation by the Owner prior to isolation of the aeration basins. No
more than 6 aeration basins can be taken out of service at a time.
The North Bleach System improvements cannot be undertaken
during the time that the Oxidation Ditch Treatment Train is
operational.
c. Influent flow, air flow and electrical power to Aeration Basins
4A, 4B, 4C, 40, 5A and 5B shall be interrupted.
d. Blower Building 1 blower operation will be shut down. The
shutdown of the blower building shall not exceed 3 hours. If the
shutdown is anticipated to be longer than 3 hours, the Contractor
will need to provide temporary blowers to feed process air to basins
5C, 50, 6A, 6B, 6C and 60. Temporary blowers will need to be
capable of supplying 7,000 scfm to the aeration basins.
f. A new 30"x24" SS tee with blind flange (North end) will be installed in
the existing aeration header between basins 5B and 5C. A new
30"x24" SS tee with blind flange (on downstream end) will be
installed in the existing aeration header vertical riser upstream of
basin 4A. This work will allow the air header north of basin 5C to
be isolated. The temporary 24" steel pipe installed in the first step
will be connected into the new tees at both ends to complete the
bypass.
g. Blower Building 1 shall be brought back into operation.
h. Work required for basins 4A through 5B as listed above can begin.
The tanks shall be drained. Refer to Section 11300 for requirements
relating to protection of diffuser membranes from sunlight. (The tanks
shall be cleaned as directed. Contract Allowance Funds.)
i. Once the new work has been accepted by the Owner, Basins 4A
through 5B can be brought back on-line.
January 201 0
01120-2
NCWRF COMPLIANCE ASSURANCE PROJECT
SEDUENCE OF WORK
.' ... .,,_.. ,,~=',,_,_w_,~_,,~"~,".~"~><'~'_C
J. Install blind flange on existing 24" air header pipe just downstream of
basin 5B. Install flanged spool piece on 30" air header pipe just
upstream of the 90 degree bend adjacent to basin 4A.
k. To bring basins 4A through 5B back on-line, Blower Building 1
blower operation will be shut down. The shutdown of the blower
building shall not exceed 3 hours. If the shutdown is anticipated to
be longer than 3 hours, the Contractor will need to provide
temporary blowers to feed process air to basins 5C, 5D, 6A, 6B, 6C
and 6D.
I. Remove the temporary steel piping connection at the vertical riser
upstream of basin 4A.
m. Insert flanged spool piece to connect the 30"x24" SS tee located at
the existing aeration header vertical riser upstream of basin 4A with
the vertically relocated 30" air header pipe feeding basins 4A
through 5B. Install a blind flange on the 30"x24" tee at the previous
connection to the temporary steel pipe.
n. Blower Building 1 shall be brought back into operation.
o. Allow process in Basins 4A through 5B to stabilize.
p. Influent flow to Aeration Basins 5C, 5D, 6A, 6B, 6C, and 6D shall
be interrupted. (The tanks shall be drained and cleaned as directed.
Contract Allowance Funds)
q. Work required for basins 5C through 6D as listed above can begin.
The tanks shall be drained. Refer to Section 11300 for requirements
relating to protection of diffuser membranes from sunlight. (The tanks
shall be cleaned as directed. Contract Allowance Funds.)
r. Test and accept Aeration Basins 5C through 6D.
s. To bring basins 5C through 6D back on-line, Blower Building 1
blower operation will be shut down. The shutdown of the blower
building shall not exceed 3 hours. If the shutdown is anticipated to
be longer than 3 hours, the Contractor will need to provide
temporary blowers to feed process air to basins 4A, 4B, 4C, 4D, 5A
and 5B.
t. Remove blind flange on the end of the 30" air header feeding
basins 4A through 5B. Connect 24" SS tee located in the existing
aeration header upstream of basin 5C to the 30" air header feeding
basins 4A through 5B. Install blind flange on the bottom of the 24"
tee.
u. Blower Building 1 shall be brought back into operation.
January 2010
01120-3
NCWRF COMPLIANCE ASSURANCE PROJECT
SEQUENCE OF WORK
January 2010
2. MLE Aeration Basins: Influent and Effluent Trough Cleaning
(Contract Allowance Funds)
While Basins 4A through 5B are off line, use stop logs and temporary
bulkheads to dewater and clean the grit and debris from the basins
influent and effluent channels.
a. Close Pretreatment discharge gate to MLE 4A-4D to shut off flow to
Influent Box 4.
b. Install stop logs in influent and effluent channels between 4D and 5A.
c. Vactor out the channels adjacent to 4A-4D and dispose of materials
off-site.
d. Open up Pretreatment discharge gate to MLE 4A-4D to resume flow
to Influent Box 4.
While Basins 5C through 6D are off line, use stop logs and temporary
bulkheads to dewater and clean the grit and debris from the basins
influent and effluent channels.
e. Keep stop logs in place from Steps 1-3.
f. Close Pretreatment discharge gate to MLE 6A-6D to shut off to MLE
Influent Box 6.
g. Fabricate and install temporary bulkheads in influent and effluent
channels between 5D and 6A.
h. Vactor out the channels adjacent to 6A-6D and dispose of materials
off-site.
I. Open up Pretreatment discharge gate to MLE 6A-6D to resume flow
to Influent Box 6.
After all in-basin modifications are complete, use logs and temporary
bulkheads to allow access to the influent channel at MLE Influent Box 5.
j. Close Pretreatment discharge gate to MLE 5A-5D to shut off flow to
Influent Box 5.
k. Vactor out the channels adjacent to 5A-5D and dispose of materials
off-site.
I. Open up Pretreatment discharge gate to MLE 5A-5D to resume flow
to Influent Box 5.
3 Electrical Work at MCC10B
The demolition and installation of the Aeration Blower #4 electrical work
will require a shutdown of existing MCC-10B. The MCC-10B shutdown
shall not exceed three days. Shutdown of MCC-10B will affect the
following existing equipment:
a. Mixed Liquor Recycle Pump #2, Aeration Basins 5A-5D
b. Mixed Liquor Recycle Pump #3, Aeration Basins 4A-4D
c. Influent Channel Vertical Mixer #2 - Basin 5
d. Anoxic Mixing Pump #5A-2
,
011204
NCWRF COMPLIANCE ASSURANCE PROJECT
SEQUENCE OF WORK
". .,.",-~-~--~-",-",.,~.,", --
- -_.._..~..~._"....-
January 2010
e. Anoxic Mixing Pump #5B-2
f. Anoxic Mixing Pump #5C-2
g. Anoxic Mixing Pump #50-2
h. RAS Flow Control Valve - Basin #5
The Contractor shall coordinate the shutdown and the work schedule with
the Owner in advance of the planned shutdown.
4. Blower Buildin!=! 1 Modifications
The demolition and installation of the Aeration Blower #4 mechanical
work will require a shutdown of the existing blowers in Blower Building 1.
The shutdown of the blower building shall not exceed 3 hours. If the
shutdown is anticipated to be longer than 3 hours, the Contractor will
need to provide temporary blowers to feed process air to all of the
aeration basins. Temporary blowers will need to be capable of supplying
up to 14,000 scfm to the aeration basins.
5. Odor Control Units 1, 2 and 3 at Pretreatment Area
Work at Odor Control Units 1, 2 and 3 shall proceed under the following
general work sequence:
a. Install, startup and perform functional test of Odor Control Unit 3
using existing duct work and new connections and dampers.
b. Simultaneous with the preceding activity install Odor Control Unit 1
without making any duct connections and without startup of the
unit.
c. Connect duct work to Odor Control Unit 1 and modify duct work
from Pretreatment Facility to Odor Control Unit 3. Modify duct work
at Pretreatment Facility.
d. Conduct successful startup, functional tests and performance tests
for Odor Control Units 1 and 3.
e. Remove Odor Control Unit 2 from service and make all
modifications required by the Contract. Conduct successful
startup, reliability test, functional test and performance test of Odor
Control Unit 2.
6. General: Odor Duct Modifications at Pretreatment Area and Odor Control
Units 1,2 & 3
a. Perform modifications to existing odor control ducts so as to minimize
the down time for the existing Odor Control Unit 2 and the new Odor
Control Unit 3. Either Odor Control Unit shall not be out of service due
to duct modifications for longer than six hours.
b. Any duct modification that requires both chemical scrubbers to be out
of service shall be performed between 1 :00 pm and 7:00 pm. Such
01120.5
NCWRF COMPLIANCE ASSURANCE PROJECT
SEQUENCE OF WORK
modification shall only be undertaken after a minimum of five full
working days notice to the Owner for each event. Such notice shall
include a description of the planned work, the planned resources to be
used in execution of the work, and the number of hours and days that
both units will be off line. The duct modifications may be required as
weekend work.
7. North Bleach System Improvements
a. Work associated with the North Bleach Improvements must be
executed when modifications to the existing MLE Aeration Basins are
not underway. This Work must be identified separately in the
construction schedule.
b. Schedule and coordinate work in this area so bleach feed to both
chlorine contract chambers is uninterrupted. This requirement for'
continuous operation status includes all bleach feed pumps, piping,
valves and electrical work.
1.04 PLACEMENT OF CONSTRUCTION CRANES AND LIFTING EQUIPMENT
A. As may required by applicable regulations and standards, the Contractor shall
provide a detailed submittal for each placement of a construction crane or
other lifting equipment. The submittal shall reflect compliance with all safety
codes and standards and shall be site specific for each placement.
PART 2 - PRODUCTS (not used)
PART 3. EXECUTION (not used)
END OF SECTION
January 201 0
01120.6
NCWRF COMPLIANCE ASSURANCE PROJECT
SEQUENCE OF WORK
, -,," -.......- .- ..~
--_.~.--._,..- .
-- ..__.,----,,,..~."'--,.,,~_....,"' ..-
SECTION 01130
MEASUREMENT AND PAYMENT
PART 1 - GENERAL
1.01 THE REQUIREMENT
A Payment for the various items in the Schedule of Payment as further specified herein,
shall include all compensation to be received by the Contractor for furnishing all tools,
equipment, supplies, and manufactured articles, and for all labor, operations, taxes,
materials, commissions, transportation and handling, bonds, permit fees, insurance,
overhead and profit, and incidentals appurtenant to the items of Work being described, as
necessary to complete the various items of the Work all in accordance with the
requirements of the Contract Documents, including all appurtenances thereto, and
including all costs of compliance with the regulations of public agencies having
jurisdiction, including Safety and Health Requirements of the Occupational Safety and
Health Administration ofthe U.S. Department ofLabor (OSHA). Such compensation shall
also include paymentfor any loss or damages arising directly or indirecllyfrom the Work.
B. The Contractor's attention is called to the fact that the quotations for the various items of
Work are intended to establish a total price for completing the Work in its entirety. Should
the Contractor feel that the cost for any item of Work has not been established by the
Schedule of Payment items or this Section, it shall include the costforthat Work in some
other applicable bid item, so that its proposal for the project does reflect its total price for
completing the Work in its entirety.
1.02 PAYMENT ITEMS
A The Contractor shall submit a Schedule of Payment Values for review with the return of
the executed Agreement to the Owner. The schedule shall contain the installed value of
the component parts of Work broken down into labor and material categories for the
purpose of making progress payments during the construction period.
B. The schedule shall be given in sufficient detail for proper identification of Work
accomplished. The Schedule of Payment Values shall coincide with the activities of work
detailed in the construction progress schedule and the construction network analysis in
order to accurately relate construction progress to the requested payment. Each item
shall include its proportional share of all costs including the Contractor's overhead,
contingencies and profit. The sum of all scheduled items shall equal the total value ofthe
Contract.
C. If the Contractor anticipates the need for payment for materials stored on the project site,
it shall also submit a separate list covering the cost of materials, delivered and unloaded
with taxes paid. This list shall also include the installed value of the item with coded
reference to the Work items in the Schedule of Payment Values. Similar procedures shall
be employed for undelivered specifically manufactured equipment and materials as
specified herein.
D. Payment-for stored material-wilJ not exceed-fif!v (50}.percent-Gf inyoice amount-for each
January 20 to
01130-1
NCWRF COMPLIANCE ASSURANCE PROJECT
MEASUREMENT AND PAYMENT
item of-stor.ed material..-Pa'lment..in excess o~8rcent-Will require instaIIation of
some or alklf-the stored material~ on the invoice.
E. Payment will not be made for materials stored off-site.
PART 2 - PRODUCTS (Not Used)
PART 3 - EXECUTION (Not Used)
END OF SECTION
January :!o 10
011302.
}.lCHlRF COMPLIANCE ASSURANCE PROJECT
ME~.SUREMENT AND PAYMENT
SECTION 01135
ALLOWANCES
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures relative to allowances.
1.02 CONTRACT ALLOWANCE
The Contractor shall include in its Contract Price an allowance equal to the Allowance
Funds shown in the proposal for additional work required due unforeseen conditions and
conflicts to be used at the Owner's discretion. The price negotiated (between Contractor
and Engineer) for any work falling under this category shall be compensation in full for all
labor, materials and equipment necessary. All amounts remaining in this account at the
completion of the project shall be credited to the Owner. The provisions for the Allowance
Funds is not a guarantee the Contractor will be paid any portion or the full amount of such
Allowance Funds.
1.03 ALLOWANCE FUND
A. Costs Included in Allowances
1. Payroll costs for employees in the direct employ of Contractor in the
performance of the Work at the project site under schedules of job classifications
as may be agreed upon by Owner and Contractor. Payroll costs shall include,
but not be limited to, salaries and wages plus the cost of fringe benefits which
shall include social security contributions, unemployment, excise and payroll
taxes, workers' compensation, health and retirement benefits, bonuses, sick
leave, vacation and holiday pay applicable thereto.
2. Cost of materials and equipment furnished and incorporated in the Work,
including costs of transportation and storage thereof, and Suppliers' field
services required in connection therewith. Cash discounts shall accrue to
Contractor unless Owner deposits funds with Contractor with which to make
payments, in which case the cash discounts shall accrue to Owner. Trade
discounts, rebates and refunds and returns from sale of surplus materials and
equipment shall accrue to Owner, and Contractor shall make provisions so that
they may be obtained.
3. Payments made by Contractor to the Subcontractors or private utility companies
for Work performed or furnished by Subcontractors.
4. Proportion of necessary transportation, travel and subsistence expenses of
Contractor's employees incurred in discharge of duties connected with the Work.
5. Cost, including transportation and maintenance, of materials, supplies,
equipment, machinery, appliances, office and temporary facilities at the site and
hand tools not owned by the workers, which are consumed in the performance of
01135-1
NCWRF COMPLIANCE ASSURANCE PROJECT
ALLOWANCES
January 2010
the Work, and cost less market value of such items used but not consumed
which remain the property of Contractor.
6. Rentals of construction equipment and machinery and the parts thereof whether
rented from Contractor or others in accordance with rental agreements approved
by Owner with the advice of Engineer, and the costs of transportation, loading,
unloading, installation, dismantling and removal thereof, all in accordance with
the terms of said rental agreements. The rental of any such equipment,
machinery or parts shall cease when the use thereof is no longer necessary for
the Work.
7. Sales, consumer, use or similar taxes related to the Work, and for which
Contractor is liable, imposed by Laws and Regulations.
B. Costs Considered As Part of Profit
1. Losses and damages (and related expenses) caused by damage to the Work
sustained by Contractor in connection with the performance and furnishing of the
Work.
2. The cost of utilities, fuel and sanitary facilities at the site.
3. Minor expenses such as telegrams, long distance telephone calls, telephone
service at the site, expressage and similar petty cash items in connection with
the Work.
4. Payroll costs and other compensation of Contractor's officers, executives, project
manager, principals (of partnership and sole proprietorships), general managers,
engineers, architects, estimators, attorneys, auditors, accountants, purchasing
and contracting agents, expediters, timekeepers, clerks and other personnel
employed by Contractor whether at the site or in Contractor's principal or a
branch office for general administration of the Work.
5. Expenses of Contractor's principal and branch offices other than Contractor's
office at the site.
6. Any part of Contractor's capital expenses, including interest on Contractor's
capital employed for the Work and charges against Contractor for delinquent
payments.
7. Costs due to the negligence of Contractor, any Subcontractor, or anyone directly
or indirectly employed by any of them or for whose acts any of them may be
liable, including but not limited to, the correction of defective Work, disposal of
materials or equipment wrongly supplied and making good any damage to
property.
8. Other overhead or general expense costs of any kind and the costs of any item
not specifically and expressly included in paragraph 1.03A. "Costs Included in
Allowances".
C. Contractor Responsibilities
1. Request proposals from three suppliers and installers and offer
recommendations.
January 2010
01135.2
NCWRF COMPLIANCE ASSURANCE PROJECT
ALLOWANCES
.".%.,-,
-.-,-.-"",.,-
- ...-"----..-..-.--,. .~.._-
2. On notification of selection by Engineer, execute purchase agreement with
designated supplier and installer.
3. Arrange for and process any required shop drawings, product data, and
samples. Arrange for delivery.
D. Engineer Responsibilities
1. Owner Contingency: Consult with Contractor in consideration and selection of
services, products, suppliers and installers.
2. Owner Contingency: Select Products in consultation with Owner and transmit
decision to Contractor.
3. Owner Contingency: Assist Owner to establish price for each allowance item
through negotiation with Contractor.
4. Prepare authorization for expenditure of funds against allowance.
5. Prepare Change Order at close-out of Contract to reduce final Contract amount
by the amount of unexpended funds remaining in Contingency Allowance.
E. Price for Each Allowance Item
1 . Price for each allowance item shall be negotiated separately.
2. Price for each allowance item shall be negotiated between the Contractor and
the Owner with the assistance of the Engineer.
F. At close-out of Contract, funds remaining in Contingency Allowance will be credited
to Owner by Change Order.
1.04 PROFIT
Costs included in Allowances: Contractor's profit on allowances shall be no more than
10% except for subcontractor's work which shall be priced at 5%.
1.05 ALLOWANCE FUND
A. Provide the following amount as part of the Contract Price, which may be used for the
follOWing Owner Directed Work: $700,000
1. Allowance for Owner's use as directed for unforeseen work and costs
associated with modifications to existing structures and changes due to
existing underground improvements.
2. Allowance for Owner's use as directed for work and costs associated with
repairs to the existing air diffusion system in MLE aeration basins.
3. Allowance for Owner's use as directed for work and costs associated with
removal of grit and debris from the MLE aeration basins, influent trough and
effluent trough.
B. The inclusion of the Allowance Fund in the Contract Price is not a guarantee the
January 2010
01135-3
NCWRF COMPLIANCE ASSURANCE PROJECT
ALLOWANCES
Contractor will be paid any portion or the full amount of such Allowance Funds.
1.06 CONTRACT ALLOWANCES AND CONSTRUCTION SCHEDULE
A. As part of Bid Item 2, the Contractor shall include an allowance in the original schedule to
accomplish Owner Director Work. The allocated time in the pre-construction schedule for
Bid Item 4B and 4C shall be 120 calendar days (10 days per aeration basin).
B. The initial submittal of the construction schedule shall include appropriate activity(ies) for
each MLE aeration basin to complete Owner Directed Work and the duration of the
activity(ies) shall be 10 calendar days.
C. The Contractor shall plan, coordinate and complete all work associated with Bid Items 1
through 4 within the Contract Time.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
01135-4
NCWRF COMPLIANCE ASSURANCE PROJECT
ALLOWANCES
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SECTION 01140
MAINTENANCE OF UTILITY OPERATIONS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The existing plant will be maintained in continuous operation by the Owner during the entire
construction period of the Contract as hereinafter specified. The intent of this Section is to
outline the minimum requirements necessary to provide continuous treatment, chlorination
and disposal of the full effluent flow throughout the construction period.
B. Work shall be scheduled and conducted by the Contractor so as not to impede any
treatment process, reduce the quality of the plant effluent or cause odor or other nuisance
except as explicitly permitted hereinafter. In performing the work shown and specified, the
Contractor shall plan and schedule his work to meet the plant and collection system
operating requirements, and the constraints and construction requirements as outlined in
this Section. No discharge of raw or inadequately treated wastewater shall be allowed. The
Contractor shall pay all civil penalties, costs, assessments, etc., associated with any
discharge of raw or inadequately treated wastewater associated with the Contractor's work.
C. The General Contractor shall be responsible for coordinating the general construction and
the schedules of electrical, HVAC, plumbing and related trades and for ensuring that
permanent or temporary power and controls are available for all existing, proposed, and
temporary facilities that are required to be on line at any given time.
D. The Contractor has the option of providing additional temporary facilities that can eliminate a
constraint, provided it is done without cost to the Owner and provided that all requirements
of these Specifications are fulfilled. Work not specifically covered in the following
paragraphs may, in general, be done at any time during the contract period, subject to the
operating requirements and constraints and construction requirements outlined hereinafter.
All references to days in this Section shall be consecutive calendar days.
1.02 GENERAL CONSTRAINTS
A. The Contractor shall schedule the Work so that the plant is maintained in continuous
operation. All treatment processes shall be maintained in continuous operation during the
construction period. Several items of work require connections of new piping and/or utilities
to existing piping, utilities, or modifications to existing piping, utilities or facilities. The County
will not allow shutdowns of the North County Water Reclamation Facility, any of its
processes, or its collection system (in part or in its entirety) to facilitate these connections
and/or modifications. The Contractor shall be responsible for, and include in its contract bid
amount, all costs associated with necessary work to isolate the existing piping, utilities or
facilities to complete the required connections and/or modifications. Necessary work
required by the Contractor shail include, but shall not be limited to, temporary bypass
pumping and piping, wet taps, line stops, line plugs, and temporary bulkheads.
B. The Contractor shall review all bidding documents and shall be responsible to determine all
such connections or modifications, and the scope and cost of all temporary measures
January 201 0
01140-1
NCWRF COMPLIANCE ASSURANCE PROJECT
MAINTENANCE OF UTILITY OPERATIONS
required to isolate the work area without the need for a shutdown of the affected facility,
process area, piping or utility.
C. The Contractor shall furnish any temporary work, facilities, roads, walks. protection of
existing structures. lliPing,J2jpe stops, blind flanges. valves, eq]![pment, electrical work.
power sUl2ply. controls. etc. that may be required to maintain continuous and dependable
Qperation of the entire NCWRF facilities at no extra cost to the Owner.
D. The Owner shall have the authority to order Work postponed, stopped or prohibited that
would, in his opinion, unreasonably result in interrupting the necessary functions ofthe plant
operations.
E. If the Contractor impairs performance or operation of the plant as a result of not complying
with specified provisions for maintaining plant operations, then the Contractor shall
,
immediately make all repairs or replacements and do all work necessary to restore the plant
to operation to the satisfaction of the Owner and the Engineer. Such work shall progress
continuously to completion on a 24-hours per day, seven work days per week basis.
F. The Contractor shall provide the seNices of emergency repair crews on call 24-hours per
day at no additional cost to the Owner.
1.03 GENERAL OPERATING REQUIREMENTS, CONSTRAINTS, AND CONSTRUCTION
REQUIREMENTS
A. Access to Plant Site, Roadways, and Parking Areas
1. An unobstructed traffic route through the Main Gate shall be maintained at all times
for the Owner's operations personnel and maintenance equipment. The General
Contractor shall be responsible for providing access to and for preparing and
maintaining approved parking areas.
2. An unobstructed traffic route around the plant site shall be maintained at all times for
the Owner's operations personnel and maintenance equipment. Vehicular access to
the treatment units and buildings for Owner personnel shall be maintained at all
times by the Contractor.
3. When vehicles are leaving the site, a wash down pit shall be provided and utilized to
remove all mud and other contaminants before entering a public roadway.
4. The Contractor shall provide temporary measures to protect the existing pavement
by filling over with earthen material or supplying other measures acceptable to the
Engineer, and he shall repair any damage to existing paved surfaces that occurs
during the construction period. Any areas disturbed along the shoulders of the
access road and interior roads and elsewhere inside and outside of the plant shall be
repaired, graded, seeded, etc. as necessary to match pre-existing conditions.
5. The General Contractor shall not undertake the restoration/construction of new
roadway (paved, gravel, or asphalt overlay) shown on the Contract Drawings, until all
other work on the plant improvements has been completed.
January 2010
01140.2
NCWRF COMPLIANCE ASSURANCE PROJECT
MAINTENANCE OF UTILITY OPERATIONS
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6. It shall be the responsibility of the General Contractor to obtain any permits required
from the Florida Department of Transportation and pay all associated fees.
B. Personnel Access
1. Treatment plant personnel shall have access to all areas which remain in operation
throughout the construction period. The Contractor shall locate stored material,
dispose of construction debris and trash, provide temporary walkways, provide
temporary lighting, and other such work as directed by the Engineer to maintain
personnel access to areas in operation. Access and adequate parking areas for
plant personnel must be maintained throughout construction.
C. Plumbing Facilities
1. Unless otherwise allowed by the Engineer, sanitary facilities in the existing structures
shall be operational at all times for plant operating personnel. All other building
plumbing systems such as roof and floor drains, pumping, etc., shall be maintained
for all structures.
D. Building Cooling and Ventilating
1. Building air conditioning, cooling and ventilating for the existing plant structures shall
be in service forthe entire construction period. Additional temporary air conditioning,
cooling and ventilation shall be provided as required to maintain facilities under
construction adequately cooled and vented. The temperatures to be maintained in
any areas occupied by plant operating personnel such as offices, lunchrooms, locker
rooms, bathrooms, etc., shall be no more than 76 degrees Fahrenheit.
E. Power, Light and Communications Systems (General)
1. Electric power, lighting service and communications systems shall be maintained in
uninterrupted operation in all areas which remain in operation. Individual units may
be disconnected as required for replacement, but service shall be available at all
times including periods when plant elements are out of service. The Owner may
allow outages under conditions determined by the Owner by making use of the
existing and/or the proposed engine-generator at the plant. All costs associated with
operation of the engine-generators shall be paid by the Contractor. The Contractor
shall coordinate shutdowns required by subcontractors to minimize the total number
of shutdowns required to complete construction. Owner's phone service to the plant
shall be maintained in continuous operation during construction.
F. Draining Process Pipes and Conduits (General)
1. The contents of all pipes and conduits to be removed, replaced or relocated (or
dewatered for a specific purpose) shall be transferred to a suitable facility in a
manner approved by the Owner through hoses or piping, or by using pumps if
hydraulic conditions so require them. The Contractor shall provide the pumps, piping
and hoses at no additional cost to the Owner. No uncontrolled spillage of a pipe or
conduit shall be permitted. Any spillage, other than potable water, shall be
immediately washed down and flushed into the appropriate process flow train.
January 2010
01140.3
NCWRF COMPLIANCE ASSURANCE PROJECT
MAINTENANCE OF UTILITY OPERATIONS
G. Potable Water System
1. Potable water service shall be maintained in continuous service at all times during
construction except for short term interruptions required for tie-ins. Shutdown ofthe
potable water system shall be fully planned and coordinated with the Plant
Superintendent and shall be limited to not more than two (2) hours. Existing fire
hydrants within the plant site shall be operational at all times, unless otherwise
approved by the Owner.
H. Non-potable Water System - Plant Service Water Only
1. The existing non-potable plant service water (reuse water) service shall be
maintained in continuous operation during construction except for short term tie-ins
of new or temporary facilities to existing facilities, until the new system is brought into
service. Temporary non-potable plant service for the chlorine and pump seal water
systems shall be provided by the Contractor as necessary to insu re continuous,
uninterrupted service of these critical systems. The Contractor shall furnish any
required temporary non-potable plant service water systems at no additional cost to
the Owner. The Contractor may require temporary support or relocation or
demolition of existing non-potable plant service water facilities to proceed with
construction. The Contractor shall provide all temporary supports, relocation of
existing piping, or demolition of existing non-potable plant service water piping
including placement with temporary or permanent non-potable water piping as
required at no additional cost to the Owner. Shutdown of the non-potable plant
service water system shall be fully coordinated with the Plant Superintendent and
shall be limited to not more than two (2) hours.
I. Sump Pumps and Sumps
1. All existing sumps shall be maintained in an operable condition with either existing
pumps or temporary pumps. Interim piping, power and controls shall be provided as
required by the staged construction sequence.
J. Seal Water and Service Water Piping
1. A supply of service and seal water and the necessary connections to existing
equipment shall be maintained during construction. Interim piping shall be provided
as required.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 201 0
01140.4
NCWRF COMPLIANCE ASSURANCE PROJECT
MAINTENANCE OF UTILITY OPERATIONS
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SECTION 01150
PROTECTION OF EXISTING FACILITIES
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for protection of existing facilities and completed construction
1.02 GENERAL
A. The Contractor shall protect all existing utilities and improvements not designated
for removal and shall restore damaged or temporarily relocated utilities and
improvements to a condition equal to or better than they were prior to such damage
or temporary relocation, all in accordance with requirements of the Contract
Documents.
B. The Contractor shall verify the exact locations and depths of all utilities shown and
the Contractor shall make exploratory hand excavations of all utilities that may
interfere with the Work. All such exploratory hand excavations shall be performed
as soon as practicable after award of Contract and, in any event, a sufficient time in
advance of construction to avoid possible delays to the Contractor's Work. When
such exploratory excavations show the utility location as shown to be in error, the
Contractor shall so notify the Engineer.
C. The number of exploratory excavations required shall be that number which is
sufficient to determine the alignment and grade of the utility.
1.03 RIGHTS-OF-WAY
A. The Contractor shall not do any Work that would affect any oil, gas, sewer or water
pipeline, any telephone, telegraph or electric transmission line, any fence or any
other structure nor shall the Contractor enter upon the rights-of-way involved until
notified by the Engineer that the Owner has secured authority therefor from the
proper party. After authority has been obtained, the Contractor shall give said party
due notice of its intention to begin Work.
B. When two or more contracts are being executed at one time on the same or
adjacent land in such manner that Work on one contract may interfere with that of
another, the Owner shall determine the sequence and order of the Work.
C. When the territory of one contract is the necessary or convenient means of access
for the execution of another contract, such privilege of access or any other
reasonable privilege may be granted by the Owner to the Contractor so desiring, to
the extent, amount, in the manner, and at the times permitted.
D. No such decision as to the method or time of conducting the Work or the use of
territory shall be made the basis of any claim for delay or damage.
January 2010
01150-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PROTECTION OF EXISTING FACILITIES
E. The Owner's Right of Access is reserved to the Owner and to the owners of public
utilities and franchises to enter at any time upon any public street, alley, right-of-
way, or easement for the purpose of making changes in their property.
1.05 PROTECTION OF SURVEY STREET OR ROADWAY MARKERS
The Contractor shall not destroy, remove, or otherwise disturb any existing survey
markers or other existing street or roadway markers without proper authorization. No
pavement breaking or excavation shall be started until all surveyor other permanent
marker points that will be disturbed by the construction operations have been
properly referenced for easy and accurate restoration. It shall be the Contractor's
responsibility to notify the Owner of the time and location that Work will be done.
Such notification shall be sufficiently in advance of construction so that there will be
no delay due to waiting for survey points to be satisfactorily referenced for
restoration.
1.06 EXISTING UTILITIES AND IMPROVEMENTS
A. Maintaining in Service: All oil and gasoline pipelines, power, and telephone or other
communication cable ducts, gas and water mains, irrigation lines, sewer lines, storm
drain lines, poles, and overhead power and communication wires and cables
encountered along the line of the Work shall remain continuously in service during all
the operations under the Contract, unless other arrangements satisfactory to the
Engineer are made with the owner of said pipelines, duct, main, irrigation line, sewer,
storm drain, pole, wire or cable.
B. The Contractor shall protect all underground utilities and other improvements which
may be impaired during construction operations. It shall be the Contractor's
responsibility to ascertain the actual location of all existing utilities and other
improvements that will be encountered in its construction operations, and to see that
such utilities or other improvements are adequately protected from damage due to
such operations. The Contractor shall take all possible precautions for the protection
of unforeseen utility lines to provide for uninterrupted service and to provide such
special protection as may be necessary.
C. Where the proper completion of the Work requires the temporary or permanent
removal, or relocation of an existing utility or other improvement which is shown, the
Contractor shall contact the utility owner and proceed as specified in Section 01160 -
Alteration of Existing Facilities.
D. Unrecorded Underground Utilities or Improvements
1. Plans show features of topography and underground utilities, but do not purport
to show in complete detail all such lines or obstructions.
2. Existing utilities shown on Drawings are based upon available records. Data
regarding existing utilities is presented for Contractor's convenience only, and
shall not be used as a basis for claims of extra compensation.
3. Examine available records and make exploratory excavations whenever.
necessary to determine locations of existing pipes, valves, or other underground
improvements.
January 2010
01150-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PROTECTION OF EXISTING FACILITIES
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4. Take prudent precautions not to damage unrecorded underground utilities and
improvements.
5. If unrecorded underground utilities or other improvements are encountered,
immediately notify the Engineer and inform the Engineer of the conditions
encountered. Include written report of conditions encountered with Progress
Schedule covering period in which unrecorded underground utilities or
improvements were encountered. Provide unscheduled impact on CPM schedule
for each occurrence. If unrecorded underground utilities or improvements conflict
with Work, changes shall be made under the terms of the Agreement. Changes
to the Work shall be as approved by the Owner.
6. The Contractor shall contact the affected utility owner and proceed as specified in
Section 01160 - Alteration of Existing Facilities.
1.07 TREES WITHIN STREET RIGHTS-OF-WAY AND PROJECT LIMITS
A. The Contractor shall exercise all necessary precautions so as not to damage or
destroy any trees or shrubs, and shall not trim or remove any trees unless such
trees have been approved for trimming or removal by the jurisdictional agency or
owner.
B. All existing trees and shrubs which are damaged during construction shall be
repaired or replaced by the Contractor as specified in Section 01160 - Alteration
of Existing Facilities.
1.08 NOTIFICATION BY THE CONTRACTOR
Prior to any excavation in the vicinity of any existing underground facilities including
all water, sewer, storm drain, gas, petroleum products or other pipelines; all buried
electric power, communications or television cables; all traffic signal and street
lighting facilities; and all roadway and state highway rights-of-way, the Contractor
shall notify the. respective authorities representing the owners or agencies
responsible for such facilities not less than 3 days nor more than 7 days prior to
excavation so that a representative of said owners or agencies can locate their
facilities or be present during such work if they so desire.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
01150.3
NCWRF COMPLIANCE ASSURANCE PROJECT
PROTECTION OF EXISTING FACILITIES
SECTION 01160
ALTERATION OF EXISTING FACILITIES
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures for alterations and restoration.
1.02 SITE AND BUILDINGS
A. Site Visit
1. Prior to submission of Bids, the Contractor shall have visited the site and
thoroughiy acquainted himself with the exact nature of the work indicated on the
Drawings and the Specifications requirements. Failure to comply with the
aforementioned requirements shall not constitute a basis for claims for
additional compensation.
B. Measurements and Notice
1. Prior to ordering any materials or doing any work, the Contractor shall verify all
measurements, dimensions and other conditions of each building scheduled for
work as may be necessary or required in connection with his work. The
Contractor shall be responsible for the correctness of same. Provide three
working days notice to the Owner prior to commencing cutting or alterations.
1.03 SUBMITTALS
A. General: as specified in Section 01330 - Submittals.
B. In addition, submit the following:
1. Written request for authorization to perform cutting or alteration.
a. Submit written request in advance of cutting, restoration, or alteration which
affects:
(1) Structural integrity of any element of Project
(2) Integrity of weather-exposed or moisture-resistant element.
(3) Efficiency, maintenance, or safety of any operational element
(4) Visual qualities of sight-exposed elements.
(5) Work of Owner or separate contractor.
b. Include in request:
(1) Identification of Project
January 2010
01160.1
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
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(2) Location and description of affected work.
(3) Necessity for cutting, restoration, or alteration.
(4) Description of proposed work, and products to be used.
(5) Alternatives to cutting, restoration, or alteration.
(6) Effect on work of Owner or separate contractor.
(7) Written permission of affected separate contractor.
(8) Date and time that work will be executed.
2. Shop drawings for fabricated items to be used in alterations and restoration.
3. Product data for items and materials to be used in alterations and restoration.
4. Request for substitution as specified in Section 01600 - Material and Equipment
1.04 SHORING, UNDERPINNING AND BRACING
A. When necessary and required, the Contractor shall provide underpinning and
temporary shoring and bracings, all in accordance with code requirements, and as
approved by the Engineer. The underpinning, shoring and bracing shall be based
on calculations and drawings provided by a Florida licensed P.E. Submit
calculations and drawings for the Engineer for review prior to commencing work.
B. Shoring and bracing shall be of such form and so installed as to safely support the
work and interfere as little as possible with the progress of the work. Suitable
means shall be provided to adjust any settlement in the shorings supports.
Temporary shoring shall consist of sound timbers or rolled shapes of required
dimensions which shall be removed after necessity for same ceases to exist. All
work removed or damaged through installation of temporary shoring or through
improper shoring shall be replaced or repaired after the shoring is removed, at no
additional cost to the Owner.
1.05 WORK PREPARATION AND TEMPORARY ACCESS
A. The Contractor, before commencing work, shall prepare and submit for approval a
progress schedule in accordance with the requirements of Section 01330,
"Submittals", in order to coordinate the work of all trades and to insure completion
on or before the completion date. The Owner and the Engineer reserve the right to
revise or modify such schedules as required to expedite each phase of work and to
coordinate such work with the partial use of the building for purposes as directed.
B. No facility such as toilets, corridors, etc., shall be barricaded or access restricted
without providing other temporary or interim means of access. It is further required
that no work specified hereinafter shall disturb or interfere with the operation of the
existing mechanical installation until proposed new work has been completed or
satisfactorily installed. Exception may be made to this requirement only by written
approval from the Owner and Engineer.
01160.2
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
January 2010
C. Detailed sequence of availability of areas within the present buildings where work is
to be performed under each Contract shall be in accordance with Section 01140,
Maintenance of Utility Operations, but may be modified by the Contractor, upon
authorization by the Owner and Engineer as the work progresses.
D. Existing built-in equipment to remain in the final work, but requiring temporary
removal for the installation of new construction, alterations, repairs and/or
renovations, shall be disconnected by the Contractor and removed to temporary
storage areas designated by the Owner. Resetting of existing equipment under
this heading shall be performed by the Contractor including connecting to electric
service lines.
E. The Contractor shall furnish and install all temporary fire exists, fire extinguishers,
hose and safety devices as may be required by authorities having jurisdiction.
F. Work within existing buildings to be performed, once started, shall be completed as
quickly as practicable and each trade shall determine before work is started that all
required materials are at hand or readily obtainable to avoid delays.
G. Shutdowns of existing services within existing bUildings which may be occupied
during construction will be permitted only upon written approval by the Owner
subject to at least three weeks notice in writing to the Owner in each case.
Shutdowns will be limited to times which will result in the least interference with
normal operations.
1.06 EXISTING UTILITIES AND IMPROVEMENTS
A. General
1. Ascertain the actual location of existing utilities and improvements that will be
encountered.
2. Protect existing utilities and improvements.
3. Supervise and observe excavation operations.
B. Public Utilities and Franchise Utilities (Utilities)
1. General: Do not interrupt service of any utility without notification and approval
of applicable utility.
2. Work in Public Right-of-Way and Utility Easements: The Contractor shall inform
affected utilities as specified in Section 01150 - Protection of Existing Facilities.
3. Work on Owner's Property
a. Notify the Engineer prior to performing excavations in areas where existing
utilities may by encountered.
b. Do not perform excavations until underground utilities have been located by
utilities having property in the area to be excavated.
January 2Q1 0
01160-3
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
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4. Relocation of Utility Property
a. If is necessary to relocate the property of any utility, the utility property will
be relocated by the applicable utility unless otherwise shown or specified.
b. If utility property is shown or specified to be relocated by the Contractor,
relocate utility property in accordance with the written instructions or
recommendations of the applicable utility.
c. Notify Engineer and applicable utility a sufficient time In advance of
relocation for the following:
(1) Measures to be taken which prevent, or minimize, interruption of
service.
(2) Scheduling of personnel to perform, observe, or perform and observe
relocation.
d. Provide access to applicable utility personnel, vehicles, and equipment
required to perform, observe, or perform and observe relocation of utility
property.
5. Repair of Utility Property
a. If service of utility is interrupted or property of utility is damaged without
notification and approval of applicable utility, immediately notify Engineer,
Owner, and affected utility.
b. Service interruption and property damage shall be corrected and repaired
by affected utility, unless otherwise approved by Engineer and affected
utility.
c. Repairs by Contractor shall be done in accordance with instructions of the
affected utility. All repairs shall be subject to inspection and approved by an
authorized representative of the utility before being concealed by backfill or
other work.
d. Repairs and fines related to unscheduled interruptions, or damage shall be
paid by the Contractor with no additional cost to the Owner.
C. Owner's Utilities, Process Piping, and Improvements
1. General
a. Do not interrupt service of Owner's existing utilities, process piping, or other
improvements without 7 days prior notification and written approval of
Engineer.
b. Interruptions of Owner's utilities, process piping, and other improvements
shall be minimized and shall meet the requirements of Sections 01110,
01120 and 01140.
01160-4
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
January 2010
2: Repair of Owner's Utilities and Improvements
a. If Owner's utilities, process piping, or other improvements are interrupted or
damaged without notification and approval, immediately notify Engineer and
Owner.
b. Unscheduled service interruption damage shall be repaired as follows:
(1) Contractor shall take immediate actions to shut off flows, shut off
pumps, shut off equipment, and contain spills as applicable to the
event.
(2) Engineer shall direct Contractor to make repairs, assist Owner in
making repairs, or provide access to event site for Owner to make
repairs.
c. Repair work by Contractor shall meet the requirements of the Owner.
d. Repairs and fines related to unscheduled interruptions, or damage shall be
paid by the Contractor with no additional cost to the Owner.
PART 2 - PRODUCTS
2.01 PRODUCTS FOR ALTERATIONS AND RESTORATION
A. Type and Quality of Existing Products: Determine by inspecting and testing existing
products where necessary, referring to existing work as a standard.
B. Products for Restoration: Products identical to, or equal to, products used in existing
work when new.
C. Products for Alterations: As specified in individual product specification Sections
applicable to products.
PART 3 - EXECUTION
3.01 EXAMINATION
A. Inspect existing conditions, including elements subject to damage or movement
during alteration, restoration, or alteration and restoration.
B. Remove debris and abandoned items from areas of alteration and renovation work
and from concealed spaces.
C. Verify that demolition is complete.
D. Verify that areas are ready for installation of new work.
January 2010
01160.5
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
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E. Beginning of restoration work or alteration work means acceptance of existing
conditions.
3.02 PREPARATION
A. Provide supports to assure structural integrity of surroundings. If supports are
provided for structural members, details and calculations must be prepared by a
Florida licensed P.E. and submitted for review prior to commencing installation of
such supports.
B. Close openings in exterior surfaces so that existing work and salvage items are
protected from weather and extremes of temperature and humidity. Insulate
ductwork and piping to prevent condensation in exposed areas.
C. Maintain excavations free of water.
D. Provide barriers, covers, and other protection required to prevent structural
elements, equipment, piping, conduit, paving, finishes, and other adjacent
improvements from being damaged.
E. Cut, move, or remove items as necessary for access to alterations and renovation
work. Replace and restore at completion.
F. Remove unsuitable material not marked for salvage, such as rotted wood, corroded
metals, and deteriorated masonry and concrete.
G. Remove and cut work so that damage is minimized. Remove and cut work to
provide a means of restoring products and finishes as follows:
1. If products, finishes, or products and finishes are specified, restore work to
specified condition.
2. If products, finishes, or products and finishes are not specified, restore work to
original condition.
H. Remove surface finishes and prepare surfaces to provide for proper installation of
new work and finishes.
3.03 OPENINGS IN CONCRETE AND MASONRY
A. Rectangular Openings
1. Where new rectangular openings are to be made in concrete or masonry walls
or floors, score edges of each opening. Score both sides of exposed walls and
elevated slabs. Score concrete and masonry by saw cutting clean, straight lines
to a minimum depth of one inch. After scoring concrete and masonry, chip out
concrete and masonry, or saw cut completely through slab or wall to remove
concrete and masonry. Do not allow saw cuts deeper than one inch, or the
depth of cover over existing reinforcing steel, whichever is less, to extend
beyond limits of new opening. Make corners square and true by combination of
core drilling, chipping, or grinding. Do not leave any rough edges.
January 2010
01160-6
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
2. Repair saw cuts beyond new opening by filling saw cut with non-shrink grout.
3. Chip back concrete around reinforcing steel exposed by cutting. Expose
reinforcing steel a minimum of 1-1/2" from finished face of new opening. Cut
exposed steel, coat ends with corrosion inhibitor, and fill cavities with an
approved non-shrink grout unless noted otherwise.
4. Grout inside face of new opening so that voids are filled and exposed aggregate
is covered. Finish grout $0 that opening is level, plumb, and square.
B. Circular Openings (Unless noted otherwise on the drawings)
1. Where circular openings larger than 36" diameter are required in existing
concrete walls and slabs for the installation of pipe, make openings by core
drilling and chipping.
2. Cut exposed reinforcing steel 1-1/2" from concrete surface.
3. Fill void between interior face of opening and exterior of pipe with an approved
non-shrink grout so that there are no leaks around pipe or opening.
C. Grout shall be of proper color and finish to match existing surface color, finish and
texture. Submit grout to Engineer for approval pior to procurement or installation.
Provide coating system for similar concrete or masonry in Section 09850 - Paints
and Coatings.
3.04 PLUGGING OPENINGS
Plug openings in wall, floors, and ceilings resulting from removal of existing equipment,
piping, and conduit. Plug openings in a manner that will result in a structurally suitable
seal and a neat and presentable appearance.
3.05 CUTTING PIPE AND CONDUIT
A. Where new piping is to be connected to existing piping, cut existing piping square.
Properly prepare ends of pipe for connection indicated on the drawings. Repair
damage to lining and coating of existing piping resulting from cutting.
B. Where existing piping or conduit is to be removed or abandoned in place, cut
existing piping or conduit square or disconnect piping or conduit at an existing joint.
Seal exposed ends of abandoned connections with plugs, caps, or blind flanges
suited for material, type, and service of pipe or conduit.
3.06 WASTEWATER DEWATERING
A. Cut, disconnect, and remove existing wastewater, sludge, grit, and drain pipelines
and tanks as required to complete the work.
B. Contain and dispose of wastewater, grit and sludge from tanks and pipelines cut or
disconnected during construction. Containment shall meetregulatory requirements.
January 2010
01160.7
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
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Provide temporary pumps and piping required to pump wastewater and sludge to an
on-site wastewater basin or sanitary sewer as designated by the Engineer.
3.07 REPAIR OF STRUCTURAL STEEL
A. Where existing structural steel members are removed or modified, repair remaining
steel members which are damaged by construction activities or corrosion.
B. Prepare surfaces of repaired members and coat repaired members as specified in
Section 09850 - Paints and Coatings.
3.08 DOORS, PASSAGEWAYS, AND WINDOWS
A. Dress jambs, sills, and heads of new doors, passageways, windows, or other
openings cut into existing walls and slabs. Dress jambs, sills, and heads of new
doors, passageways, windows, or other openings with new masonry, concrete, or
metal.
B. Finish jambs, sills, and heads so that only finished edges and surface are exposed,
Provide a smooth finished appearance.
3.09 TRANSITIONS
A. Where new work abuts or aligns with existing, perform a smooth and even transition.
Patch work to match existing adjacent work in texture and appearance.
B. Where removal of partitions or walls results in adjacent spaces becoming one,
rework floors, walls, and ceilings to a smooth plane without breaks, steps, or
bulkheads. Trim existing doors as necessary to clear new floor finish. Refinish trim
as required.
C. When finished surfaces are cut so that a smooth transition with new work is not
possible, terminate existing surface along a straight line at a natural line of division
and make recommendation to Engineer for transition from existing surface to new
surface.
3.10 REPAIR OF DAMAGED SURFACES
A. Repair surfaces of walls or floors which are exposed by removals or demolition and
which have holes, scars, chipped, or other damage revealed by removal or
demolition.
B. Patch or replace portions of existing surfaces which are damaged, lifted, discolored,
or showing other imperfections.
C. Repair substrate prior to patching finish.
3.11 FINISHES
A. Refinish visible existing surfaces to remain in renovated rooms and spaces, to
specified condition for each material, with a neat transition to adjacent finishes.
01160-8
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
January 2010
B. Finish patches to product uniform finish and texture over entire area.
C. When finish cannot be matched, refinish entire sUlface to nearest intersections.
D. Finish surfaces as specified in individual Product Sections.
3.12 PAVEMENT RESTORATION
A. Restore pavement removed, cut, or damaged during construction.
B. If edges of pavement surface remaining are jagged or broken, saw cut surface
course so that the pavement edge is clean, sound, and vertical.
C. Restore pavement as follows:
1. If pavement restoration detail is shown on the Drawings, restore pavement as
shown in detail.
2. If no restoration details are shown on the Drawings, replace pavement with
similar materials and of equal thickness to match existing undisturbed
pavement.
3. Restoration of payment to comply with Collier County DOT Standards and
Utilities Standards Manual, latest editions with revisions.
D. Following restoration or pavement cuts, overlay pavement.
1. If extent of overlay is shown on the Drawings, provide overlay as shown on
Drawings.
2. If extent of overlay is not shown on the Drawings, provide continuous surface
course overlay over all of the pavement cuts with 10' minimum overlap of
existing pavement at each end of overlay.
3. Restoration of payment to comply with Collier County DOT Standards and
Utilities Standards Manual, latest editions with revisions.
3.13 SIDEWALK RESTORATION
A. Restore sidewalks removed, cut, or damaged during construction.
B. Saw cut sidewalk at existing joint. If there are no existing joints, saw cut sidewalk
perpendicular to the side of the sidewalk. Saw cut sidewalk so that the sidewalk
edge is clean, sound, and vertical.
C. Replace sidewalk with similar materials and of equal thickness to match existing
undisturbed sidewalk.
D. Sidewalk restoration shall comply with Collier County DOT Standards and Utilities
Standards Manual, latest editions with revisions.
January2010
01160.9
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILl1Y
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3.14 REPLACEMENT AND REPAIR OF TREES AND SHRUBS
A. Replace damaged trees and shrubs if damaged trees and shrubs if damaged plants
cannot be repaired without destroying the value of the plants as screening or
landscaping.
B. Replacement of Trees and Shrubs
1. Replacement piants for native varieties shall be same variety as plants removed.
2. Replacement plants for exotic varieties shall be native varieties.
3. Replacement plants shall be equal in size to plants removed or 1.5 times total
diameter of removed plants if replacement plants are smaller than plants
removed.
C. Repair of Trees and Shrubs.
1. PreselVe symmetry of trees and shrubs.
2. Do not leave stubs, splits, or torn branches.
3. Make clean cuts close to trunk or large branch.
4. Coat cuts over 1-1/2" in diameter with asphaltic emulsion material.
3.15 DUST-PROOF PARTiTIONS
A. The Contractor shall furnish and erect all necessary temporary dust-proof partitions
where required to protect unaltered portions of existing buildings and structures or as
directed by the Owner or Engineer.
B. Partitions shall be constructed of wood studs with plywood on both sides. Partitions
shall extend from floor to ceiling with a closure plate at floor and ceiling. The
Contractor shall furnish and install one door in each enclosure complete with
hardware attached and keyed as directed. Such enclosures will be required in areas
of major demolition work and for protection of existing equipment.
3.16 WEATHER PROTECTION
A. Where exterior walls or roofs are being altered, or disturbed for any adjacent
alteration, the Contractor shall provide temporary weather protection in those areas
to keep interior of buildings absolutely dry and unaffected by the weather. The
Contractor will be held responsible for any damage caused by improper protection
against weather.
B. Where existing exterior walls or roofs are disturbed due to alterations, disturbances
shall be kept to a minimum and walls or roofs shall be repaired and patched in such
a manner that the buildings will be absolutely watertight and meet the conditions of
the existing roofing flashing and waterproofing bonds and guarantees.
January 2010
01160.10
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
3.17 CUTTING, PATCHING, REPAIRING, AND REFINISHING - GENERAL
A. The Contractor shall be responsible for cutting all openings in walls, floors and
ceilings (indicated to remain) to accommodate alteration work under his Contract in
accordance with the requirements of the General Conditions, Supplemental
Conditions, and as hereinafter specified. Rough patching and all finish patching
shall be by the Contractor.
1. Where new openings are to occur in existing exterior and interior concrete and
masonry bearing walls and structural concrete floor, the Contractor will be
required to notify the Owner and Engineer in writing at least five full work days
prior to commencing the cutting and shall obtain approval prior to cutting
operations. The Engineer will determine whether such openings affect the
structural stability or load bearing capacities of walls and floors.
2. All holes and openings to be cut in existing walls, floors and ceilings of any
nature shall be geometrically correct and no larger than necessary to
accommodate the new work.
3. No cutting of finished or structural work may be done without the approval of the
Engineer.
B. Major demolition and removal work such as demolition of buildings and structures,
complete or nearly complete removal of floors, walls and ceilings indicated on the
Drawings, shall be performed by the Contractor. The Contractor shall also be
responsible for all finish patching operations of holes and openings in existing floors,
walls, ceilings and roofs to accommodate the alteration work under the Plumbing,
HVAC and Electrical Sections as well as that required for the Contractor's work
hereinafter specified.
C. Each Contractor and/or his Subcontractors shall provide sleeves, forms and inserts
for installation by the General Contractor as specified in Section 01010, Summary of
Work.
3.18 EXISTING EQUIPMENT AND FURNISHINGS
A. Existing built-in equipment to remain in the final work and requiring temporary
removal shall be as specified under this Section.
B. Existing appliances and portable equipment such as desks, chairs, tables, etc., shall
remain the property of the Owner and will be removed from rooms and spaces to be
altered by the Contractor prior to construction and alteration operations, and stored
where directed by the Owner.
C. All unsalvageable equipment shall become the property of the Contractor in
accordance with the requirements of Section 02220 and shall be removed from each
building and away from the site. Equipment to be retained, or relocated, shall be as
shown on the Drawings or as specified.
3.19 SCHEDULE OF INTERIOR FINISHES FOR EXISTING BUILDINGS
January 2010
01160.11
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
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A. Unless otherwise specified, all. materials required for the work in the existing
buildings shall be new, and where required shall match existing adjacent finishes.
B. As indicated on the Drawings, specified or otherwise required to complete the work,
the Contractor shall cut new openings and block up existing openings in floors, walls,
partitions and ceilings; remove existing floors; remove, relocate existing and/or install
new windows, doors, frames, transoms, access doors, partition sash and trim.
C. The Contractor shall remove window sash, frame, sill, stool and trim at exterior door
openings to be blocked up; remove door, frame and trim and, unless otherwise
hereinafter specified or indicated on the Drawings to be blocked up with other
materials, window and door openings shall be blocked up with brick and/or masonry
block.
1. At door, sash and other openings in interior partitions and wall to be closed,
block up such openings with same materials and construction as adjacent,
unless otherwise indicated on the Drawings. Plaster and finishes applied at
blocked up openings shall finish even and straight, flush with and of the same
texture or other surface characteristics of existing adjacent finishes.
D. Existing finishes or subfloor surfaces which are scheduled to receive new floor
finishes shall be repaired, patched with concrete, asphalt latex type emulsion and
underlayment as required to suit existing surfaces or the new floor surfacing material
to be applied.
E. Concrete and floors disturbed by alterations shall be patched to finish even, straight
and flush with adjacent surfaces.
F. Where new ceramic tile flooring or base is to be installed over present concrete
floors or base, and where a cove exists at the floor, the Contractor shall cut away
part of the cove by grinding or other approved means to the extent required for
installation of the new flooring or base.
G. Existing partitions to be removed shall be removed for their entire height.
H. Where existing bases and other trim are removed and grounds are exposed and will
not be covered by new finishing materials such as resilient base, new trim, or wall
covering, grounds shall be removed and wall surfaces patched with piaster to
finished even, straight and flush with adjacent existing plaster surfaces. Where
existing plaster ceilings are scheduled to be removed, the ceilings shall be replaced
with new metal furring, lathing and plaster finish or acoustical ceilings or other ceiling
system as indicated on the Drawings.
I. Where partitions or walls are removed and existing ceiling on each side of the
partition or wall is to remain, the gap shall be patched; a vertical break shall be
provided if the ceilings are at different levels. Where the ceiling on one side is to
remain and a new ceiling is scheduled for the area on the other side, the new ceiling.
shall be constructed so that the new and existing finished ceiling areas will be at the
same level.
01160.12
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILITY
January 2010
J. Existing floors, walls and ceilings shall be cut as required for removal of existing
services and for installation of new plumbing, heating, ventilating and air
conditioning, and electrical work and related piping, duct work, conduits, fixtures and
equipment.
K. In addition to work specifically called for in the finish schedule on the Drawings, all
finishes disturbed in the performance of any alterations or new work by a Contractor
shall be patched or repaired to match existing surfaces or finishes. Holes, slots,
chases, etc., in floors, walls and ceilings left by the removal of existing, or installation
of new piping, plumbing fixtures, radiators, duct work, registers, grills, conduit,
receptacles, switches, lighting fixtures and other items of the other Contracts shall
also be patched or repaired by the Contractor.
L. Existing spaces not listed on the finish schedule on the Drawings may require no
work other than complete painting and patching by the Contractor of surfaces
damaged in performance or any work included under this Contract.
END OF SECTION
January 2010
01160'13
NCWRF COMPLIANCE ASSURANCE PROJECT
ALTERATION OF EXISTING FACILl1Y
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SECTION 01200
PROJECT MEETINGS
PART 1 - GENERAL
1.01 PRECONSTRUCTION MEETING
A. A preconstruction meeting will be held after Award of Contract, but prior to starting work at
the site. The Engineer shall prepare and distribute the meeting agenda and shall preside at
the meeting. The Engineer shall record and distribute minutes of the proceedings and
decisions.
B. Attendance:
1. Owner
2. Engineer
3. Contractor
4. Major subcontractors
C. Minimum Agenda:
1.
Tentative construction and submittal schedules
2.
Critical work sequencing
3.
Designation of responsible personnel
4.
Processing of Field Decisions and Change Orders
5.
Adequacy of distribution of Contract Documents
6.
Submittal of Shop Drawings and samples
7.
Procedures for maintaining record documents
8.
Use of site and Owner's requirements
9.
Major equipment deliveries and priorities
10.
Safety and first aid procedures
11.
Security procedures
12.
Housekeeping procedu res
13.
Processing of Partial Payment Requests
January 201 0
NCWRF COMPLIANCE ASSURANCE PROJECT
PROJECT MEETINGS
01200.1
14. General regard for community relations
1.02 PROGRESS MEETING
A. Progress meetings will be held biweekly at the Engineers Field Office during the
performance of the work ofthis Contract. Additional meetings may be called as progress of
work dictates.
B. Engineer will prepare and distribute agenda, preside at meetings and record minutes of
proceedings and decisions. Engineer will distribute copies of minutes to participants.
C. Attendance:
1 . Owner
2. Engineer
3. Contractor
4. Subcontractors, only with Engineer's approval or request, as pertinenttothe agenda
D. Minimum Agenda:
1. Review and approve minutes of previous meetings.
2. Review progress of Work since last meeting.
3. Review proposed 30-60 day construction schedule.
4. Note and identify problems which impede planned progress.
5. Develop corrective measures and procedures to regain planned schedule.
6. Revise construction schedule as indicated and plan progress during next work
period.
7. Maintaining of quality and work standards.
8. Complete other current business.
9. Schedule next progress meeting.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
PROJECT MEETINGS
01200.2
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SECTION 01310
CONSTRUCTION PROGRESS SCHEDULES
PART 1 - GENERAL
1.01 DESCRIPTION
A. Scope of Work:
1. Promptly after award of the Contract, prepare and submit to the Engineer
estimated construction progress schedules demonstrating complete
fulfillment of all Contract requirements utilizing a Critical Path Method
(hereinafter referred to as CPM) in planning, coordinating, and performing the
Work under this Contract (including all activities of subcontractors, equipment
vendors, and suppliers). The principles and definition of CPM terms used
herein shall be as set forth in the Associated General Contractors of America
(AGe) publication, Construction Planninq & Schedulinq Manual, Copyright
1984. but the provisions of this Specification shall govern the planning,
coordinating, and performance of the Work.
2. Submit revised progress schedules on a monthly basis. No partial payments
shall be approved until there is an approved construction progress schedule
on hand.
B. Related Requirements Described Elsewhere:
1. Conditions of the Contract.
2. Summary and Sequence of Work: Sections 01110 and 01120.
3. Project Meetings: Section 01200.
4. Applications for Payment: Section 01027
5. Shop Drawings, Working Drawings, and Samples: Section 01330.
6. Schedule of Values: Section 01130.
1.02 QUALIFICATIONS
A. A statement of computerized CPM capability shall be submitted in writing prior to
the award of the Contract and shall verify that either Contractor's organization
has in-house capability to use the CPM technique or that Contractor will employ
a CPM consultant who is so qualified.
B. In-house capability shall be verified by description of construction projects to
which Contractor or Contractor's consultant has successfully applied
computerized CPM and shall include at least two (2) projects valued at least half
the expected value of this project.
1.03 FORM OF SCHEDULES
January 2010
01310.1
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
A. Prepare schedules in the form of a horizontal bar chart printed in color with logic
constraints shown.
1. Provide a separate horizontal bar for each trade or operation within each
phase or structure.
2. Horizontal time scale:
a. Show starting and completion dates for each activity in terms of the
number of days after Notice to Proceed. All completion dates shown shall
be within the period specified for contract completion.
b. Identify the first work day of each month.
3. Scale and Spacing: Sufficient to allow space for notations and future
revisions.
4. Maximum Sheet Size: 11 inches by 17 inches.
B. Format of Listings: The chronological order of the start of each item of work for
each phase or structure.
C. Identification of Listings:' By project phase as applicable and by structure.
D. Construction Progress Schedules shall be computer generated using software
equal to Microsoft Project or approved equal.
1.04 CONTENT OF SCHEDULES
A. Construction Progress Schedule:
1. Show the complete sequence of construction by activity and by structure.
2. Show the dates for the beginning and completion of each major element of
construction in no more than a 2 week increment scale. Specifically list, but
do not limit to:
a. Shop Drawing Schedule.
b. Installation of temporary facilities.
c. Site clearing.
d. Site utilities.
e. Structural work.
f. Subcontractor work.
g. Equipment installations.
h. Instrumentation.
I. Electrical.
j. Operator training and furnishing operation and maintenance manuals.
k. Equipment Testing.
I. Equipment and process start-up.
m. Receipt of spare parts.
n. Project closeout.
01310-2
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
January 201 0
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3. Contract Allowances and Construction Schedule
a. As part of Bid Item 2, the Contractor shall include an allowance in the
original schedule to accomplish Owner Directed Work. The allocated time
in the pre-construction schedule for Bid Item 4B and 4C shall be 120
calendar days (10 days per aeration basin).
b. The initial submittal of the construction schedule shall include appropriate
activity(ies) for each MLE aeration basin to complete Owner Directed
Work and the duration of the activity(ies) shall be 10 calendar days.
c. The Contractor shall plan, coordinate and complete all work associated
with Bid Items 1 through 4 within the Contract Time.
4. Provide project phase for each schedule activity. Project phases include the
following: Pretreatment Odor Control, MLE Odor Control, MLE Aeration
Upgrades, Ponds Lining and Repairs, other Pond Upgrades, South-to-North
Reuse Interconnect, North Bleach System, Potable Water Service, Electrical
Building Modifications and Site Work.
5. Provide responsibility identifier for each scheduled activity. Special
responsibility codes shall include, as a minimum, each major subcontractor (>
2% of Contract Cost), Owner furnished equipment, and witnessed startup and
testing.
6. Show projected percentage of completion for each item, as of the first day of
each month.
7. Show projected dollar cash flow requirements for each month of construction
and for each activity as indicated by the approved Schedule of Values.
B. Submittals for construction progress schedules shall be in accordance with
Section 01330. Indicate on the schedule the following:
1. The dates for all Contractor submittals, including O&M manuals.
2. The date's submittals will be required for Owner-furnished products, if
applicable.
3. The dates approved submittals will be required from the Engineer.
C. A typewritten list of all long lead items (equipment, materials, etc.).
D. To the extent that the progress schedule or any revised progress schedule
shows anything not jointly agreed upon or fails to show anything jointly agreed
upon, it shall not be deemed to have been approved by the Engineer. Failure to
include any element of work required for the performance of this Contract shall
not excuse the Contractor from completing all work required within any applicable
completion date, notwithstanding the Engineer's approval of the progress
schedule.
January 2010
01310.3
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
E. Scheduling Constraints: The Work must be completed within the maximum
number of days, start to finish, as indicated in the Contract. Additionally, work
must proceed on a continuous basis, without stoppages, except for nights and
. weekends. There shall be no lapses between phases of construction.
1.05 PROGRESS REVISIONS
A. Indicate progress of each activity to date of submission.
B. Show changes occurring since previous submission of schedule:
1. Major changes in scope.
2. Activities modified since previous submission.
3. Revised projections of progress and completion.
4. Other identifiable changes.
C. Provide a narrative report as needed to define:
1. Problem areas, anticipated delays, and the impact on the schedule,
2. Corrective action recommended, and its effect.
3. The effect of changes on schedules of other prime contractors.
D. If the Work falls behind the critical path schedule by 2 weeks or more, the
Contractor shall prepare a recovery schedule.
E. Each updated schedule shall be accompanied by a signed statement from the
Contractor identifvinQ and describinQ all chanQes to 10Qic, duration or activities
made since the last schedule submission.
1.06 SUBMISSIONS
A. Submittal Requirements.
1. Logic network and/or time-phased, color bar chart, computer generated.
2. Computerized network analysis:
a. Sort by early start for entire project and for each project phase.
b. Sort by float for entire project and for each project phase.
c. Sort by responsibility code.
d. Sort by predecessor/successor.
3. Narrative description of the logic and reasoning of the schedule.
B. Time of Submittals.
Within 10 working days after Notice to Proceed, Contractor shall submit a
network diagram describing the activities to be accomplished in the project and
their dependency relationships, (predecessor/successor) as well as a tabulated
schedule as herein defined. The total length of time indicated on the initial CPM.
schedule shall equal the exact number of days in the Contract Time. The
01310.4
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
Janua'Y 2010
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schedule produced and sUQmitted shall also indicate calendar dates, including
project starting and completion dates, based on the Contract Commencement
and completion dates indicated in the Notice to Proceed. The Engineer will
complete the review of the complete schedule within 15 working days after
receipt. During the review process, the Engineer may meet with a representative
of Contractor to review the proposed plan and schedule to discuss any
clarifications that may be necessary.
C. Within 10 working days after the conclusion of the Engineer's review period,
Contractor shall revise the network diagram as required and resubmit the
network diagram and a tabulated schedule produced therefrom. The revised
network diagram and tabulated schedule shall be reviewed and accepted or
rejected by the Engineer within 15 working days after receipt. The network
diagram and tabulated schedule, when accepted by the Engineer, shall constitute
the project work schedule unless a revised schedule is required due to
substantial changes in the Work, a change in Contract Time or a recovery
schedule is required and requested.
D. Acceptance. The finalized schedule will be acceptable to the Engineer when, in
the opinion of the Engineer, it demonstrates an orderly progression of the Work
to completion in accordance with the Contract Documents. Such acceptance will
neither impose on the Engineer responsibility for the progress or scheduling of
the Work nor relieve Contractor from full responsibility therefore. The finalized
schedule of shop drawing submittals will be acceptable to the Engineer when, in
the opinion of the Engineer, it demonstrates a workable arrangement for
processing the submittals in accordance with the requirements. The finalized
Schedule of Values (lump sum price breakdown), as applicable, will be
acceptable to the Engineer as to form and content when, in the opinion of the
Engineer, it demonstrates a substantial basis for equitably distributing the
Contract Price. When the network diagram and tabulated schedule have been
accepted, the Contractor shall submit to the Engineer five (5) copies of the time-
scaled network diagram, five (5) copies of a computerized tabulated schedule in
which the activities have been sequenced by numbers, five (5) copies of a
computerized tabulated schedule in which the activities have been sequenced by
early starting date, and five (5) copies of a computerized, tabulated schedule in
which activities have been sequenced by total float, and five (5) copies sorted by
predecessor/successor and five (5) copies of computerized tabulated schedule in
which activities have been sorted by phase then total float.
E. Revised Work Schedules. Contractor, if requested by the Engineer, shall provide
a revised work schedule if, at any time, the Engineer considers the completion
date to be in jeopardy because of "activities behind schedule." The revised work
schedule shall include a new diagram and tabulated schedule conforming to the
requirements of Paragraph 1.09 herein, designed to show how Contractor
intends to accomplish the Work to meet the completion date. The form and
method employed by Contractor shall be the same as for the original work
schedule. No payment will be made if activities fall more than two (2) weeks
behind schedule and a revised work schedule is not furnished.
F.
Schedule Revisions.
portions of the work
The Engineer may require Contractor to modify any
schedule that become infeasible because of "activities
01310.5
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
January 2010
behind schedule" or for any other valid reason. An activity that cannot be
completed by its original latest completion date shall be deemed to be behind
schedule. No change may be made to the sequence, duration, or relationships
of any activity without approvai of the Engineer.
1.07 CHANGE ORDERS
A Upon approval of a change order, the approved changes shall be reflected in the
next scheduled revision or update submittal of the construction progress
schedule by the Contractor.
1.08 CPM STANDARDS
A. CPM, as required by this Section, shall be interpreted to be generally as outlined
in the Associated General Contractors (AGe) publication, , Construction Planninq
& Schedulinq Manual, Copyright 1984.
B. Work schedules shall include a graphic network and computerized, tabulated
schedules as described below. To be acceptable the schedule must
demonstrate the following:
1. A logical succession of work from start to finish.
2. Definition of each activity. Activities shall be identified by phase and
responsibility.
3. A logical flow of work crews/equipment (crews are to be defined by
manpower category and man-hours; equipment by type and hours).
4. Show all work activities and interfaces including submittals as well as major
material and equipment deliveries.
C. Networks
1. The CPM network, or diagram, shall be in the form of a time-scaled diagram
of the customary activity-on-type and may be divided into a number of
separate pages with suitable notation relating the interface points among the
pages. Notation on each activity line shall include a brief work description
and a duration, as described in Paragraph 1.09, D. herein.
2. All construction activities and procurement shall be indicted in a time-scaled
format, and a calendar shall be shown on all sheets along the entire sheet
length. Each activity arrow shall be plotted so the beginning and completion
dates of said activity can be determined graphically by comparison with the
calendar scale. All activities shall be shown using the symbols that clearly
distinguish between critical path activities, non-critical path activities, and float
for each non-critical activity. All non-critical path activities shall show
estimated performances time and float time in scaled fOnTI.
01310.6
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
January 2010
-" '-, "--""-"'-~,--",_-~,-',~,'-"~'.' ,,-,..
D. The duration indicated for each activity shall be in calendar days and shall
represent the single best time considering the scope of the work and resources
planned for the activity including time for inclement weather. Except for certain
non-labor activities, such as curing concrete or delivering materials, activity
durations shall not exceed 14 days nor be less than 1 day unless otherwise
accepted by the Engineer.
E. Tabulated Schedules. The initial schedule shall include the following minimum
data for each activity.
1. Activity Beginning and Ending Numbers (i-j numbers) (single activity numbers
may be used).
2. Duration.
3. Activity Description.
4. Early Start Date (Calendar Dated).
5, Late Start Date (Calendar Dated).
6. Early Finish Date (Calendar Dated).
7. Late Finish Date (Calendar Dated).
8. Identified Critical Path.
9. Total Float (Note: No activity may show more than 20 days float).
10. Cost of Activity.
11. Equipment Hours, by type; Man-Power Hours, by crew or trade.
F. Project Information. Each tabulation shall be prefaced with the following
summary data.
1. Project Name.
2. Contractor.
3. Type of Tabulation (Initial or Updated).
4. Project Duration.
5. Project Scheduled Completion Date.
6. Effective or Starting Date of the Schedule.
7. New Project Completion Date and Project Status (if an updated or revised
schedule).
8. Actual Start Date and Actual Finish Date (for all updated schedules).
1.09 SCHEDULE MONITORING AND UPDATE
A. At not less than monthly intervals or when specifically requested by Engineer,
Contractor shall submit to the Engineer a computer printout of an updated
schedule for those activities that remain to be completed. If requested by the
Engineer, the update shall also include all activities, completed and uncompleted.
Typically, the updated schedule will be submitted with the application for
payment as specified below.
B. The updated schedule shall be submitted in the form, sequence, and number of
copies requested for the initial schedule.
C. Each updated schedule shall be accompanied by a sirlned statement from the
Contractor identifyinrl and describinrl all chanrles to 10rlic, duration or activities
made since the last schedule submission.
January 2010
01310-7
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
1.10 PROGRESS MEETINGS
For the monthly progress meeting, Contractor shall submit a revised CPM schedule and
a 3 week look-ahead schedule, showing all activities completed, in progress,
uncompleted, or scheduled to be worked during the weeks. The 3 weeks include the
current week plus the next 2 weeks. All activities shall be from the approved CPM and
must be as shown on the CPM unless behind or ahead of schedule. One (1) copy ofthe
revised CPM schedule shall be submitted with each copy of that month's application for
payment, four (4) copies minimum.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
01310.8
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION PROGRESS SCHEDULES
_'_'_"_ ."~~__~_..~..~~_'_._"" _ ".._~._h_.~_,_._.. _~_._._, ,
".. ,._.,_._. _ ~__,.,...,_...__.,.h.__..~_~._..___'_
SECTION 01315
COORDINATION
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures for structural, architectural, mechanical and electrical
coordination to ensure proper selection, installation, fit and operation of all
mechanical, electrical and control devices as well as building components.
1.02 COORDINATOR
Contractor shall employ an individual or a firm, technically qualified and experienced
in field coordination for the type of work required for this Project for the duration of
the Work.
1.03 SUBMITTALS
A. General: As specified in Section 01330 - Submittals.
B. Submit name, address, and telephone number of Coordinator and, if a firm, the
name of its principal officer, to Engineer for approval.
C. Submit necessary coordination drawings and schedules prior to submitting shop
drawings, product data, and samples.
1.04 COORDINATION REQUIRED
A. Coordinate submittals for structural, architectural, mechanical and electrical
products.
B. Conduct conferences with Subcontractors and others concerned with the Work,
to establish and maintain coordination and schedules, and to resolve
coordination matters in dispute.
C. Participate in progress meetings. Report on progress of Work to be adjusted
under coordination requirements, and any required changes in schedules.
Transmit official minutes of meetings and reports to concerned parties.
1.05 DOCUMENTS FOR COORDINATION
A. Prepare necessary coordination drawings to organize installation of products for
efficient use of available space, to meet requirements of Work sequence, for
proper sequence of installation. and to identify potential conflicts.
B. Prepare a master schedule to identify responsibilities under each section of
Divisions 1 through 17 of the Specifications for activities that directly relate to
01315.1
NCWRF COMPLIANCE ASSURANCE PROJECT
COORDINATION
January 2010
mechanical and electrical coordination, including submittals and temporary
utilities:
C. Maintain documents for the duration of the Work, recording changes due to site
restrictions, modifications or adjustments.
D. After Engineer review of original and revised documents, reproduce and
distribute copies to concerned parties.
1.06 COORDINATION OF SUBMITTALS
A. Coordinate shop drawings, product data, and samples.
1. Check field dimensions and clearances and relationship to available space
and anchors.
2. Check compatibility of products with products furnished or installed under
other sections.
3. Check electrical characteristics, and operational control requirements.
4. Check motor voltages, speed, and control characteristics.
5. Coordinate controls, interlocks, power wiring, control wiring, and instrument
wiring.
6. Coordinate wiring and control diagrams.
7. Review the effect of any changes on work of other sections.
B. Verify and coordinate maintenance of Record Documents.
1.07 COORDINATION OF SUBSTITUTIONS AND MODIFICATIONS
A. Submit requests for substitutions as specified in Section 01600 - Materials and
Equipment.
B. Review proposals and requests from subcontractors,
C. Verify compatibility of substitutes with other products. Identify modifications
required to make other products compatible with substitutes.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 OBSERVATION OF WORK
A. Observe Work for structural, architectural, mechanical and electrical
coordination.
B. Maintain a list of observed deficiencies and defects and promptly report.
observed deficiencies and defects to appropriate parties,
01315.2
NCWRF COMPLIANCE ASSURANCE PROJECT
COORDINATION
January 2010
'- '-"'-"'~- ~-".~-".__.~,..~"-_." .-
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3.02 EQUIPMENT START-UP
A. Verify utilities, connections and controls are complete and equipment IS In operable
condition prior to equipment start-up.
B. Observe start-up of equipment and demonstrations to Owner.
C. Coordinate adjustments or modifications required to provide equipment and systems that
operate properly, both mechanically and electrically.
3.03 INSPECTION AND ACCEPTANCE OF EQUIPMENT
Prior to inspection, verify that equipment and systems are tested and operating properly.
END OF SECTION
01315.3
NCWRF COMPLIANCE ASSURANCE PROJECT
COORDINATION
January 2010
SECTION 01330
SUBMITTALS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures for submittals.
1.02 SCHEDULE
A Transmit submittals in accordance with approved Progress Schedule, and in
such sequence to avoid delay in the Work or work of other contracts.
B. Do not fabricate products or begin work that requires submittals until return of
submittal with Engineer acceptance.
C. Identify the appropriate specification sections and parts on each submittal.
1.03 CONTRACTOR REVIEW
A Review submittals prior to transmittal; determine and verify field measurements,
field construction criteria, manufacturer's catalog numbers, and conformance of
submittal with requirements of Contract Documents.
B. Sign each sheet of shop drawings and product data, and each sample; label to
certify compliance with requirements of Contract Documents. Notify Enqineer of
any deviations from requirements of Contract Documents in writinq at time of
submittal.
C. Identify the relevant specification sections and parts on each submittal.
1.04 SUBMITTAL REQUIREMENTS
A Apply Contractor's stamp, signed certifying to review and approval, verification of
products, field dimensions and field construction criteria, and coordination of
information with requirements of Work and Contract Documents.
B. Number each submittal sequentially beginning with 001. Each submittal shall
describe only one product or equipment Re-submittals shall use the same
number identifier with a letter suffix; e.g. 001A. Submittals shall identify the
relevant Specifications Section(s).
C. Coordinate submittals into logical groupings to facilitate interrelation of the several
items:
1. Finishes that involve Engineer selection of coiors, textures, or patterns.
2. Associated items that require correlation for efficient function or for installation.
01330.1
NCWRF COMPLIANCE ASSURANCE PROJECT
SUBMITTALS
January 2010
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D. Submit under transmittal letter. Identify Project by title and number.
E. If any submittal requires more than three reviews (normally an original and two re-
submittals), the Engineer may charge the Contractor for additional review time
based on his actual incurred time and expenses. These charges shall be
summarized for the Contractor and deducted from the Contractor's next pay
request.
F, The Contractor may expect most submittals to be reviewed within 21 calendar days
following receipt of the submittal. Certain submittals such as Owner color selection
or instrumentation may require a longer review time.
G. The submission of submittals by email may be allowed on a limited basis only
subject to prior specific approval by the Engineer. Email shall not be used for
transmission of the following submittals: (a) construction schedules, (b) electrical
submittals, (c) instrumentation submittals, (d) structural submittals, (e) any
submittal over three pages in length and (f) any submittal in color.
1.05 NUMBER OF COPIES
A. Minimum Number of Copies: Submit minimum number of copies as follows:
Submittal To Enaineer Returned to Contractor
Schedule of Submittals 5 co ies 1 c~
Pro ress Schedules 5 cooies 1c~
Shop Drawings & Product 8 copies 3 copies
Data
Crane Placement Drawings 3 each 1 each
(site specific)
Test Re orts and Sam les 3 GOoies 1 coov
Certificates of Comoliance 3 copies --
Operation and Maintenance
Data
Draft 3 copies 2 cooies
Final 6 cooies --
Reauest for Substitution 5 copies 1 coJlY...
Requests for authorization, 2 copies 1 copy
requests for information, and
other similar requests
01330.2
NCWRF COMPLIANCE ASSURANCE PROJECT
SUBMITTALS
January 2010
B. Additional Copies: If additional copies of shop drawings, product data, or shop
drawings and product data are required by the Contractor, submit up to two
additional copies to Engineer.
1.06 SCHEDULE OF SUBMITTALS
A. Submit copies of Preliminary Schedule of Submittals prior to the Preconstruction
Conference.
B. Within 10 days after Preconstruction Conference, submit the revised copies of
Schedule of Submittals
1.07 PROGRESS SCHEDULES
Submit progress schedules in accordance with Contract documents
1.08 SHOP DRAWINGS
A. Present in a clear and thorough manner. Title each drawing with Project name
and number. Transmittal letter shall reference item as listed on Submittal
Schedule.
B. Identify each element of drawings by reference to sheet number and specification
section of Contract Documents.
C. Identify field dimensions; show relation to adjacent or critical features or Work or
products.
D. Submit outline of manufacturer's representative services with Shop Drawings.
Outline of manufacturer's representative services shall include man-hours or
man-days of service to be provided for each of the following:
1. Minimum man-hours or man-days of service to be provided for installation
inspection, assistance, and certification.
2. Minimum man-hours or man-days of service to be provided for functional
testing and start-up.
3. Minimum man-hours or man-days of service to be provided for training
Owner's operation and maintenance personnel.
4. Outline of manufacturer's representative services shall identify services and
minimum man-hours, or minimum man-days, to be provided by factory
representative and by equipment supplier, or distributor.
E. Provide a Spare Parts List including both the spare parts recommended by the
equipment manufacturer for the first year of service and any spare parts specified
in the individual specification sections.
1.09 PRODUCT DATA
A. Submit only pages that are pertinent. Mark or highlight each copy of standard
printed data to identify pertinent products. Show reference standards,
January 2010
01330.3
NCWRF COMPLIANCE ASSURANCE PROJECT
SUBMITTALS
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performance characteristics, and capacities; wiring and piping diagrams and
controls; component parts; finishes; dimensions; and required clearances.
B. Modify manufacturer's standard schematic drawings and diagrams to supplement
standard information and to provide information specifically applicable to the
Work. Delete information not applicable.
1.10 SAMPLES
A Submit full range of manufacturer's standard finishes except when more
restrictive requirements are specified, indicating colors, textures, and patterns,
for Owner selection.
B. Submit samples to illustrate functional characteristics of products, including
parts and attachments.
C. Approved samples that may be used In the Work are indicated In the
Specification section.
D. Label each sample with identification required for transmittal letter.
E. Provide field samples of finishes at Project, at location acceptable to Engineer,
as required by individual Specifications section. Install each sample complete
and finished. Acceptable finishes in place may be retained in completed work.
F. Accepted samples shall establish the standards by which the completed Work
will be judged.
1.11 TEST REPORTS
Submit test reports as specified in Section 01430 - Materials Testing
1.12 CERTIFICATES OF COMPLIANCE
A Submit Manufacturer's Affidavits of Compliance as specified in Section 01600 -
Materials and Equipment.
B. Submit Manufacturer's Certificate of Compliance as specified in Section 01750
- Testing and Start Up.
1.13 OPERATION AND MAINTENANCE DATA
A Submit operation and maintenance data as specified In Section 01830 -
Operation and Maintenance Data.
1.14 LUBRICATION TEST
Submit results of lubricant testing as specified III Section 01600 - Materials and
Equipment.
1.15 SUBSTITUTIONS
01330-4
NCWRF COMPLIANCE ASSURANCE PROJECT
SUBMITTALS
JaCluary 2010
Submit requests for substitutions as specified In section 01600 - Materials and
Equipment.
1.16 REQUESTS
If there are any questions about interpretations of plans, specifications or Contract
Documents, the Contractor may submit a written request for information or a request
for clarification to the Engineer.
1.17 RESUBMITTAL
A. Make resubmittals under procedures specified for initial submittais; identify
changes made since previous submittal.
B. Identify resubmittal as a resubmittal and reference previous submittal.
C. Identify changes made since previous submittal.
1.18 DISTRIBUTION
A. Distribute reproductions of shop drawings, copies of product data, samples,
substitutions and other submittals which bear Engineer's review stamp, to job site
file, Record Documents file, subcontractors, suppliers, and other entities requiring
information.
B. Instruct recipients to promptly report any inability to comply with provisions.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
01330-5
NCWRF COMPLIANCE ASSURANCE PROJECT
SUBMITTALS
JanualY 2010
SECTION 01410
REGULATORY REQUIREMENTS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures for obtaining permits and complying with permits.
1.02 PERMITS
A. Contractor will obtain County, State and Federal permits not obtained by County,
including but not limited to building permits, South Florida Water Management
District dewatering permits, right-of-way permits, burning permits, tree removal
permits, excavation permits, demolition permits and Florida Dept. of Environmental
Protection NPDES Stormwater Pollution Prevention Plan.
B. The Contractor must file a minimum of 48 hours prior to start of construction a
Notice of Intent with the DEP.
C. Contractor shall schedule and document all inspections and re-inspections (if
needed) required by permitting agencies.
D. County will obtain the DEP and Department of Health Water/Sewer Construction
Permit, and County utilities and engineering approvals.
E. Documents:
1. County will furnish signed and sealed sets of Contract Documents for
permit applications.
2. County will furnish copies of permits obtained by County and required to
be posted on the job site. Copies of permits will be forwarded to
Contractor prior to start of construction.
3. Contractor shall furnish copies of permits obtained by the Contractor.
Forward copies of permits to the County prior to commencement of work
requiring permits.
1.03 CODES AND ORDiNANCES
A. Codes applicable to this project include, but are not necessarily limited to, the
following:
1. Standard building codes as applicable.
2. Title 29, Part 1926, Construction Safety and Heaith Requlations, Code of
Federal Regulations (OSHA), including all changes and amendments
thereto.
January 2010
01410.1
NCWRF COMPLIANCE ASSURANCE PROJECT
REGUlATORY REQUIREMENTS
3. Title 29, Part 1910. Occupational Safety and Health Standards, Code of
Federal Regulations (OSHA), including all changes and amendments
thereto.
4. Accessibility Requirements Manual, Department of Community Affairs,
Florida Board of Building Codes and Standards.
5. The Americans with Disabilities Act (ADA) 1990 36 CFR Part 1191
Architectural and Transportation Barriers Compliance Requirements.
6. NFPA 101 Life Safety Code, Latest Edition.
7. Standard Fire Prevention Code, Latest Edition.
8. State Fire Marshal's Uniform Fire Safety Rules.
B. All materials and workmanship shall confirm to local city or county ordinances.
C. If there is a conflict in regulations, codes, or regulations and codes, the more
stringent requirements shall govern.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 VERIFICATION AND CONFORMANCE
A. Conform to all requirements of all permits.
END OF SECTION
01410.2
NCWRF COMPLIANCE ASSURANCE PROJECT
REGULATORY REQUIREMENTS
January 2010
--_..~.~~.._~_.,-"-,,.__..__.,~,~------_._--
SECTION 01420
REFERENCE STANDARDS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Description of reference standards and requirements relative to reference standards.
1.02 QUALITY CONTROL
For products or workmanship specified by association, trade, or Federal Standards,
comply with requirements of the standard, except when more rigid requirements are
specified or are required by applicable codes.
1.03 REFERENCE PUBLICATiONS
A. The date of reference publications shall be the latest in effect at the time of the
award of Contract.
B. Reporting and resolving discrepancies relative to reference publications shall
be as specified in the General Conditions and Division 1 of the specifications.
C. Document precedence shall be as specified in the General Conditions.
1.04 SCHEDULE OF STANDARDS ORGANIZATiONS
AA Aluminum Association
AAMA Architectural Aluminum Manufacturer's Association
AAN American Association of Nurserymen, Inc.
AASHTO American Association of State Highway and Transportation Officials
ACI American Concrete Institute
ACPA American Concrete Pipe Association
AFBMA Anti-Friction Bearing Manufacturer's Association, Inc.
AGC Associated General Contractors of America
AGMA American Gear Manufacturer's Association
AHDGA American Hot Dip Galvanizers Association
AI Asphalt Institute
January 2010
01420.1
NCWRF COMPLIANCE ASSURANCE PROJECT
REFERENCE STANDARDS
AlA
American Institute of Architects
AISC
American I nstitute of Steel Construction
AISI
American Iron and Steel Institute
AITC
American I nstitute of Timber Construction
AMCA
Air Moving and Conditioning Association
ANSI
American National Standards Institute
APA
American Plywood Association
API
American Petroleum Institute
APHA
American Public Health Association
APWA
American Public Works Association
AREA
American Railway Engineering Association
ASA
Acoustical Society of America
ASAE
American Society of Agricultural Engineers
ASCE
American Society of Civil Engineers
ASHRAE American Society of Heating, Refrigerating, and Air-Conditioning
Engineers
ASLE
American Society of Lubricating Engineers
ASME
American Society of Mechanical Engineers
ASMM
Architectural Sheet Metal Manual
ASTM
American Society for Testing and Materials
AWPA
American Wood-Preservers' Association
AWPI
American Wood Preservers Institute
AWWA
American Water Works Association
AWS
American Welding Society
BHMA
Builders Hardware Manufacturer's Association
CMA
Concrete Masonry Association
01420.2
NCWRF COMPLIANCE ASSURANCE PROJECT
REFERENCE STANDARDS
January 2010
CRSI Concrete Reinforcing Steel Institute
DEP Florida Department of Environmental Protection
DIPRA Ductile Iron Pipe Research Association
EIA Electronic Industries Association
EJCDC Engineers' Joint Contract Documents Committee
EPA Environmental Protection Agency
ETL Electrical Test Laboratories
FDEP Florida Department of Environmental Protection
FDOT Florida Department of Transportation
FS Federal Specification General Services Administration Specification and
Consumer Information Distribution Section (WFSIS)
HI Hydraulic Institute
IEEE Institute of Electrical and Electronics Engineers
IES Illuminating Engineering Society
IMIAC International Masonry Industry All-Weather Council
IPCEA Insulated Power Cable Engineers Association
ISA Instrument Society of America
ISO International Organization for Standardization
MBMA Metal Building Manufacturer's Association
MTI Marine Testing Institute
NAAMM National Association of Architectural Metal Manufacturers
NACE National Association of Corrosion Engineers
NBS National Bureau of Standards
NEC National Electric Code
NEMA National Electrical Manufacturers' Association
NFPA National Fire Protection Association
01420.3
NCWRF COMPLIANCE ASSURANCE PROJECT
REFERENCE STANDARDS
January 2010
NRCA
National Roofing Contractor's Association
OSHA
Labor
Occupational Safety and Health Administration, Federal Department of
PCA
SBC
SOl
Portland Cement Association
Standard Building Code
Steel Door Institute
SJI
Steel Joist Institute
SMACCNA Sheet Metal and Air Conditioning Contractors National Association
SSPC
Steel Structures Painting Council
UL
WEF
Underwriter's Laboratories, Inc.
Water Environment Federation
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
01420.4
NCWRF COMPLIANCE ASSURANCE PROJECT
REFERENCE STANDARDS
- - ---- ~_._..~--_._.,-_._.-
SECTION 01430
MATERIALS TESTING
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures for testing laboratory services.
1.02 REFERENCES
A. General: as specified in Section 01420 - Reference Standards.
B. ANSIIASTM Standards
1. ANSI/ASTM D3740 Practice for Evaluation of Agencies Engaged in Testing
and/or Inspection of Soil and Rock as Used in Engineering Design and
Construction
2. ANSIIASTM E329 Practice for Inspection and Testing Agencies for
Concrete, Steel, Bituminous Materials as Used in Construction
1.03 SELECTION AND PAYMENT
A. The Contractor shall employ services of an independent testing laboratory to
perform specified inspection and testing.
B. Employment of testing laboratory shall in no way relieve Contractor of obligation
to perform work in accordance with requirements of Contract Documents.
1.04 QUALITY ASSURANCE
A. Standards: Comply with requirements of ANSI/ASTM E329 and ANSIIASTM
D3740.
B. Laboratory: Authorized to operate in State in which Project is located.
C. Laboratory Staff: Maintain a full time Registered Professional Engineer on staff
to review services.
D. Testing Equipment: Calibrated at reasonable intervals with devices of accuracy
traceable to either National Bureau of Standards (NBS) Standards or accepted
values of natural physical constants.
1.05 LABORATORY RESPONSIBILITIES
A. Test samples submitted by Contractor.
January 2010
01430-1
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIALS TESTING
B. Provide qualified personnel at site. Cooperate with Engineer and Contractor in
performance of services.
C. Perform specified inspection, sampling, and testing of Products in accordance
with specified standards.
D. Ascertain compliance of materials and mixes with requirements of Contract
Documents.
E. Promptly notify Engineer and Contractor of observed irregularities or non-
conformance of Work or Products.
F. Perform additional inspections and tests required by Engineer.
G. Attend preconstruction conferences and progress meetings as appropriate.
1.06 LABORATORY REPORTS
A. After each inspection and test, the laboratory shall promptly submit three (3)
copies of laboratory report to Engineer, Contractor and County.
B. Report shall include:
1. Date issued,
2. Project title and number,
3. Name of inspector or technician,
4. Date and time of sampling or inspection,
5. Identification of product and Specifications section,
6. Location in the Project,
7. Type of inspection or test,
8. Date of test,
9. Results of tests,
10. Conformance with Contract Documents.
C. When requested by Engineer, provide interpretation of test results.
1.08 LIMITS ON TESTING LABORATORY AUTHORITY
A. Laboratory may not release, revoke, aiter, or enlarge on requirements of
Contract Documents.
B. Laboratory may not approve or accept any portion of the Work.
C. Laboratory may not assume any duties of Contractor.
D. Laboratory has no authority to stop the Work.
01430-2
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIALS TESTING
January 2010
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1.09 CONTRACTOR RESPONSIBILITIES
A. Deliver to laboratory, at designated location, adequate samples of proposed
materials that require testing, along with proposed design data as required.
B. Cooperate with laboratory personnel, and provide access to the Work.
C. Provide incidental labor and facilities to provide access to Work to be tested, to
obtain and handle samples at the site or at source of Products to be tested, to
facilitate tests and inspections, storage and curing of test samples.
D. Notify Engineer and laboratory 24 hours prior to expected time for operations
requiring inspection and testing services.
E. Payment for testing and laboratory services.
1.10 SCHEDULE OF INSPECTIONS AND TESTS
As specified in individual Product Specification sections
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 201 0
01430.3
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIALS TESTING
SECTION 01450
QUALITY CONTROL
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements to ensure that the products and instaHation meet industry standards,
manufacturers requirements and government regulations and ordinances.
1.02 GENERAL QUALITY CONTROL
A. The Contractor shaH maintain quality control over suppliers, manufacturers, products,
services, site conditions, and workmanship, to produce work of specified quality.
B. Public Inspection: The Contractor shall inform the Engineer and local authorities, such as
building and plumbing inspectors, Fire MarshaH, OSHA inspectors, and others, in order that
they may approve aH required work and witness aH required tests for foundations, piping,
plumbing, fire protection systems, pressure vessels, safety systems, electrical systems and
other systems requiring regulatory authority inspections to obtain all required permits and
certificates.
C. Site Inspection: The Contractor shall verify aH dimensions in the field and shaH continuously
check field conditions during construction.
D. Sampling and Testing: The Engineer reserves the right to take samples and make
independent tests to verify that the Work meets the requirements of the specifications.
1.03 RIGHT OF REJECTION
A. Engineer shaH have the right,. at all times and places, to reject any articles or materials to be
furnished hereunder which, in any respect, fail to meet the requirements of the Contract
Documents, regardless of whether the defects in such articles or materials are detected at
the point of manufacture or after installation. If the Engineer or its representative, through an
oversight or otherwise, has accepted materials or Work which is defective or which is
contrary to the Contract Documents, such materials, no matter in what stage or condition of
manufacture, delivery, or erection, may be subsequently rejected.
B. The Contractor shall promptly remove rejected articles or materials from the site of the Work
after notification of rejection.
PART 2 - PRODUCTS
2.01 MANUFACTURERS' CERTIFICATES
Submit manufacturer's certificate that product meets or exceeds specified requirements as
specified in Section 01600 - Material and Equipment and Section 01750 - Testing and Startup.
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
QUALITY CONTROL
01450.1
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2.02 MATERIALS TESTING
The Contractor shall employ the services of an independent, testing laboratory to perform
inspections, tests, and other services as specified in Section 01430 - Materials Testing. The
Contractor's responsibilities are described in Section 01430.
PART 3 - EXECUTION
3.01 MANUFACTURERS' INSTRUCTIONS
Comply with instructions in full detail, including each step in sequence. Should instructions
conflict with Contract Documents, request clarification from Engineer before proceeding.
3.02 WORKMANSHIP
A. Comply with industry standards except when more restrictive tolerances or specified
requirements indicate more rigid standards or more precise workmanship.
B. Comply with all local, state and federal regulations and ordinances.
C. Perform work by persons qualified to produce workmanship of specified quality.
D. Secure products in place with positive anchorage devices designed and sized to withstand
stresses, vibration and rocking.
3.03 MANUFACTURERS' FIELD SERVICES
A. When specified in the individual product section, require manufacturer or manufacturer's
representative to provide qualified personnel to observe field conditions; conditions of
surfaces and installation; quality of workmanship; start-up, testing, adjustment, and balance
of equipment as applicable; and to make appropriate recommendations.
B. The extent of the manufacturer's field services shall be as specified In the individual
product specification sections.
END OF SECTION
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
OUALlTY CONTROL
01450.2
SECTION 01470
COLOR AUDIO-VIDEO PRECONSTRUCTION RECORD
PART 1 - GENERAL
1.01 SCOPE
Prior to commencing work, the Contractor shall take a continuous color audio-video
digital DVD recording of Project site to selVe as a record of pre-construction
conditions.
1.02 APPROVAL
No construction shall begin prior to review and approval by Engineer of the DVD
recording covering construction area. The Engineer shall have authority to reject all
or any portion of the recording not conforming to specifications and order that it be
done again at no additional charge. The Contractor shall reschedule unacceptable
coverage within five days after being notified. The Engineer shall designate those
areas, if any, to be omitted from or added to the audio-video coverage. Recordings
shall not be made more than 60 days prior to construction in any area. All DVDs and
written records shall become property of the County. Prior to video recording, there
will be a meeting between Engineer, Contractor and electrographer.
1.03 PROFESSIONAL ELECTROGRAPHERS
Engage the selVices of a professional electrographer. The color audio-video
recording shall be prepared by a responsible commercial firm known to be skilled and
regularly engaged in the business of preconstruction color audio-video
documentation. The electrographer shall furnish to Engineer a list of names and
addresses of two references that electrographer has performed color audio-video
recording for projects of a similar nature.
PART 2 - PRODUCTS
2.01 AUDIO-VIDEO DVDs
Audio-video DVDs shall be new as manufactured by Maxell or equal. Reprocessed
disks will not be acceptable. The Contractor shall submit two copies of each DVD
recording for review and approval.
2.02 EQUIPMENT
A. Furnish all equipment, accessories, materials and labor to perform this selVice.
The total audio-video system shall reproduce bright, sharp, clear pictures with
accurate colors and shall be free from distortion, tearing, rolls or any other form
of imperfection. The audio portion of the recording shall reproduce the
commentary of the camera operator with proper volume, clarity and be free from
distortion and interruptions.
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
COLOR AUDIO VIDEO PRECONSTRUCTION RECORD
014/0-1
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B. The color video camera used in the recording system shall have a horizontal
resolution of 300 lines at center, a luminance signal to noise ratio of 45 dB and
a minimum illumination requirement of 25 foot-candles.
PART 3 - EXECUTION
3.01 SCHEDULING
No recording shall be done during precipITation, mist or fog. Recording shall only be
done when sufficient sunlight is present to properly illuminate the subjects of
recording and to produce bright, sharp video recordings of those subjects.
3.02 RECORDED INFORMATION - AUDIO
Each recording shall begin with current date, project name and Owner and followed
by general location, i.e., viewing side and direction of progress. Audio track shall
consist of an original live recording. Recording shall contain the narrative
commentary of electrographer, recorded simultaneously with his fixed elevation video
record of the zone of influence of construction.
3.03' RECORDED INFORMATION - VIDEO
All video recordings must, by electronic means, display continuously and
simultaneously generated with the actual taping transparent digital information to
include the date and time of recording, and station numbers as shown on the
Drawings. Date information shall contain the month, day and year. Time information
shall contain the hour, minutes and seconds. Additional information shall be
displayed periodically. Such information shall include but not be limited to project
name, contract number, name of street or structure, direction of travel and view. This
transparent information shall appear on the extreme upper left hand third of the
screen.
3.04 AREA OF COVERAGE
A. Recorded coverage shall include all surface features located within the zone of
construction supported by appropriate audio coverage. Such coverage shall
include special attention to existing driveways, sidewalks, curbs, pavements,
structures, exposed piping, electrical and control devices, landscaping, culverts,
fences, signs and headwalls within the area covered.
B. When a conventional wheeled vehicle is appropriate for use, distance from the
camera lens to the ground shall not be less than twelve feet. Rate of speed in the
general direction of travel of the vehicle used during recording shall not exceed 15
feet per minute. Panning, zoom-in and zoom-out rates shall be sufficiently
controlled to maintain a clear view of the object. Tape coverage may be required
in areas not accessible by vehicles. Such coverage shall be obtained by waiking
or special conveyance approved by the Engineer.
END OF SECTION
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
COLOR AUDIO VIDEO PRECONSTRUCTION RECORD
01470-2
SECTION 01510
TEMPORARY UTILITIES
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for temporary utilities.
1.02 TEMPORARY SERVICES
A. Each temporary service shall meet the requirements of the utility having authority
over the temporary service. Provide metering and isolation to meet requirements
of utility authority over temporary service.
B. Obtain permission of utility having authority over temporary service prior to
connecting temporary service.
C. Remove temporary services after temporary services are no longer needed for
construction operations, site security, field offices, or testing. Restore to pre-
construction condition.
1.03 APPLICATION AND PAYMENT FOR TEMPORARY SERVICES
A. Make applications and arrangements and pay all fees and charges for temporary
electrical, potable water, non-potable water, sanitary and telephone services.
B. Provide and pay for temporary generators, pumps, wiring, switches, piping,
connections, meters, and appurtenances for temporary utilities.
C. The following permanent utility services and services relative to temporary
utilities shall be provided by the Owner.
1. Electricity for facilities that are occupied and operated by the Owner.
2. Potable water for facilities that are occupied and operated by the Owner.
3. Telephone service for facilities that are occupied and operated by the
Owner.
1.04 ELECTRICITY, LIGHTING
A. For facilities connected to permanent electrical services, the Contractor shall pay
the Owner by deductive cost Change Order for all electrical power used in new
facilities until facility is accepted, occupied, and operated by the Owner.
B. Provide temporary electrical service, or services, for the following:
1. Power tools for construction operations.
2. Construction lighting.
January 2010
01510.1
NCWRF COMPLIANCE ASSURANCE PROJECT
TEMPORARY UTILITIES
3. Security lighting.
4. Field offices and sheds.
5. Testing specified in individual Sections.
C. Provide construction lighting as required for the following:
1. Prosecution of Work;
2. Observation of Work by Engineer, Owner, and regulatory authorities;
3. Access to facilities occupied by Owner within project site.
D. Wiring for Temporary Electrical Services
1. Properly install and maintain wiring for temporary lighting and power.
2. Provide separate circuits for temporary lighting and for temporary power.
3. Provide branch wiring and distribution boxes located to allow service and
lighting by means of construction-type power cords.
4. Securely fasten wiring and electrical devices.
5. Temporary lighting and power facilities shall meet the requirements of
OSHA Safety and Health Standards for Construction.
1.05 WATER
A. Provide temporary water services for the following:
1. Potable water or non-potable water for construction operations.
2. Potable water for consumption by Contractor's and subcontractors'
personnel.
3. Potable water for field offices.
4. Potable water or non-potable water for fire protection on the construction
site.
B. Piping for Temporary Water Services
1. Provide pipe, fittings, valves, and hydrants for temporary water service, or
services.
2. Provide temporary pumps, storage tanks, and controls if available water
volume, pressure, Dr volume and pressure are not sufficient for
construction operations.
3. Extend branch piping with outlets located so that water is available by use
of hoses.
4. Securely anchor and support temporary water piping.
5. Provide warning signs at each temporary non-potable water outlet.
January 2010
01510.2
NCWRF COMPLIANCE ASSURANCE PROJECT
TEMPORARY UTILITIES
1.06 SANITARY FACILITIES
A. Provide sanitary facilities (fixed toilets or portable chemical toilets) for
Contractor's and subcontractor personnel.
B. Sanitary Facilities for Contractor's and Subcontractor Personnel shall meet the
requirements of OSHA Safety and Health Standards for Construction.
C. Seclude sanitary facilities from public observation as follows:
1. Locate sanitary facilities so that sanitary facilities cannot be observed by
public, or
2. Provide screening around sanitary facilities so that public cannot observe
sanitary facilities.
D. Maintain sanitary facilities so that sanitary facilities are clean and dry at all
times.
E. Enforce use of sanitary facilities. Do not commit nuisances on the project site.
1.07 HEAT, VENTILATION, AND AIR CONDITIONING
A. Provide temporary heat, ventilation, and air conditioning for the following:
1. Construction operations.
2. Protection, drying, and curing of materials and finishes.
3. Field offices and sheds.
B. Temporary heat and ventilation for construction operations shall meet the
requirements of OSHA Safety and Heaith Standards for Construction.
1.08 TELEPHONE SERVICE
A. Provide temporary, land line telephone service for the following:
1. Communications regarding construction operations.
2. Emergency services.
3. Field offices.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
01510-3
NCWRF COMPLIANCE ASSURANCE PROJECT
TEMPORARY UTILITIES
January 2010
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SECTION 01520
OCCUPANCY
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for site occupancy.
1.02 CONTRACTOR USE OF PROJECT SITE
A. Contractor's use of project site shall be limited to the Contractor's construction
operations, including on-site storage of materials, and field offices.
B. The Contractor shall prepare shop drawing submittal showing the location of
trailers, utilities, storage parking, and staging area. No occupancy of the existing
facility will be allowed until this submittal has been approved by the Engineer.
C. The Contractor shall not operate any valve, flow control device, electrical
device, instrument or control system associated with the existing facility.
If such operation is required for prosecution of the Work, the Contractor shall
notify the Owner. Only the Owner's representatives or staff shall operate such
devices.
D. Residential occupancy on the project site by the Contractor's or subcontractor's
employees, including owners and supervisors, is not permitted.
1.03 OWNER USE OF PROJECT SITE
A. Owner may utilize all or part of the existing facilities during the entire construction
period for the conduct of the Owner's normal operations.
B. Schedule and coordinate the Work to minimize interference between
construction operations and Owner's operation and maintenance of facilities in
service.
1.04 OPERATION AND MAINTENANCE OF TREATMENT FACiLITIES
A. Operation
1. Owner shall operate the treatment facilities that are in service as part of the
treatment process.
2. Contractor shall operate or assist in the operation of new facilities and
modified facilities during testing and prior to Owner's acceptance of new
facilities and modified facilities.
B. Maintenance
01520.1
NCWRF COMPLIANCE ASSURANCE PROJECT
OCCUPANCY
January 2010
1. Owner shall maintain existing facilities that have not been removed from
service for modification or demolition.
2. Owner shall maintain new facilities and modified facilities that have been
accepted following Substantial Completion certification of these facilities by
the Engineer.
3. New or modified facilities shall be placed in service prior to acceptance if
required to meet regulatory requirements for treatment quality. New or
modified facilities may be placed in service prior to acceptance if required to
complete Work on schedule. If new facilities or modified facilities are in
service prior to acceptance of new or modified facilities, Contractor
shall maintain new or modified facilities until such facilities are
accepted for Substantial Completion. Contractor shall provide
maintenance and operation at no additional cost to the Owner.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
01520.2
NCWRF COMPLIANCE ASSURANCE PROJECT
OCCUPANCY
January 2010
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SECTION 01525
FIELD OFFICES AND SHEDS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for field offices, storage areas, and sheds.
1.02 REQUIREMENTS FOR FIELD OFFICES AND SHEDS
A. Engineer's Field Office and Parking:
1. One office as specified in this Section;
2. Minimum of four parking spaces adjacent to Engineer's office.
B. Contractor's Field Office and Parking:
. 1. Minimum of one office for Contractor's field superintendent and staff as
specified in this Section;
2. Minimum of two parking spaces adjacent to Contractor's field office.
C. Meeting Area and Parking:
1. Minimum of one meeting area as specified in this Section;
2. Minimum of two additional parking spaces adjacent to meeting area.
D. Storage Areas and Sheds: As required to hold and protect the following:
1. Products and materials to be incorporated into new Work;
2. Construction equipment and materials.
1.03 USE OF EXISTING AND PERMANENT FACILITIES
Do not use existing or permanent facilities for field offices or for storage.
1.04 CONTRACTOR'S AND ENGINEER'S FIELD OFFICES
A. Schedule for Contractor's and Engineer's Field Offices:
1. Offices for Contractor and Engineer shall be complete before Contractor
starts construction work on project site.
2. Offices including temporary utilities and services, shall remain until new and
renovated facilities are complete, tested, and accepted.
3. Subcontractors' offices may be installed and removed to meet the
requirements of the construction schedule.
01525.1
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELO OFFICES AND SHEDS
January 2010
B. Location of field offices: Install the offices within the designated staging area or
as approved in the submittal for site occupancy. See Section 01520 -
Occupancy.
C. Access to field offices:
1. Office and parking shall be accessible by passenger vehicle.
2. Provide steps and landing at each exterior entrance which is more than eight
. inches above grade. Steps and landings shall meet the requirements of the
Life Safety Code.
D. Occupancy of Engineer's Field Office:
1. Engineer's field office shall be separate from Contractor's or subcontractors'
field office, or offices.
2. Provide field office for sole use of Engineer.
E. Location of meeting area: Adjacent to Contractors' or Engineers' office.
1.05 STORAGE AREAS AND SHEDS
A. General: Provide storage areas for the following:
1. Products and materials to be incorporated into new Work;
2. Construction equipment and materials.
B. Location of Storage Areas and Sheds:
1. Site Not Occupied by Owner: The Contractor shall select storage areas
within the site.
2. Site Partially Occupied by Owner
a. If specific areas are designated as storage areas, use the designated
storage areas.
b. If specific areas are not designated as storage areas, the Contractor
may use areas within the project site that are not occupied by the
Owner and do not interfere with the following:
(1) Owner's operations
(2) Access to Owner occupied facilities
(3) Work by other Contractors.
C. Additional Storage Areas: Provide additional off-site storage area if available on-
site storage area is not adequate for the Contractor, or subcontractors needs.
D. Storage Area Access:
1. Access to storage areas by Owner and Engineer shall meet the requirements
of Section 01600 - Material and Equipment.
2. Provide emergency access to stored equipment and materials.
01525.2
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
January 2010
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PART 2 - PRODUCTS
2.01 CONDITION
Materials, Equipment, Furnishings: Serviceable, new or used, adequate for required
purpose.
2.02 BUILDING REQUIREMENTS
A. Building Type for Field Offices and Sheds: Portable buildings, mobile buildings,
or temporary buildings constructed on site.
B. Field Office and Shed Construction:
1. Field Offices and sheds shall be shall be wood frame, metal frame, or
concrete block.
2. Field Offices and sheds shall be structurally sound, secure, and
weather-tight.
C. Ceiling Height for Field Offices and Sheds: 7'-6" minimum.
D. Temperature Transmission Resistance of Floors, Walls, and Ceilings for Field
Offices and Sheds: Compatible with occupancy and storage requirements.
E. Exterior Materials for Field Offices and Sheds: Weather resistant, finished.
F. Interior Materials for Field Offices:
1. Walls and Ceilings: Pre-finished or painted sheet type materials.
2. Floors: Vinyl tile or resilient sheeting.
3. Base Molding: Rubber, cove bases, or equal.
G. Interior Materials for Sheds: As required to provide specified conditions for
storage of products.
H. Exterior Color for Field Offices and Sheds:
1. Non-objectionable to Owner and Engineer.
2. Non-objectionable to public, if visible from outside of project site.
I. Exterior Finish for Field Offices and Sheds:
1. Free from peeling or excessive fading.
2. Free of graffiti and other markings not required for identification or safety.
J. Interior Finish for Field Offices:
1. Clear finished paneling or painted sheet material.
2. Free from peeling or excessive fading.
3. Free of graffiti and other markings not required for identification or safety.
January 2010
01525-3
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
K. Interior Wall Finish for Sheds: Finished or unfinished with light color, which does
not impair inspection and maintenance of stored products.
L. Door and Frame Material for Field Offices and Sheds: Sound metal, wood, or
metal and wood doors and frames.
M. Door Hardware for Field Offices and Sheds:
1. Doors shall open and close smoothly.
2. Doors shall have functioning locksets.
N. Window Type for Field Offices: Awning, casement, double hung, or horizontal
sliding with operating sash. Windows to have sound wood or metal frames.
Window sash shall open and close smoothly and have operating locks. Glass
shall be uncracked and unbroken.
O. Glazing Type for Field Office Windows: .
1. Offices and Meeting Rooms: Clear.
2. Restrooms: Frosted, or clear with blinds.
P. Screens for Field Office Windows: Insect screens securely attached and without
holes.
Q. Glazing for Shed Windows: Contractor's option.
R. Exterior Lighting for Field Offices: One light, 60 watt minimum, at each exterior
entrance.
S. Interior Lighting for Field Offices, Including Meeting Area: 50 ft-candles
minimum at desk-top height.
T. Exterior Lighting for Sheds: As required for security.
U. Interior lighting for Sheds: As required to permit inspection and maintenance of
stored products.
2.03 ENVIRONMENTAL CONTROL
A. Heating, Cooling, and Ventilating for Offices and Meeting Area: Automatic
equipment to maintain comfort conditions as follows:
1. Heating: 78 degrees F.
2. Cooling: 72 degrees F.
B. Heating, Cooling, and Ventilating for Storage Spaces: Heating, cooling, and
ventilation as required to provide environment conditions specified in individual
Specification Sections or as recommended by product manufacturer.
2.04 FIRE PROTECTION
01525.4
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
January 2010
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A. Provide appropriate type fire extinguisher at each office, meeting area, and each
storage area.
B. Provide additional fire protection, such as sprinkler systems, as required to
protect stored products.
2.05 CONTRACTOR'S FIELD OFFICES
A. Floor Area for Contractor's Field Office:
1. Office for Contractor's Superintendent: 400 square feet, minimum.
2. Other Offices for Contractor and Subcontractors: Contractor's option.
B. Minimum Furnishings and Equipment for Contractor's Field Office:
Quantity
Description
One
One
One
One
One
One
Two
Office desk
Office chair
Four-drawer file cabinet
Touch-tone telephone
Facsimile machine with dedicated phone line
10" outdoor weather thermometer
Dedicated telephone lines with one high speed (>1
MB/SEC) internet connection
2.06 ENGINEER'S FIELD OFFICE
A. Size of Engineer's Field Office: 480 square feet, minimum, with 12' minimum
width.
B. Locks and Keys for Engineer's Field Office: Provide new lock with two keys for
each individually keyed exterior door.
C. Windows for Engineer's Field Office:
1. Quantity of Windows for Engineer's Field Office:
a. End Room: Three per room, minimum.
b. Side Rooms and Corner Rooms: Two per room, minimum.
2. Total Window Area for Engineer's Field Office: 10 percent of floor area,
minimum.
3. Location of Windows for Engineer's Field Office: Locate to provide views of
construction area.
D. Electrical Systems for Engineer's Field Office
01525-5
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
January 2010
1. Electrical Distribution Panel for Engineer's Field Office: One, 100 amp
. .
minimum.
2. Wiring and devices to conform to National Electric Code.
3. Outlets for Engineer's Field Office:
a. Outlet Type: 110 volt duplex.
b. Quantity of Outlets: Four in each room, minimum.
E. Telephone Systems for Engineer's Field Office
1. Number of Dedicated Telephone Lines for Engineer's Field Office: Three,
. .
mllllmum.
2. Telephone Service Requirements for Engineer's Field Office:
a. Voice/Data Communication: Two dedicated lines with one high speed
(>1 MB/SEC) internet connection.
b. Facsimile: One dedicated lines.
F. Wash Room for Engineer's Field Offices: Provide one dedicated washroom in
Engineer's Office with potable water, water closet and lavatory.
G. Water Heater for Engineer's Field Office: 30 gallon, minimum.
H. Wash Room Accessories for Engineer's Field Office:
1. One, paper towel dispenser, or roll paper towel holder.
2. One roll toilet paper holder.
L Minimum Furnishings and Equipment for Engineer's Field Office:
Quantity
Description
Manufacturer
Two Double pedestal desks with three Hon Metro Series, stock model
drawers one side and one supply 32444, Vanguard LP 860, or
drawer, one file drawer on opposite equal
side, and 30" x 60" top, minimum
One Metal or wood drafting table with SAFCO, Catalog No. SAF
36' x 60", minimum, top one 3952, or equal
equipment drawer, and one plan
drawer
Two Metal frame, swivel office chairs Hon W22 Executive Swivel,
with arms United Chair Co. S11, or equal
Two Metal frame office chairs with arms Hon Model W42, or equal
One Drafting stool with cushion seat and United, Model No. GLN 55S27-
adjustable back rest DS-BN or equal
January 2010
01525-6
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
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Two
Four-drawer file cabinets, legal size,
52" high, with key lock
Metal, double door storage cabinet,
48" high, minimum
Plan rack, free standing, with casters,
and 12 each 30" clamp hangers with
label holders and cards
Three-shelf, metal bookcase, 41" high,
Metal, waste baskets
Floating-arm florescent lamps with
clamp base
Desk lamp with two 15 watt tubes
One
One
One
Two
Two
One
Two
One
One
Touch-tone two-line phones
Facsimile machine, plain paper
Plain paper copier, 8-1/2 x 11 ,
8-1/2 x 14, and 11 x 17, with stand
Electric, bottled water cooler which
dispenses cold water and hot water
Refrigerator, 6 cubic feet, minimum
Medium industrial First Aid Kit, new,
One
One
One
2.07 MEETING AREA - ENGINEER'S FIELD OFFICE
Hon 310 Series, Steelmaster, or
equal
SAFCO, Catalog No. 5003-6, or
equal
Hon S42ABC, or equal minimum
Art Specialty, Catalog No. ARS
1SF3828R-BK, or equal
Dazor Model 1000, Flexarm
No. 4444, or equal
ERB 3200, or equal fully equipped
A. Meeting Area Size:
1. Minimum Floor Area for Meeting Area: 200 square feet.
2. Minimum Width Dimension for Meeting Area: 12 feet.
B. Minimum Furnishings and Equipment for Meeting Area:
Quantity
Description
Manufacturer
Metal or wood, Conference Room table,
Metal frame office chairs with arms
Dry erase "white board", 4' x 6', wall
mount type, with aluminum frame,
full length marker rail, two erasers,
and two boxes of four color dry erase
markers
One Touch-tone phone with speaker
One
Eight
One
12' x 4' top, minimum
Hon Model W42, or equal
Quartet, Catalog No. QRT 7537, or
equal and Pentel, Catalog NO.PEN
MW6-4E, or equal
01525-7
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
January 2010
PART 3 - EXECUTION
3.01 PREPARATION
Fill and grade sites for temporary structures to provide drainage away from buildings.
3.02 INSTALLATION
A Meet local building requirements
B. Block and level portable buildings and mobile buildings
C. Temporary Buildings constructed on site shall be securely fixed to building
foundations.
3.03 MAINTENANCE AND CLEANING
A General:
1. Maintain and clean offices and sheds as specified in this Section.
2. Maintain and clean storage areas as specified in Section 01570 - Temporary
Controls.
B. Maintain parking area and approach walks free of mud and water.
C. Damaged Offices and Sheds: Repair damaged offices and sheds.
D. Non-functioning Equipment: Repair, or replace, office equipment that is not
functioning or not functioning properly.
E. Supplies:
1. Provide office and janitorial supplies and service required for the functioning
of field offices and field office equipment.
2. Provide the following supplies and service for the Engineer's Office:
a. Light bulbs and tubes;
b. Toilet paper;
c. Towels for the Wash Room;
d. Soap for the Wash Room;
e. Paper cups for the Water Cooler;
f. Paper and supplies for copier and facsimile machines.
F. Cleaning Exterior of Engineer's Field Office, Contractor's and Subcontractors'
Field Offices, and Sheds: As required to keep field offices and sheds
presentable and free of graffiti and other markings not required for identification
or safety.
G. Janitorial Services for Engineer's Field Office and meeting area:
January 2010
01525.8
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
'_'-"~.'"'_---'-~.-.._~~_."-,,,._-,-.. -
- '-.', ..~,." ".,~,~._~.,-' -- -
-.".-.->."...-.. _..~-,
1. Routine: Twice weekly.
2. Windows: Monthly or as necessary
3. Additional: As required to keep office clean when job site or weather
conditions produce excessive mud.
3.04 REMOVAL
A. Offices, sheds, and equipment shall remain property of the Contractor, unless
otherwise specified.
B. Following completion, testing, and acceptance of new and renovated facilities,
remove offices and sheds, including blocking, foundations, utility services, and
debris.
C. Restore areas where offices, storage areas and sheds were located, or finish
areas as shown on the Drawings, if characteristics of area are to be changed as
part of the Work.
END OF SECTION
January 201 0
01525.9
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD OFFICES AND SHEDS
SECTION 01540
SECURITY
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for project site security
1.02 SITE SECURITY
A. Site Not Occupied by Owner: The Contractor shall be fully responsible for site
security until site is partially or fully occupied by Owner.
R Facilities Partially Occupied by Owner: Site security of partially occupied sites
shall be joint responsibility of Contractor and Owner.
1. Contractor shall provide security for the following:
a. Contractor's and subcontractors' staging areas and storage areas.
b. Field offices and sheds.
c. New facilities under construction.
d. Existing facilities being renovated.
2. Owner shall provide security for the following:
a. Facilities occupied by Owner.
b. Site areas solely occupied by Owner.
3. Site Entrance
a. Contractor shall provide security for site entrance for Contractor's and
subcontractors' use.
C. All field workers associated with execution of the Contract Work must obtain
security badges from the Facilities Department of Collier County.
1. Each worker must go to the Facilities Department at the Government Center
on Tamiami Trail East for fingerprinting, photographing and completion of
security application. Workers that fail the security clearance requirements
shall not be allowed on the project.
2. The Contractor shall be responsible for payment to the County of the fee
associated with each security badge.
3. The Contractor is responsible for renewal of the security badges and for
maintaining a current badge for each worker.
NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 01540.1 SECURITY
",.-..-----,-.-...,..... -...,..... ._,.-'..,-- ---_..~" ,- -_.~~-_..._._.-._-,._-,-_...--,...-_.~---_._--.__.--,---._~-
4. The Contractor shall retrieve the security badge from each worker no longer
employed at the site and turn badge over to the County.
D. The Contractor shall be fully responsible for security of construction equipment,
products, small tools, and other items related to the construction.
1.03 SECURITY PROGRAM
A. Protect Work from theft, vandalism, and unauthorized entry.
B. Maintain program throughout construction period until Owner acceptance
precludes the need for Contractor security.
1.04 ENTRY CONTROL
A. Restrict entrance of persons and vehicles into construction site.
B. Owner will control entrance of persons and vehicles related to Owner's
operations.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
01540.2
NCWRF COMPLIANCE ASSURANCE PROJECT
SECURITY
SECTION 01541
FIELD ENGINEERING
PART 1 - GENERAL
1.01 SECTION INCLUDES
SUlveying services required for proper layout of work and record information.
1.02 QUALITY CONTROL
A Land Surveyor: Registered in the State of Florida and acceptable to Engineer shall
be used for layout of all process piping, layout of building footprints and all Record
Drawing information. Refer to Section 01781 - Project Record Documents.
1.03 SUBMITTALS
A. Submit name, address, and telephone number of Registered Land Surveyor to
the Engineer before starting work.
B. On request, submit documentation verifying accuracy of survey work for project
boundary and vertical and horizontal control.
C. Submit certificate signed by Surveyor with Project Record Documents certifying
that elevations and locations of improvements are in conformance, or non-
conformance, with Contract Documents.
1.04 PROJECT RECORD DOCUMENTS
A. Maintain complete, accurate log of control and survey work as it progresses.
B. Maintain one set of plans that all record drawing information is kept on. These
plans shall show the record information within one week of installation of work or
information being made available. Record Drawings will be available for review
by the Engineer at any time during the normal work day.
C. Submit Record Documents as specified in Section 01770 - Contract Closeout
and Section 01781 - Project Record Documents and in the Collier County
Utilities Standards Manual, current version with updates.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 INSPECTION
January 2010
01541.1
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD ENGINEERING
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A. Verify locations of survey control points prior to starting work.
B. Promptly notify Engineer of any discrepancies discovered.
3.02 SURVEY REFERENCE POINTS
A.
Protect survey control points prior to
reference points during construction.
no.tice to Engineer.
starting site work; preserve permanent
Make no changes without prior written
B. Promptly report to Engineer the loss or destruction of any reference point or
relocation required because of changes in grades or other reasons. Replace
dislocated survey control points based on original survey control.
3.03 SURVEY REQUIREMENTS
A. Engineer shall provide one bench mark for vertical control and horizontal control
during construction. Contractor shall be responsible for laying out the work, shall
protect and preserve the established bench mark and shall make no changes or
relocations without prior approval of Owner. Contractor shall report to Engineer
whenever any reference point is lost or destroyed or requires relocation because
of necessary changes in grades or locations, and shall be responsible for the
accurate replacement or relocation of such reference points by professionally
qualified personnel.
B. Contractor shall establish line and levels, locate and layout by instrumentation
and similar appropriate means:
1. Site improvements, including pavements, stakes for grading, fill and topsoil
placement, utility locations, slopes, and invert, or centerline, elevations.
Submit cut sheets for gravity sewers to Engineer three days prior to
construction.
2. Grid or axis for structures.
3. Building foundation, column locations, and ground floor elevations.
4. Piping locations, slopes, and invert, or centerline, elevations.
C. Periodically verify layouts by same means.
D. Contractor shall provide horizontal and vertical record locations of improvements
as specified in Section 001781 - Project Record Documents and shall include
the following:
1. Corner coordinates of rectangular or square buildings, structures, and tanks.
2. Center coordinates of circular buildings, structures, and tanks.
3. Building floor elevations.
January 2010
01541.2
NCWRF COMPLIANCE ASSURANCE PROJECT .
FIELD ENGINEERING
4. Floor elevations of structures and tanks as required to define floor slope.
5. Top elevations of structures and tanks.
6. Channel floor elevations at each change in slope.
7. Channel top elevations.
8. Manhole center coordinates for sanitary sewers, storm sewers, and
electrical duct banks.
9. Pipe coordinates at changes in direction.
10. Coordinates of buried valves, tees and fittings.
11. All underground piping invert or centerline elevations including at changes in
slope.
12. All underground pipe invert or centerline elevations at tees and crosses.
13. Pipe invert, or centerline, elevations at crossing with other pipe.
14. Invert, or centerline, elevations and coordinates of existing pipe at crossing
with underground pipe installed under this project.
15. Invert elevations of manhole pipe inlets and outlets.
16. Duct bank coordinates at changes in direction.
17. Top and bottom elevations of duct banks at manholes and handholes.
18. Other horizontal and vertical record data pertinent to completed Work.
E. Ground surface record/information shall include the following:
1. Spot elevations should be shown at a minimum 1 DO-foot rectangular grid,
sufficient to show all the important topographic features.
2. Drainage swales.
3. All elevations shown on the construction drawings shall be confirmed or
amended on the Project Record Drawings if finished elevations are different.
END OF SECTION
January 2010
01541.3
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD ENGINEERING
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SECTION 01550
ACCESS ROADS AND PARKING AREAS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for project access roads, haul routes, and parking areas.
1.02 CONSTRUCTION ACCESS AND HAUL ROUTES
A. The Contractor shall make its own investigation of the condition of available
public and private roads and of clearances, restrictions, bridge load limits, and
other limitations affecting transportation and ingress and egress to the site of the
Work. It shall be the Contractor's responsibility to construct and maintain any
haul roads required for its construction operations.
B. Traffic Control: For the protection of traffic in public or private streets and ways,
the Contractor shall provide, place, and maintain all necessary barricades, traffic
cones, warning signs, lights, and other safety devices in accordance with the
requirements of the Florida and County Departments of Transportation. The
Contractor shall take all necessary precautions for the protection of the Work
and the safety of the public. All barricades and obstructions shall be illuminated
at night, and all lights shall be kept burning from sunset until sunrise. The
Contractor shall station police officers, guards and flaggers and shall conform to
such special safety regulations relating to traffic control as may be required by
the public authorities within their respective jurisdictions. All signs, signals and
barricades shall conform to the requirements of Subpart G, Part 1926, of the
OSHA Safety and Health Standards for Construction.
1.03 ON-SITE ACCESS ROADS
A. Provide access roads for the following:
1. Construction operations.
2. Material and equipment delivery for construction.
3. Owner's access to facilities in service.
4. Owner's access to Owner's offices, shops, and storage areas.
5. Material and equipment delivery for Owner's operations and maintenance.
6. Emergency access.
B. Construct temporary access roads as required on route, or routes, approved by
Engineer.
C. Provide 20-foot driveway width along approved access route.
January 2010
01550.1
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCESS ROADS ANa PARKING AREAS
D. Access drives shall have load bearing capacity to provide unimpeded traffic for
construction operations, Owner access for operation and maintenance of
facilities in service, and emergency vehicles.
E. Construct temporary bridges and culverts to span low areas and allow
unimpeded drainage.
F. Extend and relocate access drives as Work progress requires.
G. Provide detours as necessary for unimpeded traffic flow.
H. Provide turning space between and around combustible materials.
I. Provide and maintain access to the following:
1. Fire hydrants.
2. Facilities in service.
3. Valves, switches, and controls for facilities in service.
1,04 PARKING
A. Provide temporary parking facilities for use by construction supervisory
personnel, Owner's representative, and Engineer.
1. Provide parking on job site in areas designated and approved by Owner.
2. Provide additional off-site parking for construction personnel. Provide
transportation to and from site from off-site parking.
B. Do not use temporary parking areas for storage of material or equipment to be
incorporated in the Work, construction material, or construction equipment.
1.05 PERMANENT PAVEMENTS AND PARKING FACILITIES
A. Prior to Substantial Completion, base for permanent roads and parking areas
may be used for construction traffic.
B. Do not allow traffic loading beyond paving design capacity.
C. Do not allow tracked vehicles on surface or base for permanent roads.
1.06 CONSTRUCTION PARKING CONTROL
A. Control vehicular parking to prevent interference with the following:
1. Public traffic and parking.
2. Access by emergency vehicles.
3. Owner's operations.
B. Monitor parking of construction personnel's vehicles.
January 2010
01550.2
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCESS ROADS AND PARKING AREAS
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C. Prevent parking on or adjacent to access roads or in non-designated areas.
D. Do not operate tracked vehicles beyond the limits of the construction site
PART 2 - PRODUCTS
2.01 MATERIALS
A. Temporary Surface: Granular surface may be used unless asphaltic concrete
surface is required for dust control.
B. Temporary Surface Over Permanent Base: Equal to permanent surface.
C. Permanent Construction: As shown on the Drawings.
PART 3 - EXECUTION
3.01 PREPARATION
A. Clear areas to be used for temporary access roads and parking.
B. Provide drainage facilities, including retention areas and sediment control, for
temporary access roads and parking.
3.02 MAINTENANCE OF CONSTRUCTION ACCESS AND HAUL ROUTES
A. Clean haul vehicles prior to leaving job site if required to prevent dirt from being
deposited on either access routes or haul routes.
B. Immediately remove dirt, debris, or dirt and debris deposited or spilled on access
routes, haul routes, or access and haul routes.
C. Repair or replace pavement damaged by construction operations or movement
of construction equipment or material.
3.03 MAINTENANCE OF ON-SITE ACCESS ROADS AND PARKING AREAS
A. Maintain traffic routes so that emergency vehicles can access the project site,
operating facilities, and Owner occupied facilities at all times.
B. Maintain traffic routes and parking areas so that traffic routes and parking areas
can be used for their intended purpose by passenger cars.
3.04 REMOVAL AND RESTORATION
A. Remove temporary access drives and parking that are not part of permanent
Work.
January 2010 NCWRF COMPLIANCE ASSURANCE PROJECT
01550.3 ACCESS ROADS AND PARKING AREAS
B. Replace removed surface, base, and subgrade as appropriate to completed
Work.
END OF SECTION
January 2010
01550-1
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCESS ROADS AND PARKING AREAS
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SECTION 01570
TEMPORARY ENVIRONMENTAL CONTROLS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for temporary environmental controls of water, dust, nOise, erosion,
pollution and pests.
1.02 WATER CONTROL
A. Dewatering Excavations - Shall conform to Section 02240 - Dewatering
B. Surface Water Control
1. Protect site from puddling or running water.
2. Grade construction areas so that storm water drains to storm water system
or to dewatering systems.
C. Disposal of Discharge Water
1. Do not contaminate or disturb the environment of properties adjacent to the
Work.
2. Do not contaminate streams or other surface waters.
3. Do not use sanitary sewers for disposal of water from water control systems.
1.03 DUST CONTROL
A. Provide continuous dust control systems, construction methods, or both which
control dust generation and dispersement.
B. Control dust from construction operations, construction traffic, and other traffic
on the job site so that:
1. Visibility is not reduced below safe limits for construction operations and
traffic.
2. Adjacent property does not receive dust from the project site.
3. Persons, animals, or persons and animals are not injured by dust from. the
project site.
4. Dust from the project does not cause a nuisance to the Owner or persons in
the vicinity of the project site.
01570.1
NCWRF COMPLIANCE ASSURANCE PROJECT
TEMPORARY CONTROLS
January 2010
1.04 EROSION AND SEDIMENT CONTROL
Shall conform to Section 02310 - Erosion and Sediment Control
1.05 NOISE CONTROL
A. Provide systems, measures, or both so that noise from construction operations,
equipment and traffic does not exceed levels permitted by local ordinances.
B. Control noise from construction operations, equipment and traffic so that
1. Noise does not impede the performance of Owner's personnel at the project
site.
2. Persons, animals, or persons and animals are not injured by noise from the
project site.
3. Noise from the project does not cause a nuisance to the Owner or persons
in the vicinity of the project site.
C. Provide hearing protection within the project site for Contractor's personnel,
Owner's personnel, and Engineer wherever noise levels exceed occupational
exposure limits.
1.06 PEST CONTROL
A. Provide insect and rodent control for construction areas, staging area, storage
area, field offices, and sheds.
B. Keep storage areas clean and neat
C. Provide routine cutting of grass and weeds.
D. Instruct construction personnel on the prevention of bites from poisonous snakes
and spiders when picking up materials and performing other tasks.
1.07 POLLUTION CONTROL
Provide methods, means, and facilities to prevent contamination of soil, water, and
atmosphere from discharge of noxious substances, toxic substances, and pollutants
produced by construction operations.
1.09 ACCESS AND HAUL ROUTE
Contractor shall maintain public access roadways, right-of-way, and haul route free
from mud, debris, trash and dust created by the Contractor's activities. Contractor
shall provide all services necessary to accomplish this Contract requirement,
including continuous crews and equipment, if necessary.
PART 2 - PRODUCTS
January 2010
01570-2
NCWRF COMPLIANCE ASSURANCE PROJECT
TEMPORARY CONTROLS
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2.01 CHEMICALS
Chemicals used during project construction or furnished for project operation, whether
herbicide, pesticide, disinfectant, polymer, reactant or of other classification, must show
approval of either EP A or USDA.
PART 3 - EXECUTION
3.01 USE OF CHEMICALS
Use of chemicals and disposal of residues shall be in strict conformance with manufacturer's
instructions, government regulations, or both, as applicable.
END OF SECTION
01570.3
NCWRF COMPLIANCE ASSURANCE PROJECT
TEMPORARY CONTROLS
January 2010
SECTION 01600
MATERIAL AND EQUIPMENT
PART 1 - GENERAL
1.01 SECTION INCLUDES
General requirements for materials and equipment and requirements for
procurement, handling, and storage of materials and equipment
1.02 GENERAL
A. Furnish and Install
1. Where the words "furnish", "provide", "supply", "replace", or "install" are
used, whether singularly or in combination, they shall mean to furnish and
install, unless speCifically stated otherwise.
2. In the interest of brevity, the explicit direction "to furnish and install" has
sometimes been omitted in specifying materials and/or equipment herein.
Unless specifically noted otherwise, it shall be understood that all equipment
and/or materials specified or shown on the Drawings shall be furnished and
installed under the Contract as designated on the Drawings.
B. Concrete Foundations for Equipment
1. Each Contractor shall provide all concrete foundations shown, specified or
required for all equipment furnished under their respective Contract
2. Anchor bolts and templates for equipment foundations shall be furnished
under the respective Contracts for installation by the respective Contractor.
The General Contractor shall cooperate with the respective Contractors to
secure a satisfactory installation and to maintain the schedule of
construction.
3. All concrete foundations for equipment shall be treated, by the respective
Contractor, with an approved sealer to prevent oil from seeping into the
concrete.
1.03 REFERENCES
A. General: Section 11600, Equipment General, and as specified in Section 01420
- Reference Standards.
B. ANSI Standards
ANSI B46.1 Surface Texture
C. ASTM Standards
January 2010
01600.1
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
1. ASTM A48
2. ASTM Al08
Quality
Specification for Gray Iron Castings
Specification for Steel Bars, Carbon, Cold-Finished Standard
1.04 SUBMITTALS
A. General: As specified in Section 01330 - Submittals
B. Lubricant Test Report: as specified in this Section.
C. Substitutions: as specified in this Section.
D. Manufacturer Certificate of Completion: The Contractor shall obtain written
certification from the equipment manufacturer, stating. that the equipment will
efficiently and thoroughly perform the required functions in accordance with the
Specifications and as indicated on the Drawings. Contractor shall have
responsibility for coordination of all equipment, including motors, variable speed
drives, controls, and services required for proper installation and operation of the
completely assembled and installed equipment. The Contractor shall submit all
such certificates to the Engineer with the shop drawings.
1.05 INFORMATION REGARDING BUY AMERICAN PROVISION
A. The Buy American Provision of Public Law 95-217 (Section 215 of Public Law
92-500 as amended) as implemented by EPA regulations and guidance,
generally requires that preference be given to the use of domestic construction
material in the performance of this Contract.
B. Products manufactured outside of the United States will not be considered
acceptable for the Work unless the Manufacturer and the manufacturing
facility (ies) are certified as 150/9001 compliant.
1.06 QUALITY ASSURANCE
A. General: As specified in Section 01450 - Quality Control
B. Inspection, Field Adjustment, and Startup: Demonstrate that all equipment
meets the specified performance requirement.
C. Tolerances: Tolerances and clearances shall be shown on the shop drawings.
Adhere to approved tolerances and clearances. Machine work shall be of
high-grade workmanship and finish, with due consideration to the special nature
or function of the parts. Members without milled ends and which are to be
framed to other steel parts of the structure may have a variation in the detailed
length of not greater than 1/16 of an inch for members 30 feet or less in length,
and not greater than 1/8 of an inch for members over 30 feet in length.
D. Machine Finish: The type of finish shall be the most suitable for the application
and shall be shown in micro-inches in accordance with ANSI B46.1. The
following finishes shall be used:
01600-2
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL ANO EQUIPMENT
January 2010
1. Surface roughness not greater than 63 micro-inches shall be required for all
surfaces in sliding contact.
2. Surface roughness not greater than 250 micro-inches shall be required for
surfaces in contact where a tight joint is not required.
3. Rough finish not greater than 500 micro-inches shall be required for other
machined surfaces.
4. Contact surfaces of shafts and stems that pass through stuffing boxes and
contact surfaces of bearings shall be finished to not greater than 32
micro-inches.
E. Manufacturer's Experience: Unless otherwise directed by the ENGINEER, all
equipment furnished shall have a record of at least 5 years of successful,
trouble-free operation in similar applications, from the same manufacturer.
PART 2 - PRODUCTS
2.01 GENERAL
A. Products include material, equipment, and systems.
B. Co'mply with Specifications and referenced standards as minimum requirements.
C. All products shall be new and of the very best quality.
D. Components that are supplied in quantity within a Specification section shall be
the same, and shall be interchangeable.
E. All parts of the equipment furnished shall be amply designed and constructed for
the maximum stresses occurring during fabrication, erection and continuous
operation.
2.02 PRODUCT OPTIONS
A. Products specified by reference standards or by descriptions only: Any product
meeting these requirements can be submitted for approval.
B. Products specified by naming one or more manufacturers with a provision for
substitutions: Submit a request for substitution for any manufacturer not
specifically named.
C. Products specified by naming one or more manufacturers with no provision for
substitutions: No substitutions will be allowed.
2.03 SUBSTITUTIONS
A. A request for substitution should be made enough time in advance of
procurement to allow time for review by the Engineer. A substitution may not be
accepted if it delays the project schedule.
January 2010
01600.3
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
_ .".,.,____._"__~."'_.,._"._,"'_.~_.,..,,,...._.,,_._,,. ., _..,,_...... '__.H_,_..."_._..,,.'_~
B. Document each request for substitution with complete data substantiating
compliance of proposed substitution with material or product specifications.
C. Request constitutes a representation that Contractor:
1. Has investigated proposed product and determined that it meets or exceeds,
in all respects, specified product.
2. Will provide the same warranty for substitution as for specified product.
3. Will coordinate installation and make other changes that may be required for
Work to be complete in all respects.
4. Waives claims for additional costs that may subsequently become apparent.
D. Substitutions will not be considered when they are indicated or implied on shop
drawing or product data submittals without separate written request, or when
acceptance will require substantial revision of Contract Documents.
E. Engineer will determine acceptability of proposed substitution, and will notify
Contractor of acceptance or rejection in writing within a reasonable time.
2.04 MANUFACTURERS' CERTIFICATIONS
A. Prior to delivery at project site, furnish an Affidavit of Compliance certified by the
equipment manufacturer that the equipment and appurtenances furnished
comply with all applicable provisions of applicable referenced standards and
these Specifications.
B. Do not deliver equipment to job site until Affidavit of Compliance has been
submitted and accepted by the Engineer.
2.05 NOISE AND VIBRATION
A. When in operation, no single piece of equipment shall exceed the OSHA noise
level requirements for a one-hour exposure.
.
B. Equipment that transmits vibration to structures, piping, conduit, or other items
connected to the equipment, shall be provided with restrained spring-type
vibration isolators or pads per manufacturer's written recommendations.
C. Equipment that can be damaged by vibration generated by the equipment or by
vibration transmitted through piping or other connecting items, shall be provided
with vibration damping per manufacturer's written recommendations.
2.06 WELDING OF EQUIPMENT AND PIPE
A. Shop Welding: Unless otherwise specified or shown, shop welding shall conform
to the following:
016004
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
January 201 0
1. Applicable Standards of the American Welding Society and AWWA for the
material and type of item being welded.
2. All composite fabricated steel assemblies, which are to be erected or
installed inside a hydraulic structure, including any fixed or movable
structural components of mechanical equipment, shall have continuous seal
welds to prevent entrance of air or moisture.
3. All welding shall be by the metal-arc method or gas-shielded arc method as
described in the American Welding Society's 'Welding Handbook" as
supplemented by other pertinent standards of the AWS. Qualification of
welders shall be in accordance with the AWS Standards governing same.
4. In assembly and during welding, the component parts shall be adequately
clamped, supported, and restrained to minimize distortion and for control of
dimensions. Weld reinforcement shall be as specified by the AWS code.
Upon completion of welding, all weld splatter, flux, slag, and burrs left by
attachments shall be removed. Welds shall be repaired to produce a
workmanlike appearance, with uniform weld contours and dimensions. All
sharp corners of material which is to be painted or coated shall be ground to
a minimum of 1/32-inch on the flat.
B. Field Welding: Field welding shall be as specified in individual specification
sections. Qualification of welders shall be in accordance with the AWS
standards. Prior to commencement of any field welding, the Contractor shall
furnish the Engineer a copy of each welder's current certification for the alloy,
position and type of welding to be performed.
2.07 PROTECTIVE COATINGS FOR EQUIPMENT
A. Equipment shaU be painted or coated in accordance with Section 09900 - Paints
and Coatings unless otherwise approved by the Engineer. Coated surfaces shall
be protected from abrasion or other damage during handling, testing, storing,
assembly, and shipping.
B. Gears, bearing surfaces, and other similar surfaces obviously not to be painted
shall be given a heavy shop coat of grease or other suitable rust-resistant
coating. This coating shall be maintained as necessary to prevent corrosion
during periods of storage and erection and shaU be satisfactory to the Engineer
up to the time of the final acceptance.
C. Shop-painted items which suffered damage to the shop coating shall be touched
up as specified in Section 09900 - Paints and Coatings.
2.08 GEARS AND GEAR DRIVES
A. Unless otherwise specified, gears shall be of the helical or spiral-bevel type,
designed and manufactured in accordance with AGMA Standards, with a
minimum B-l0 bearing life of 60,000 hours and a minimum efficiency of 94
percent. Gear reducer service factor shall be based on nominal motor
horsepower and shall be:
January 2010
01600.5
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
-, _'"~""_'_"'_'_~V"_._"'_ "'__'_'."".. .~__
.... '" '--'-'~'~"-''''''- ..
1. 2.0 for drives incorporating flexible connections between the driven shaft
and the gear reducer.
2. 2.5 for coupled drives with pinion gears incorporating a torsionally soft
coupling between the motor and pinion shaft.
3. 2.75 for integral gearmotors with pinion gears where the pinion is rigidly
affixed to the motor shaft.
B. For integral gearmotors with pinion gears, pinions shall not be of the shell type.
The pinion gear shall be easily removable from the motor shaft in the field.
C. Gear speed reducers or increasers shall be of the enclosed type, oil- or
grease-lubricated and fully sealed, with a breather to allow air to escape but
keep dust and dirt out. Casings shall be of cast iron or heavy-duty steel
construction with lifting lugs and an inspection cover for each gear train.
D. Each oil lubricated gear speed reducer or increaser shall be provided with an oil
level sight glass and an oil flow indicator, arranged for easy reading. Oil level
and drain location relative to the mounting arrangement shall be easily
accessible. Provide oil coolers, or heat exchangers, with required
appurtenances when necessary to maintain the proper oil temperature for the
application.
E. Input and output shafts shall be designed for the service and load requirements
of the equipment of which gear drives are a part. Gears shall be
computer-matched for minimum tolerance variation. Each output shaft shall
have seals that prevent lubricant leakage. Each oil lubricated gear dive output
shaft shall have two positive seals.
F. Where gear drive input or output shafts connect to couplings or sprockets not
supplied by the gear drive manufacturer, the gear drive manufacturer shall
supply matching key taped to the shaft for shipment.
G. Ship gears and gear drives fully assembled for field installation.
2.09 DRIVE CHAINS
A. General
1. Power drive chains shall be commercial type roller chains and meet ANSi
Standards.
2. Provide chain take-up or tightener that provides easy adjustment of chain
tension.
3. Provide a minimum of one connecting or coupler link with each length of
roller chain.
4. Chain and attachments shall be of the manufacturer's best standard material
and suitable for the process fluid.
January 2010
01600.6
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
B. Sprockets
1. Sprockets shall be used in conjunction with all chain drives and chain-type
material handling equipment.
2. Unless otherwise specified, sprockets material shall be as follows:
a. Sprockets with 25 teeth or less, normally used as a driver, shall be made
of medium carbon steel in the 0.40 to 0.45 percent carbon range.
b. Type A and B sprockets with 26 teeth or more, normally used as driven
sprockets, shall be made of minimum 0.20 percent carbon steel.
c. Large diameter sprockets with Type C hub shall be made of cast iron
conforming to ASTM A 48, Class 30.
3. Sprockets shall be accurately machined to ANSI Standards. Sprockets shall
have deep hardness penetration in tooth sections.
4. Finish bored sprockets shall be furnished complete with key seat and
setscrews.
5. Sprockets shall be of the split type or shall be furnished with taper-lock
bushings as required.
6. Idler sprockets shall be furnished with brass or Babbitt bushings, complete
with oil hole and axial or circumferential grooving. Steel collars with
setscrews may be provided in both sides of the hub.
2.10 V-BELT DRIVES
.
A. V-belts and sheaves shall be highest industrial grade and shall conform to ANSI
and MPTA Standards.
B. Unless otherwise specified, sheaves shall be machined from gray cast iron.
C. Sheaves shall be statically balanced. In some applications where vibration is a
potential problem, sheaves shall be dynamically balanced. Sheaves operating at
belt speeds exceeding 6,500 feet per minute may be required to be of special
materials and construction.
D. Sheaves shall be furnished complete with taper-lock or QD bushings.
E. Finish bored sheaves shall be furnished complete with key seat and setscrews.
F. Sliding motor bases shall be provided to adjust the tension of V-belts.
2.11 DRIVE GUARDS
A. Power transmission, prime movers, machines, and moving machine parts shall
be guarded to conform to the OSHA Safety and Health Standards (29CFR191 0).
January 2010
01600.7
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
B. Where required for lubrication or maintenance, guards shall have hinged access
doors.
C. All drive guards and fasteners shall be constructed of stainless steel.
2.12 BEARINGS
A. Bearings shall conform to the standards of the Anti-Friction Bearing
Manufacturers Association, Inc. (AFBMA).
B. Fitting practice, mounting, lubrication, sealing, static rating, housing strength,
and other factors shall be considered in bearing selection.
C. Grease-lubricated type bearings shall be equipped with a hydraulic grease fitting
in an accessible iocation and shall have sufficient grease capacity in the bearing
chamber.
D. Install stainless steel tubing and supports as necessary to extend grease fittings
so that greasing can be done from platforms and walkways used by the Owner in
routine operations.
E. Permanently lubricated bearings shall be factory-lubricated with the
manufacturer's recommended lubricant.
F. Except where otherwise specified or shown, bearings shall have a minimum B-l0
life expectancy of 60,000 hours.
G. Bearing housings shall be of cast iron or steel and bearing mounting
arrangement shall be as specified or shown, or as recommended in the
published standards of the manufacturer. Split-type housings may be used to
facilitate installation, inspection, and disassembly.
H. Sleeve-type bearings shall have a Babbitt or bronze liner.
2.13 SHAFTING
A. Shafting shall be continuous between bearings and shall be sized to transmit the
power required. Keyways shall be accurately cut in line. Shafting shall not be
turned down at the ends to accommodate bearings or sprockets whose bore is
less than the diameter of the shaft. Shafts shall rotate in the end bearings and
shaH be turned and polished, straight, and true.
B. Shafting materials shall be appropriate for the type of service and torque
transmitted. Environmental elements such as corrosive gases, moisture, and
fluids shall be taken into consideration. Materials shall be as shown or specified
unless furnished as part of an equipment assembly.
1. Low carbon cold-rolled steel shafting shall conform to ASTM A lOS, Grade
1018.
2. Medium carbon cold-rolled shafting shaH conform to ASTM Al08, Grade
1045.
January 2010
01600-8
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
3. Corrosion-resistant shafting shall be stainless steel or monel, whichever is
most suitable for the intended service.
C. Where differential settlement between the driver and the driven equipment may be
expected, a shaft of sufficient length with two sets of universal type couplings shall
be provided.
D. All shafting shall be dynamically balanced in accordance with the recommendations
of the shafting manufacturer.
E. The Contractor shall furnish and install a heavy-duty shaft guard for all drive shafting
which is less than seven feet above floor or platform level I accordance with the
provisions of Paragraph 1910.210 of OSHA Rules and regulations. Provision shall
be made in the guard as necessary for lubrication and inspection access of the joints
and bearings without the necessity of removing the entire guard assembly.
2.14 COUPLINGS
A. Flexible couplings shall be provided between the drivers and driven equipment.
Flexible couplings shall accommodate angular misalignment, parallel misalignment,
end float. Flexible couplings shall cushion shock loads.
B. Equipment manufacturer shall select or recommend the size and type of coupling
required to suit each specific application.
C. Where required for vertical shafts, 3-piece spacer couplings shall be installed.
D. Taperlock bushings may be used to provide for easy installation and removal on
shafts of various diameters.
E. Where universal type couplings are shown, they shall be of the needle bearing type
construction, equipped with commercial type grease fittings.
2.15 EQUIPMENT FOUNDATIONS
A. Provide equipment foundations in accordance with equipment manufacturers' written
instructions.
B. Mount mechanical equipment, tanks, and floor mounted control cabinets on
minimum 4" high concrete bases, as shown on standard details, unless otherwise
shown or specified.
C. Submit foundation drawings for review.
2.16 SHOP FABRICATION
Perform shop fabrication in accordance with the final reviewed and processed shop
drawings.
2.17 NAMEPLATES
January 2010
01600-9
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
A. Equipment nameplates shaU be stainless steel. Nameplates shall be engraved or
stamped. Fasten nameplates to equipment in an accessible location with NO.4 or larger
oval head stainless steel screws or drive pins.
B. Nameplates shall contain the manufacturer's name, model, serial number, Size,
characteristics, and appropriate data describing the machine performance ratings.
2.18 WARRANTiES
Furnish warranties as specified in Section 01780 - Warranties and Bonds
2.19 SPARE PARTS
Following approval of the spare parts list by the Engineer and immediately prior to Substantial
Completion, furnish spare parts suitably packaged for long-term storage and labeled with the
date of supply, the equipment number and part number, equipment description and part
description.
PART 3 - EXECUTION
3.01 DEliVERY, STORAGE, AND HANDLING
A. Contractor shall be responsible for the delivery, storage, and handling of products.
B. Equipment shall be boxed, crated, or otherwise protected from damage and moisture
during shipment, handling, and storage. Equipment shall be protected from exposure to
corrosive fumes and shall be kept thoroughly dry.
C. Each item of equipment shipped shall have a legible identifying mark corresponding to
the equipment number shown or specified for the particular item.
D. Transport products by methods that prevent product damage. Deliver products dry and
in undamaged condition in manufacturer's unopened containers or packaging. Promptly
inspect shipments to assure that products comply with requirements, quantities are
correct, and products are undamaged.
E. Load and unload equipment and appurtenances by hoists or skidding and in accordance
with the manufacturer's recommendations. Do not drop products. Do not skid or roll
products on or against other products. Pad slings and hooks in a manner that prevents
damage to products.
F. Store products in accordance with manufacturer's instructions, with seais and labels
intact and legible. Store sensitive products in weather-tight enclosures; maintain within
temperature and humidity ranges required by manufacturer's instructions. Store
products that will be deteriorated by sunlight in a cool location out of direct sunlight.
Rubber products shall not come in contact with petroleum products.
G. For exterior storage of fabricated products. place on sloped supports above ground.
Cover products subject to deterioration with impervious sheet covering and as
recommended by manufacturer; provide ventilation that avoids condensation.
H. Deliver pipe, fittings, valves, and accessories in a clean and undamaged condition. Store
pipe, fittings, valves, and accessories off the ground and in accordance with
January 2010
01600-10
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
manufacturer's instructions. Do not stack ductile iron pipe higher than the limits shown in
ANSI/AWWA C600. Stacking of pipe shall meet the requirements of the pipe
manufacturer. Do not stack fittings, valves, valve boxes, or valve stands.
I. Keep stored products safe from damage or deterioration. Keep the interior of pipe,
fittings, valves, and appurtenances free from dirt or foreign matter. Drain and store valves
in a manner that will protect valves from damage. Store gaskets, plastic pipe and fittings,
and other products that will be deteriorated by sunlight in a cool location out of direct
sunlight.
J. Equipment having moving parts such as gears, bearings, and electric motors;
instruments; control panels; motor control centers; and switchgear shall be stored in a
temperature and humidity controlled area until equipment is installed and permanent
HVAC systems are in operation.
K. Stored electric motors and actuators with space heaters shall have the space heaters
energized. When electric motors and actuators with space heaters are installed, the
space heaters shall be connected and energized. Space heaters shall remain energized
until equipment is accepted and placed in service.
,
L. Arrange storage to provide access for inspection. Periodically inspect to assure products'
are undamaged, and are maintained under required conditions.
M. Promptly remove damaged products from the job site. Replace damaged products with
undamaged products at no expense to Owner.
3.02 MANUFACTURERS' REPRESENTATIVES
A. Provide the services of experienced, competent, and authorized service representative of
the manufacturer of the items of equipment when specified in the individual Product
Section.
B. Manufacturers' representatives shall visit the site of Work, and shall perform the following
tasks:
1. Assist Contractor in installation of equipment.
2. Inspect, check, adjust equipment, and approve equipment installation.
3. Start-up and field-test equipment for proper operation, efficiency, and capacity.
Perform necessary field adjustments during the test period until equipment
installation and operation are satisfactory to the Engineer.
4. Supervise functional test as specified in Section 01750 - Testing and Start-Up
5. Instruct Owner's personnel in operation and maintenance of equipment as specified
in this Section.
C. The times specified in the individual product sections for the Manufacturer's
Representative to provide services are exclusive of travel time to and from the facility.
The times specified shall not be construed as to relieve the manufacturer of any additional
visits to provide sufficient service to place the equipment in satisfactory operation.
3.03 INSTALLATION - GENERAL
January 2010
01600.11
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
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A. Install equipment in accordance with acceptable procedures submitted with the shop
drawings and as indicated on the Drawings, unless otherwise accepted by the Engineer.
B. Measure drive shafts just prior to assembiy to ensure correct alignment without forcing.
C. Support pipe, fittings, valves, conduit, and other items connected to equipment so that
there are no excess stresses and loads on equipment.
D. Equipment shall be secure in position and neat in appearance.
3.04 IINSTALLATION OF EQUIPMENT
A. Equipment and materials shall be installed in accordance with the requirements of the
General Conditions, Supplemental Conditions and the respective Specification Sections.
B. Concrete foundations for equipment shall be of approved design and shall be adequate in
size, suitable for the equipment erected thereon, properly reinforced, and tied into floor
slabs by means of reinforcing bars or dowels. Foundation bolts of ample size and
strength shall be provided and properly positioned by means of suitable templates and
secured during placement of concrete. Foundations shall be built and bolts installed in
accordance with the manufacturer's certified drawings.
C. Before mounting equipment on a foundation, the Contractor shall clean the top surface; if
necessary, rough it with a star chisel and clean again; and clean out all foundation bolt
sleeves. The Contractor shall provide a sufficient number of stainless steel plate shims
about 2-inches wide and 4-inches long, and of a varying thickness from 1/8 to 1/2 inch. A
combination of these shims shall be placed next to each foundation bolt to bring the
bottom of the bedplate or frame about 1/8 inch above the final setting. The equipment
shall be lowered by changing the combination of shims. Using stainless steel shim stock
of various thicknesses, continue to level the equipment a little at a time and in rotation
until it is at the correct elevation in both directions. When the equipment is level, tighten
down on the foundation bolls a little at a time in rotation to make certain the equipment
remains level and does not shift on the shims. A preliminary alignment check shall be
made before grout is placed.
D. Equipment shall be set, aligned and assembled in conformance with manufacturer's
drawings or instructions. Run out tolerances by dial indicator method of alignment shall
be plus or minus .002 inches, unless otherwise directed by the Engineer.
E. All blocking and wedging required for the proper support and leveling of equipment during
installation shall be furnished by the Contractor. All temporary supports shall be removed,
except stainless steel wedges and shims, which may be left in place with the approval of
the Engineer.
F. Each piece of equipment or supporting base, bearing on concrete foundations, shall be
bedded in grout. The Contractor shall provide a minimum of 1-1/2 inch thick grouting
under the entire baseplate supporting each pump, motor drive unit and other equipment.
Grout shall be non-shrink grout, as specified under Section 03315 entitled "Grout".
G. When motors are shipped separately from driven equipment, the motors shall be
received, stored, meggered once a month, and the reports submitted to the Engineer.
After driven equipment is set, the motors shall be set, mounted, shimmed, millrighted,
January 201 0
01600-12
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
coupled and connected complete. Motors shall then be turned once per month and
documented by the Contractor to the Owner/Engineer.
3.05 CONNECTIONS TO EQUIPMENT
A. Connections to equipment shall follow manufacturer's recommendations as to size and
arrangement of connections andlor as shown in detail on the Drawings or approved Shop
Drawings. Piping connections shall be made to permit ready disconnection of equipment
with minimum disturbance of adjoining piping and equipment.
3.06 LUBRICANTS
A. Furnish and install lubricants required for initial operation.
B. Maintain lubricants at proper levels until equipment is accepted.
C. Change lubricants in each piece of equipment following equipment initial run-in. The
manufacturer shall test removed lubricants for metal particles and lubricant breakdown.
Submit lubricant test report to the Engineer. If the equipment manufacturer requires the
first lubricant change prior to Final Completion, the Contractor shall remove lubricant and
furnish and install the necessary lubricants.
3.07 FIELD TESTS
A. Field test equipment in accordance with Section 01750 - Testing and Start-up.
B. Field test equipment as specified in individual Specification Sections.
3.08 FUNCTIONAL TEST
Prior to placing systems in service, perform functional test of each system as specified in
Section 01750 - Testing and Start-up.
3.09 TRAINING
A. Manufacturer's representative, responsible subcontractor, or both shall instruct Owner's
designated operating and maintenance personnel in correct operation and maintenance
procedures for equipment and systems when specified in individual product specification
sections. Qualified persons who have been made familiar in advance with equipment and
systems at Owner's facility shall give on-site instruction.
B. Submit to Engineer not less than 14 days prior to each training session an outline of the
training program and the qualifications of the trainer(s).
C. Coordinate training with the Owner. Notify Owner not less than 14 days in advance of
each training session.
D. Provide training while equipment is fully operational.
January 201 0
01600-13
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
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E. Provide training for up to three separate shifts of Owner's personnel between the hours of
6:00 AM. and 6:00 P.M. as necessary to accommodate Owner's personnel schedule.
Duration of each training session shall be not less than two hours or more than six hours.
F. Operation and Maintenance Data as specified in Section 01830 shall be submitted
and accepted prior to commencement of training. Use accepted Operation and
Maintenance manuals as the basis of instruction.
1. Review contents of manual with personnel in full detail.
2. Explain all aspects of operation and maintenance.
3. Demonstrate start-up, operation, control, adjustment, calibration, trouble-shooting,
servicing, maintenance, and shutdown of equipment.
END OF SECTION
01600-14
NCWRF COMPLIANCE ASSURANCE PROJECT
MATERIAL AND EQUIPMENT
January 2010
SECTION 01740
CONSTRUCTION CLEANING
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for cleaning project site and disposal of waste materials, debris, and
rubbish during construction.
1.02 SITE AND FACILITIES CLEANING
A. Site Not Occupied by Owner: The Contractor shall be fully responsible for
cleaning until site is partially or fully occupied by Owner after attaining
Substantial Completion.
B. Facilities Partially Occupied by Owner: Cleaning of partially occupied sites
shall be responsibility of the Contractor.
1. Contractor shall clean the following:
a. Contractors and subcontractors' staging areas and storage areas.
b. Field offices and sheds.
c. New facilities under construction.
d. Existing facilities being renovated.
2. Owner shall be responsible for cleaning the following:
a. Facilities occupied solely by Owner.
b. Site areas solely occupied by Owner.
PART 2 - PRODUCTS
2.01 EQUIPMENT
Provide covered containers for deposit of waste materials, debris, and rubbish.
PART 3 - EXECUTION
3.01 CLEANING - GENERAL
A. Maintain areas under Contractor's control free of waste materials, debris, and
rubbish. Maintain site in a clean and orderly condition.
B. Remove debris and rubbish from pipe chases, plenums, attics, crawl spaces,
and other closed or remote spaces, prior to closing the space.
January 2010
01740-1
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION CLEANING
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C. Periodically clean interior areas to provide suitable conditions for work.
D. Broom clean interior areas prior to start of surface finishing, and continue
cleaning on an as-needed basis.
E. Control cleaning operations so that dust and other particulates will not adhere
to wet or newly coated surfaces.
3.02 CLEANING OF NEW WORK
A. The Contractor shall be fuUy responsible for cleaning related to new Work
including, but not necessarily limited to, the following:
1. Cleaning of cured, or partially cured, concrete surfaces prior to placement
of additional concrete.
2. Cleaning of joint surfaces prior to making joints.
3. Cleaning of surfaces prior to application of finish.
4. Cleaning of equipment and enclosures prior to Substantial Completion.
5. Cleaning of new buildings and renovated buildings prior to Substantial
Completion.
B. Cleaning relative to new Work shall be as specified in individual specifications
sections.
3.03 DISPOSAL
A. Remove waste materials, debris, and rubbish from site periodically.
B. Remove temporary materials, equipment, services, and construction prior to
Substantial Compietion inspection.
3.04 REPAIR AND RESTORATION
A. Clean and repair damage caused by instaUation or use of temporary facilities.
B. Restore existing facilities used during construction to condition prior to
construction.
END OF SECTION
01740-2
NCWRF COMPLIANCE ASSURANCE PROJECT
CONSTRUCTION CLEANING
January 2010
SECTION 01750
TESTING AND START-UP
PART 1 - GENERAL
1.01 SECTION INCLUDES
Procedures for starting of mechanical, electrical, control systems, and monitoring
systems..
1.02 GENERAL
A. Do not place new facilities and modified facilities in service until:
1. Equipment and controls have been successfully started up and tested;
2. Draft O&M manuals have been provided;
3. Training of Owner's personnel has been satisfactorily completed.
1.03 QUALITY CONTROL
A. When specified in individual Product Specification Sections, require
manufacturer to provide authorized representative to be present at site at time
of startup, testing, and training
B. Manufacturer's representative shall perform services as described in Section
01600 - Material and Equipment.
1.04 SUBMITTALS
A. General: as specified in Section 01330 - Submittals.
B. In addition, submit the following to the Engineer:
1. Preliminary schedule listing times, dates and sequence for start-up of each
item of equipment fourteen days prior to proposed dates.
2. Manufacturer's representative reports within ten (10) days after testing.
3. Each manufacturer shall prepare and submit a completed document, which
is contained at the end of this Section, certifying the installation is
acceptable and meets their standards and the equipment or device is
functioning properly. The Contractor shall submit these certifications to the
Engineer prior to either Substantial Completion or placing the equipment in
service. A sample of the required certification document is appended to this
Section 01750.
PART 2 - PRODUCTS (not used)
January 2010
01750-1
NCWRF COMPLIANCE ASSURANCE PROJECT
TESTING AND START-UP
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PART 3 - EXECUTION
3.01 INSPECTION
A. Verify that Project conditions comply with requirements.
B. Verify that status of Work meets requirements for starting of equipment and
systems.
3.02 PREPARATION AND CONTRACTOR'S INITIAL START-UP AND INTIAL
FUNCTIONAL TEST
A. Coordinate sequence for initial start-up of various items of equipment.
B. Notify Engineer fourteen (14) days prior to initial start-up of each item of
equipment.
C. Have Contract Documents, shop drawings, product data, and operation and
maintenance data at hand during entire start-up process.
D. Provide control diagrams that show actual control components and wiring.
E. Verify that each piece of equipment has been checked for proper lubrication,
drive rotation, belt tension, control sequence, noise, vibration and other
conditions that may cause damage.
F. Verify control systems are fully operational in automatic and alternate modes of
operation.
G. Verify that tests, meter readings, and specific electrical characteristics agree with
those specified by electrical equipment manufacturer.
H. Verify that instruments, meters, and gages have been calibrated. Perform three-
point calibration on continuous elements and systems. Provide calibration
records.
I. Conduct start-up and initial functional testing.
J. Provide temporary flow meters and other measurement devices as required for
testinq of e(jJdjpment and systems.
3.03 START UP AND FUNCTIONAL TEST - DEMONSTRATION FOR OWNER AND
ENGINEER
A. Perform satisfactory Contractor's initial start-up and functional test prior to
demonstration for Owner and Enqineer.
1. Perform pre-startup Inspection of installation.
2. Perform startup under no-load conditions, if possible. Observe noise,
vibration and operation.
January 201 0
01750-2
NCWRF COMPLIANCE ASSURANCE PROJECT
TESTING AND START-UP
3. If all operating characteristics are normal, proceed with startup.
4. Operate equipment and system under all lead conditions and confirm all
operating characteristics are normal. If normal operation is observed,
proceed with witnessed functional test and performance test as required.
B. Perform functional and performance tests.
1. Perform functional and performance tests under supervision of responsible
manufacturers' representatives, instrumentation and control subcontractor,
and Contractor personnel.
2. Representatives of Owner and Engineer shall witness functional test.
3. Perform functional and performance tests on each piece of equipment and
operational system as specified in the individual product sections.
4. If system is to be placed in service in phases, perform functional and
performance tests on each part of system prior to placing each part of
system in service.
C. Demonstrate that equipment operates and complies with specified performance
requirements.
D. Demonstrate that control panel functions, including failures and alarms, operate
and comply with specified performance requirements.
E. Functional test shall be non-destructive.
F. If approved by the Engineer, simulate failures and alarm conditions by jumping
failure input terminals.
G. Provide signal generators that simulate control conditions if it is not feasible to
create actual conditions.
H. Use actual as-built control diagrams in demonstration of functions.
I. Use Operation and Maintenance manuals to demonstrate operation of
equipment.
J. If functional test or performance test does not meet requirements specified in
this Section, Contractor shall compensate Engineer for additional time required
to observe functional testing until system successfully completes functional
testing.
3_04 TRAINING
A. Training shall not occur until after completion of successful functional testinQ and
performance testinQ.
B. Comply with Section 01600 - Material and Equipment, Parts 3.02 through 3.07.
C. Comply with Section 01830 - Operation and Maintenance Data.
January 2010
01750-3
NCWRF COMPLIANCE ASSURANCE PROJECT
TESTING AND START-UP
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3.05 PLACING SYSTEMS IN SERVICE
A Complete functional and performance testing prior to placing system in service.
B. Execute start-up under supervision of responsible manufacturer's representative
and Contractor personnel.
C. Place equipment in operation in proper sequence.
END OF SECTION
January 2010
017504
NCWRF COMPLIANCE ASSURANCE PROJECT
TESTING AND START-UP
MANUFACTURER'S CERTIFICATE OF
PROPER INSTALLATION AND OPERATION
NORTH COUNTY WATER RECLAMATION FACILITY
COMPLIANCE ASSURANCE PROJECT
Date
PRODUCT:
SERIAL NO.:
SPECIFICATION SECTION:
As an authorized representative of the manufacturer, the undersigned certifies the product
identified above has been inspected and is installed in accordance with the manufacturer's
recommended standards, except as noted below.
The undersigned further certifies that the product identified above has been placed into
satisfactory operation and that all controls, safety devices and product systems are
functional, except as noted below.
Exceptions and comments:
Signature:
Printed Name:
A copy of this executed Certificate must be included in the Operation and Maintenance
Data. A copy must be forwarded to the Engineer upon completion of startup and testing.
January 2010
01750-5
NCWRF COMPLIANCE ASSURANCE PROJECT
TESTING AND START-UP
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SECTION 01770
CONTRACT CLOSEOUT
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for contract closeout.
1.02 CLOSEOUT PROCEDURES
A. Comply with procedures stated in General Conditions of the Contract for
issuance of Certificate of Substantial Completion.
B. When Contractor considers work has reached final completion, submit written
certification that Contract Documents have been reviewed, work has been
inspected, and that Work is complete in accordance with Contract Documents
and ready for Engineer's inspection.
C. In addition to submittals required by the conditions of the Contract, provide
submittals required by governing authorities, and submit a final statement of
accounting giving total adjusted Contract Sum, previous payments, and sum
remaining due.
D. If appropriate, Engineer will issue a final Change Order reflecting approved
adjustments to Contract Sum not previously made by Change Order.
1.03 PROJECT RECORD DOCUMENTS
A. Project Record Documents shall be as specified in Section 01781 - Project
Record Documents.
B. Prior to Contract closeout, submit Record Documents to Engineer with
transmittal letter containing date, Project title, Contractor's name and address,
list of documents, and signature of Contractor. Certification of the Record
Drawings by a licensed surveyor is required as noted in Section 01541 - Field
Engineering
1.04 WARRANTIES AND BONDS
Contractor shall ensure that all warranties and bonds have been received and
submitted to Owner as specified in Section 01780 - Warranties and Bonds.
1.05 SPARE PARTS
A. Contractor shall ensure that all spare parts have been provided as specified in
individual Product Sections. Spare parts shall be packaged and labeled as
specified in Section 01600 - Material and Equipment.
January 201 0
01770-1
NCWRF COMPLIANCE ASSURANCE PROJECT
CONTRACT CLOSEOUT
B. Contractor deliver the spare parts to the Owner at one time. The delivery shall
include an itemized list to be signed and dated by the receiving party for the
NCWRF.
1_06 OPERATION AND MAINTENANCE MANUALS
Contractor shall ensure that Operation and Maintenance manuals have been
provided to the Owner as specified in Section 01830 - Operation and Maintenance
Data.
1.07 CERTIFICATES OF PROPER INSTALLATION AND OPERATION
Contractor shall provide complete Certificates of Proper Installation and Operation as
specified in the Contract documents.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 FINAL CLEANING
A. Execute prior to final inspection.
B. Clean interior and exterior surfaces exposed to view; remove temporary labels,
stains and foreign substances, polish transparent and glossy surfaces, vacuum
carpeted and soft surfaces. Clean equipment and fixtures to a sanitary
condition. Clean or replace all filters of mechanical eqillpment immediately after
issuance of Substantial Completion. Clean roofs, gutters, downspouts, and
drainage systems.
C. Clean site, sweep paved areas, and rake clean other surfaces.
D. Remove waste, surplus materials, rubbish and temporary construction facilities
from the site.
END OF SECTION
January 2010
01770-2
NCWRF COMPLIANCE ASSURANCE PROJECT
CONTRACT CLOSEOUT
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SECTION 01780
WARRANTIES AND BONDS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements and procedures for warranties and bonds.
1.02 SUBMITTALS
A. General: As specified in Section 01330 - Submittals
B. Warranties and Bonds
1. Obtain warranties and bonds, executed in duplicate by responsible Subcontractors,
suppliers, and manufacturers.
2. The beginning of the warranty period shall be the Date of Substantial Completion.
3. Verify that documents are in proper form, contain full information, and are notarized.
4. Co-execute submittals when required.
5. Retain warranties and bonds until time specified for submittal.
C. Form of Submittals
1. Bind in Operation and Maintenance Manuals as specified in Section 01830 -
Operation and Maintenance Data.
2. Provide full information, using separate typed sheets as necessary.
3. List Subcontractor, supplier, and manufacturer, with name, address, and telephone
number of responsible principal.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION (not used)
END OF SECTION
January 2010
01780-1
NCWRF COMPLIANCE ASSURANCE PROJECT
WARRANTIES AND BONDS
SECTION 01781
PROJECT RECORD DOCUMENTS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for preparation, maintenance and submittal of project record
documents. The Contractor's attention is specifically directed to Part 3.02.B of
this Section.
1.02 SUBMITTALS
A. General: as specified in Section 1330 - Submittals
B. At Contract close out, deliver one copy of record documents to Engineer as
specified in Section 01770 - Contract Closeout.
1.03 REQUiREMENTS
Contractor shall maintain at the site for the Owner one record copy of:
A. Drawings
B. Specifications
C. Addenda
D.
E.
F.
G.
H.
I.
Change orders and other modifications to the Contract
Engineer's field orders or written instructions
Approved shop drawings, working drawings and samples
Field test records
Construction photographs
Detailed Progress Schedule
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 MAINTENANCE OF DOCUMENTS AND SAMPLES
A. Project record documents shall be stored in Contractor's field office or other
location approved by the OWNER apart from documents used for construction
B. Maintain documents in a clean, dry, legible condition and in good order. Do not
use record documents for construction purposes.
January 2010
01781-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PROJECT RECORD DOCUMENTS
-
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C. Make documents and samples available at all times for inspection by the
Engineer andlor Owner.
3.02 RECORDING
A. General
1. Label each document "PROJECT RECORD" in neat, large printed letters.
2. Record information concurrently with construction progress. Do not conceal
any work until required information is recorded.
3. Record information in red ink.
B. Record Drawings
1. Record information on Drawings shall be as specified in Section 01541
- Field Engineering. The Record Drawings require certification of all
as-built information, including vertical and horizontal data, for above
and below ground improvements including underground piping,
fittings, valves, manholes, junction boxes and ductbanks, by a Florida
Registered Land Surveyor.
2. Drawings shall indicate all deviations from Contract Drawings including:
a) Field changes of dimension and detail
b) Changes made by Change Order
c) Details, utilities, piping or structures not on original Contract Drawings.
d) Equipment and piping relocations.
C. Specifications and Addenda
Legibly mark each Section to record:
1. Manufacturer, trade name, catalog number and supplier of each product and
item of equipment actually installed.
2. Changes made by Field Order or Change Order.
D. Shop Drawings
1. Keep one copy of the final, approved shop drawing with the Record
Documents. Do not keep previously rejected submittals unless they are
necessary to complete the submittal.
2. Record documents shouid include all shop drawing information submitted.
Additional information submitted during the Engineer's review process
should be filed with the appropriate submittal.
END OF SECTION
January 2010
01781-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PROJECT RECORD DOCUMENTS
SECTION 01830
OPERATION AND MAINTENANCE DATA
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for content and submittal of manufacturers' operation and maintenance
data and content and submittal of Facility's Operation and Maintenance manual.
1.02 SUBMITTALS: MANUFACTURERS' O&M DATA
A. Submittals shall be as specified in Section 01330 - Submittals.
B. Draft: Submit three draft copies of manufacturer's O&M Data not later than shipment
of product. Draft O&M Data shall include binding. The Engineer will review and
return two copies with comments.
C. Final: Revise the manufacturer's O&M Data based upon completed installation
and any deficiencies noted during instruction and training of Owner's personnel.
Submit six copies of the complete, final O&M Data. Submit final O&M Data not
more than 30 days after final inspection and startup.
1.03 CONTENTS, EACH VOLUME OF MANUFACTURER O&M DATA
A. Table of Contents: Provide title of Project; names, addresses, and telephone
numbers of Engineer, subconsultants, and Contractor with name of responsible
parties; schedule of products and systems, indexed to content of the volume.
B. For Each Product or System: List names, addresses, facsimile and telephone
numbers of Subcontractors and suppliers, including locai source of supplies and
replacement parts.
C. Product Data: Mark each sheet to clearly identify specific products and component
parts, and data applicable to installation. Delete inapplicable information.
D. Drawings: Supplement product data to illustrate relations of component parts of
equipment and systems, to show control and flow diagrams. Do not use Project
Record Documents as maintenance drawings.
E. Instructions: As required to supplement product data. Provide logical sequence of
instructions for each procedure, incorporating manufacturer's instructions.
F. Each manual shall comply with Parts 2.01 .0 through .G and 2.02 of this Section.
G. Warranties and Bonds: Bind in copy of each.
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
01830-1
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H. Additional Requirements: As specified in individual Product specification sections.
1.04 DATA FOR MATERIALS AND FINISHES
A. Building Products, Applied Materials, and Finishes: Include product data, with
catalog number, size, composition, and color and texture designations. (Provide
information for re-ordering custom manufactured Products.)
B. instructions for Care and Maintenance: Include manufacturer's recommendations
for cleaning agents and methods, precautions against detrimental agents and
methods, and recommended schedule for cleaning and maintenance.
C. Moisture Protection and Weather Exposed Products: Include product data listing
applicable reference standards, chemical composition, and details of installation.
Provide recommendations for inspections, maintenance, and repair.
1.05 DATA FOR EQUIPMENT AND SYSTEMS
A. Each Item of Equipment and Each System: Provide the following:
1. Product description;
2. Operating Procedures;
3. Maintenance Procedures;
4. Parts;
5. Lubricants;
6. Procedures and requirements for short term (<3 months) storage and for
long term storage;
7. Other Specified Data.
B. Manufacturer's Printed Operation and Maintenance Instructions:
manufacturer's printed operation and maintenance instructions.
Provide
C. Control Data: Provide the following:
1. Include sequence of operation by controls manufacturer.
2. Control diagrams by controls manufacturer as installed.
D. Panelboard Circuit Directories: Provide electrical service characteristics, controls
and communications.
E. Drawings, Diagrams, and Charts: Provide the following:
1. Color coded wiring diagrams as installed;
2. Contractor's coordination drawings, with color-coded piping diagrams as
installed.
3. Charts of valve tag numbers, with location and function of each valve, keyed
to flow and control diagrams.
January 201 0
01830-2
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
F. Tests' .and Reports: Include tests and reports as specified in the following
Sections:
1. Section 01430 - Material Testing
2. Section 01450 - Quality Control
3. Section 01750 - Testing and Startup
4. Division 02 through Division 16 - Individual Product specification sections.
1.06 OPERATION AND MAINTENANCE DATA REQUIREMENTS
A. Product Description
1. Identify each system and system component. Use identification numbers
presented in the Contract Drawings and Specifications.
2. Describe function, physical characteristics, normal operating characteristics,
and alternate operating procedure.
3. Present performance curves, engineering data, and test results.
4. Describe operating limitations, environmental limitations, and any other
limitations.
B. Operating Procedures
1. Provide instructions, including required sequences, for the following operations:
a) Start-up following installation.
b) Break-in.
c) Routine
d) Preventative maintenance.
e) Calibration.
\) Emergency shutdown.
g) Start-up following emergency shutdown.
2. Provide operating procedures for variations In sunlight, temperature, and
humidity.
3. Provide operating procedures for variations in demand, flow, and loading.
4. Provide special operating procedures vital to the product.
C. Maintenance Procedures
1. Provide instructions for preventative, routine, and periodic maintenance
including the following:
a) Servicing and lubricating schedule and sequences.
b) Wearing parts replacement schedule, including part numbers.
January 201 0
01830-3
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
c J Product disassembly and assembly.
d) Alignment, adjustment, and testing.
eJ Product re-calibration
2. Provide a "trouble shooting" guide and repair instructions.
D. Parts
1. Provide complete nomenclature for all product parts including manufacturer's part
number for replacement parts.
2. Provide a list of recommended spare parts with instructions for storage of
recommended spare parts.
3. Provide a list of local sources of supply for parts.
E. Lubricants
1. Provide a list of lubricants required. Identify the parts to be lubricated with each
listed lubricant.
2. Submit separate lubrication schedule for each piece of equipment.
3. Other Data: Provide other Operation and Maintenance Data as specified in the
individual Product specification sections.
F. Other Data: Provide other operation and maintenance data as specified in the
individual product specification sections.
PART 2 - PRODUCTS
2.01 GENERAL DESCRIPTION: FACILITY OPERATION AND MAINTENANCE MANUAL
A. General: The Contractor shall submit a Facility Operation and Maintenance Manual,
which shall be a compilation of all manufacturer's O&M data. This data shall include
the data provided by the Contractor for the project known as Compliance Assurance
Project Odor Control Containment and IQ Water Upgrades - (Year Completed). The
compilation shall be organized in binders by unit process.
B. Binding
1. The Facility Operation and Maintenance (O&M) Manual shall be bound in multiple
binders. Binding by suppliers and manufacturers of their O&M data is acceptable if
the binding meets the requirements of this Section. Contractor shall provide binding
for O&M Manual if the supplier does not provide binding which meets the
requirements of this Section.
2. Binding shall be 8-1/2" X 11" size. Binder capacity shall be not less than 2" or
more than 3".
3. Binding shall be three-hole, left margin.
January 2010
018304
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
4. Binders shall be telescoping post type.
5. Binder covers shall be polyethylene.
6. Each binder shall be identified on the binder front and spine. Lettering and art work
shall be silk screen applied to binders. Multiple volumes with the same identification
shall be numbered sequentially using Arabic numerals. Binder data and copy of art
work shall be submitted to Engineer for approval.
C. Table of Contents: Provide a detailed Table of Contents in each Binder.
D. Index of Tabs
1. Provide a tabbed index sheet for each equipment item, component, or subject.
Index tabs shall provide quick reference points, which assist the Owner's personnel
in the use of the manual.
2. Indexes shall be gO-lb. stock, minimum. Tabs and binding strips shall be reinforced.
E. Text
1. Text shall be legible and written in English. Each letter in the text shall be
identifiable. Text shall be technically and grammatically correct.
2. Prepare the text so that operation and maintenance personnel can easily read,
understand, and properly apply the instructions contained in the text. Arrange the
text in a logical format. Use headings to identify each set of procedures.
3. Prepare text specific to this project. Preprinted text and brochures may be used to
supplement text specific to this project if the text specific to this project contains
reference, or references, to the preprinted material and if the preprinted material has
been annotated to clearly show the part, or parts of the preprinted material that are
applicable to this project.
4. Text character height shall not be less than 8 points or more than 12 points.
Larger size letters may be used for headings. Pitch shall be between 10
characters per inch and 16.66 characters per inch. The pitch may be less than 10
characters per inch in headings. Select character point and pitch to produce text,
which is easy to read. Select a font style which is easy to read.
F. Illustrations
1. Provide illustrations as required to clearly present instructions, clarify the text, or
both. Piace illustrations so that the illustrations are in a logical relationship to the
text.
2. Pages of the O&M Data may contain text, illustration, or text and illustrations.
Preprinted illustrations and brochures containing illustrations may be used if the
preprinted illustrations are applicable to this project or the preprinted illustrations
are a,nnotated to clearly show the illustrations or parts of illustrations that are
applicable to this project.
G. Drawings
Januaiy 2010
01830-5
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
1. Provide drawings for each system in the O&M Data. Drawings shall show the
relationship between the various components in each system and the equipment
installed in each system. If there is fluid flow within a system, the drawings for the
system shall include a flow diagram. If there is electrical power, control wiring, or
both in a system, the drawings for the system shall include a wiring diagram, a
control diagram, or both as applicable.
2. Identify systems, components, and enclosures on the O&M Data drawings.
Present definitions of all abbreviations and symbols used on the O&M Data
drawings.
3. Identify wire and terminal numbers on all wiring diagrams.
4. Drawings shall be specific to this project. Standard drawings may be used in the
O&M data if the drawings are revised for this project.
H. Quality Assurance
1. Personnel who assemble the O&M Data and the Facility Manual shall be familiar
with requirements of this Section.
2. O&M Data shall be written by, edited by, or written and edited by personnel skilled
in technical writing to the extent required to communicate essential data.
3. Drawings, diagrams, figures, and illustrations shall be prepared by skilled
draftsmen or CADD operators competent to prepare required. Drawings.
2.02 REPRODUCTION
A. Text and drawings, sketches and diagrams used for illustrations shall be on 8-)1," x
11" paper, 20-lb. minimum. Do not use sensitized paper.
B. Photo prints shall be securely mounted on 8-% x 11" backing or shall be mounted in
sheet protectors. Photo print backing shall be heavy paper, gO-lb. minimum, card
stock, or equal. Sheet protectors shall be non-glare, clear vinyl.
C. Drawings shall be 8-)1," x 11",11" x 17", or larger. Drawings 8-W' x 11" and 11" x 17"
shall be bound together with text and shall have reinforced holes. Drawings larger
than 11" x 17" shall be folded and placed in pockets which are bound together with text
or inside the back cover of the binder.
D. Text and illustrations shall be originals, offset printed, photo prints, or first quality
machine copies. Text and illustrations shall be crisp with a uniform background. If
originals have characters, lines, or shading which are a color, or colors, other than
black or the medium is a color, or colors other than white, provide machine color
copies.
E. Drawings shall be offset printed, blue line prints, black line prints, or first generation
machine copies. Drawings shall be crisp with a uniform background. If originals have
lines, characters, symbols, or shading which are a color, or colors, other than black,
provide offset prints of drawings.
January 2010
01830-6
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
PART 3 - EXECUTION
3.01 TRAINING OF OWNER'S PERSONNEL
A. Fully instruct Owner's designated operating and maintenance personnel in the
operations, maintenance, adjustment, and calibration of products, equipment, and
systems if specified in the applicable Section of the Specifications. The requirements
for the training are described in Section 01660 - Material and Equipment.
B. Use the O&M Data as the basis of instruction.
1. Review contents of manual with personnel in full detail.
2. Explain all aspects of operation and maintenance.
END OF SECTION
January 2010
01830-7
NCWRF COMPLIANCE ASSURANCE PROJECT
OPERATION AND MAINTENANCE
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SECTION 02220
DEMOLITION
PART 1 - GENERAL
1.01 SECTION INCLUDES
A. Removal of structures, equipment, piping, wiring, and other existing materials,
wholly or in part, as required to complete Work as shown on the Drawings and
specified in this Section.
B. Removal and salvaging of designated equipment, materials, and piping.
Disposal of rubble, debris, equipment, piping, wiring, and other materials
removed.
C. Special requirements to locate embedded conduit 10 concrete structures
receiving partial or spot demolitions.
1.02 SUBMITTALS
A. General: as specified in Section 01330 - Submittals
B. Submit the following:
1. Proposed methods for demolition;
2. Equipment proposed to be used to do demolition work;
3. Demolition schedule/sequence.
1.03 PROJECT/SITE CONDITIONS
A. General
1. Execute demolition so that there is no injury to persons or damage to
adjacent buildings, structures, equipment, materials, piping, wiring,
pavement, fences, guardrails, and other adjacent improvements. Execute
demolition so that access to facilities that are in operation is free and safe.
2. Execute demolition so that interference to vehicular traffic and personnel
traffic does not exceed scheduled interference. Do not place rubble, debris,
equipment, piping, wiring, pavement, fencing, or other materials removed on
roadways, drives, or sidewalks that are to remain in service.
B. Dust Control
1. Control dust resulting from demolition so that dust does not spread to
occupied portions of buildings and to facilities in service.
January 2010
02220-1
NCWRF COMPLIANCE ASSURANCE PROJECT
DEMOLITION
2.. Control dust resulting from demolition so that no nuisance is created In
areas surrounding the project site.
PART 2 - PRODUCTS
2.01 TEMPORARY MATERIALS
A. Provide temporary fencing, barricades, barriers, and enclosures to meet the
requirements of this Section.
B. Temporary fencing, barricades, barriers, and enclosures shall be suitable to the
purpose intended.
2.02 REPAIR AND REPLACEMENT MATERIALS
For repair or replacement of existing work to remain, use materials identical to, or
equal to, materials used in existing work when new.
PART 3 - EXECUTION
3.01 GENERAL
A. Conduct demolition as shown and specified in the Contract Documents.
B. Conduct demolition so that existing equipment, piping, wiring, structures, and
other improvements to remain are not damaged. Repair or replace equipment,
piping, wiring, structures, and other improvements damaged at no additional cost
to the Owner.
C. Do not remove equipment, piping, wiring, structures, or other improvements not
shown or specified to be removed. If equipment, piping, wiring, structures, or
other improvements not shown or specified to be removed is removed, replace
equipment, piping, wiring, structures, or other improvements at no additional cost
to the Owner.
3.02 PROTECTION OF CONDUIT AND CONDUCTORS
A. It is the Contractor's responsibility in existing structures that receive partial or
spot demolition, to protect embedded conduit and conductors. The Contractor
shall use non-destructive imaging methods (radar, x-ray, etc.) to locate
embedded conduit in concrete prior to demolition, saw cutting and core drilling.
Relocate, repair and reconstruct functional conduits and conductors affected by
the demolition.
3.03 DISCONNECTIONS
A. Prior to starting demolition, check underground and exposed existing utilities,
piping, and equipment within the limits of demolition. Prior to starting demolition,
check underground and exposed existing utilities, piping, wiring, and equipment
January 2010
02220-2
NCWRF COMPLIANCE ASSURANCE PROJECT
DEMOLITION
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connected to and associated with buildings, structures, equipment, materials,
piping, wiring, pavement, fences, guardrails, and other existing improvements to
be removed. Verify the following:
1. Piping is inactive (abandoned);
2. Electrical power to equipment, lighting, controls, and other facilities has
been permanently or temporarily disconnected, if required:
3. Utilities have been permanently disconnected or temporarily if required:
B. Do not proceed with salvage or demolition if piping is active, electrical power has
not been disconnected, or utilities have not been disconnected.
3.04 EMBEDDED ANCHORS, REBAR AND FASTENERS
A. Remove all anchors, fasteners, reinforcing steel or similar devices embedded in
concrete and associated with equipment, piping and materials to be removed or
demolished.
B. Chip around each anchor, fasteners, reinforcing steel or similar device to allow
removal of the embedded material 0.5 inches from the surface for concrete not
in continuous contact with water or earth and 1.5 inches from the surface for
submerged or buried concrete surfaces or as directed by the Engineer. Repair
concrete with Sikatop 122 plus or approved equal. Provide exposed finish
surface to match adjacent surface texture and color.
3.05 SALVAGE OF EQUIPMENT, PIPING, AND MATERIALS
A. Remove items identified on the drawings, or specified, to remain the property of
the Owner. Do not damage equipment, piping, and materials to be salvaged.
B. Following removal or equipment, piping, and materials to be salvaged, place
equipment, piping, and materials in a location designated by the Owner.
3.06 REPAIRS
Repair structural elements, equipment, piping, conduit, and other improvements to
remain that are damaged during demolition. Use workers specifically qualified in
trade, or trades, involved to repair damaged work.
3.07 DISPOSAL
A. Remove equipment, plpmg, and materials not specifically designated to be
retained by the Owner from the project site as Contractor's property.
B. Contractor shall not accumulate or store debris from demolition on the project
site.
3.08 FILliNG
02220-3
NCWRF COMPLIANCE ASSURANCE PROJECT
DEMOLITION
January 201 0
A. Backfill excavations, trenches, craters, holes, and pits resulting from demolition
and below ground, abandoned remains of partially demolished structures. Do
not use debris in backfill.
B. Backfill beneath neW structures and pavement as specified in Section 02316 -
Structural Earthwork
C. Backfill pipe trenches as specified in Section 02317 - Trenching, Bedding and
Backfilling for Pipe.
D. Backfill in open yard areas as specified in Section 02315 - Site Earthwork.
3.09 CLEANUP
A. Following demolition, clean-up areas where other work is to be done as specified
in this Section, or Sections applicable to work to be done.
B. Following demolition, clean-up areas where no other work is to be done under
this Contract. Remove debris and rubbish, temporary facilities, and equipment.
Level surface irregularities to eliminate depressions. Leave work in a neat and
presentable condition.
END OF SECTION
January 201 0
022204
NCWRF COMPLIANCE ASSURANCE PROJECT
DEMOLITION
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SECTION 02230
CLEARING, GRUBBING AND STRIPPING
PART 1 - GENERAL
1.01 SECTION INCLUDES
Clearing, grubbing, stripping and related work necessary to complete Work as shown on the
Drawings and specified in this Section.
1.02 DEFINITIONS
A. Clearing: Cutting, removal, and proper disposal of trees, stumps, brush, shrubs, rubbish,
and other material as required to construct improvements as shown and specified.
B. Grubbing: Removal and disposal of stumps larger than 1/2" in diameter and other similar
items to a depth of not less than 12" below finish grade.
C. Stripping: Removal and disposal of sod, topsoil, grass, roots and other material.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 CLEARING ,GRUBBING AND STRIPPING
A. Clear, grub and strip areas to be occupied by new constructed facilities including ponds,
ditches, berms and areas to be excavated, filled, paved, or planted as shown on the
Drawings.
B. Clear and grub right-of-way as required to complete project. Clear and grub easements
as required to complete project. Do not clear or grub more than required to complete
project.
C. Designated trees on the project site shall be removed and relocated by the Owner.
3.02 PROTECTION OF EXISTING AND ADJACENT AREAS
Protect areas shown on the Drawings, or designated by the Engineer, from damage by
construction operations as specified in Section 01150 - Protection of Existing Facilities.
3.03 DISPOSAL
A. Remove roots, vegetation, and other debris from the site. Dispose of roots, vegetation,
and other debris removed from the site.
B. Stockpile topsoil for later use in landscaping as directed by the Engineer.
C. Do not burn any material on the site or other areas where burning is not permitted.
END OF SECTION
January 201 0
02230-1
NCWRF COMPLIANCE ASSURANCE PROJECT
CLEARING, GRUBBING AND STRIPPING
SECTION 02240
DEWATERING
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for dewatering excavations and trenches.
1.02 DESCRIPTION OF ACTIVITIES INCLUDED
A. Obtain permits required by regulatory authorities having jurisdiction and required by the
Owner for installation, operation, and removal of dewatering systems.
B. Furnish and install dewatering systems inCluding well points, wells, pumps, piping,
chemical grouting, water tight sheeting, ground freezing, tremie wall, or any other
technology as may be necessary to accomplish dewatering in a safe and proper manner.
C. Provide labor, equipment, and services required to operate dewatering systems.
D. Remove dewatering systems.
E. Plug and seal dewatering wells.
1.03 SUBMITTALS
A. General: As specified in Section 01410 - Regulatory Requirements and Section 01330-
Submittals.
B. Dewatering Plan:
dewatering system.
include the following:
Contractor shall prepare and submit dewatering plan for each
Dewatering plan shall be submitted prior to installation and shall
1. Groundwater data and assumptions relating to groundwater conditions.
2. Description of proposed dewatering system with drawings, diagrams, and system
component data as applicable.
3. Proposed measures to insure dewatering system reliability.
4. Description of discharge water disposal methods.
5. Identification and location of private water supply wells, public water supply wells,
lakes, and ponds that may be affected by dewatering.
6. Anticipated affect .upon private water supply wells, public water supply wells, lakes,
and ponds that may be impacted by dewatering. Proposed measures to ameliorate
effects of dewatering upon private water supply wells, public water supply wells,
lakes, and ponds.
7. Other data pertinent to the dewatering system.
C. Dewatering Permit: Submit copy of dewatering permit prior to installing dewatering
system or systems.
January 2010
02240-1
NCWRF COMPLIANCE ASSURANCE PROJECT
DEWATERING
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1.04 JOB SITE CONDITIONS
A. Noise Limitations.
1. Noise levels at the property line of the project shall not exceed local noise
ordinances.
2. Provide mufflers on engines and sound attenuating enclosures as required to meet
the noise restrictions.
3. Modify dewatering system, or systems, as required to comply with ordinances
regulating noise.
B. Damage Prevention
1. Dewatering systems shall be constructed to avoid existing or new structures and
Improvements of existing structures. Repair or replace structures damaged by
settlement caused by dewatering.
2. Discharge from dewatering systems shall not cause erosion of turf or soil. Replace
turf or soil damaged by dewatering discharge. Replace soil displaced by dewatering
discharge.
3. Discharge from dewatering systems shall not damage landscaping. Replace
landscaping damaged by dewatering discharge.
4. Modify dewatering system, or systems, as required to eliminate conditions that cause
damage.
C. Access
1. Dewatering systems and dewatering system operations shall not prevent emergency
access or prevent persons living in the vicinity of construction from completing their
normal daily pursuits.
2. Provide temporary access over dewatering system piping for vehicular and
pedestrian traffic.
D. Water Supply: Dewatering shall not impact private water supply wells or public water
supply wells.
E. Lake and Pond Level: Dewatering shall not impact lake levels and pond levels.
PART 2 - PRODUCTS
2.01 DEWATERING SYSTEM
Contractor shall be responsible for the SIZing and selection of dewatering system,
dewatering equipment, dewatering system piping, and appurtenances.
PART 3 - EXECUTION
3.01 GROUNDWATER
Contractor shall be responsible for evaluating and determining groundwater conditions.
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
DEWATERING
3.02 DEWATERING SYSTEMS
A. Provide, operate, and maintain dewatering systems including well points, wells, chemical
grouting, water tight sheeting, ground freezing, tremie wall, or any other technology as
may be necessary to accomplish dewatering in a safe and proper manner.
B. Provide dewatering systems that control groundwater level in conformance with the
requirements of this Section. Provide dewatering systems that lower groundwater to level
shown, specified, or shown and specified in advance of excavation. Provide dewatering
systems that continuously maintain groundwater level at, or below, levei shown, specified,
or shown and specified until backfilling and compaction have been completed to level
shown, specified, or shown and specified.
C. Provide automatic starting devices, standby pumps, and other equipment and controls
required to provide continuous dewatering in the event of an outage of dewatering pump
or other dewatering system component.
D. Provide headers, suction piping, and discharge piping as required to convey water from
well points, dewatering wells, and caissons to dewatering system discharge point
designated in permit and accepted dewatering plan.
E. Modify dewatering system during the course of construction as conditions that affect
dewatering change.
3.03 DEWATERING OPEN EXCAVATIONS AND TRENCHES
A. Lower groundwater to level shown, specified, or shown and specified in advance of
excavation. Provide monitoring wells or other means to measure groundwater level prior
to starting excavation.
B. Dewater excavations and trenches from outside the limits of excavations and trenches.
Dewater excavations and trenches from below the bottom of excavations and trenches.
C. Dewater excavations for cast-in-place structures to a minimum level of three feet below
structural grade.
1. Maintain water level a minimum of three feet below structural grade until backfilling is
complete.
2. Maintain dewatering system in operation as required to prevent structures from being
displaced by hydrostatic pressure until final acceptance of the Work.
D. Dewater trenches to a minimum level of 12 inches below excavated trench bottom.
Maintain water level a minimum of 12 inches below excavated trench bottom until backfill
meets the following requirements:
1. Backfilling and compaction have progressed as to a depth that installed piping will not
be displaced by hydrostatic pressure.
2. Backfilling and compaction have been completed above natural water table to a level
that remaining backfill can be placed and compacted as specified in Section 02317-
Trenching, Bedding and Backfill for Pipe.
E. Dewatering measures shall provide the following:
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
DEWATERING
1. Prevent instability of excavations and trenches due to groundwater.
2. Prevent the disturbance of subgrade bearing materials due to groundwater.
3. Keep excavations and trenches free from standing water and running water.
4. Prevent tanks, pipes, and other structures from being displaced by hydrostatic
pressures.
F. Do not install or operate dewatering systems that allow movement of soil through
excavation or excavation subgrade. Do not install or operate dewatering systems that
allow movement of soil through trench or trench subgrade.
G. Do not install or operate dewatering systems that allow movement of soil from beneath
existing or previously installed structures or pipes.
3.04 DEWATERING DISCHARGE CONTROL
A. Discharge water from dewatering system to storm drain systems in accordance with
dewatering permit and as specified in this Section. Provide silting basins and other
discharge treatment systems in accordance with dewatering permit and to meet discharge
permit requirements.
B. Do not allow discharge from dewatering system to puddle or pond on construction site
except in areas designated and approved to receive discharge from dewatering system.
C. Do not allow discharge from dewatering system to flow off construction site except
through permitted discharge structures and through pipes, conduits, and channels that
have been designated and approved for discharge flow from dewatering systems.
D. Do not use sanitary sewers for disposal of water from water control systems. Do not use
sanitary sewer system under construction as conduit to remove ground water from trench.
E. Do not discharge water containing settleable solids into storm sewers.
F. Do not contaminate or disturb the environment of properties adjacent to the Work.
G. Do not contaminate streams or other surface waters.
H. Provide temporary facilities and controls for dewatering system discharge. Temporary
facilities and controls shall be appropriate to the project, including, but not limited to:
1. Silting basin, or basins, of adequate size.
2. Filters.
3. Coagulants.
4. Screens.
I. Discharge onto pavement shall not damage pavement.
3.05 DEWATERING SYSTEM REMOVAL AND CLEANUP
A. Completeiy remove dewatering systems installed for construction.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
DEWATERING
B. Remove or Plug and seal dewatering wells after dewatering operations are concluded.
Plug and seal dewatering wells in accordance with permit requirements.
c. Remove and dispose of solids, including sand, mud, and other material, discharged from
dewatering systems.
END OF SECTION
.
January 2010
02240-5
NCWRF COMPLIANCE ASSURANCE PROJECT
DEWATERING
SECTION 02310
EROSION AND SEDIMENTATION CONTROL
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for erosion and sedimentation control.
1.02 SUBMITTALS
A. General: As specified in Section 01330 - Submittals and Section 01410 - Regulatory
Requirements
B. Submit copy of approved Erosion Control Pian (Storm Water Pollution Prevention Plan) to
the Engineer prior to installing erosion and sedimentation control measures.
1.03 EROSION CONTROL PLAN
A. Contractor shall be responsible for erosion and sedimentation control.
B. The Contractor shall prepare an Erosion Control Plan that will include structures,
locations, maintenance schedules, operational requirements and other measures that will
be taken to control erosion.
C. The Erosion Control Plan shall include management of all anticipated non-stormwater
discharges such as dewatering and line flushing.
D. The Erosion Control Plan shall include all phases of construction anticipated.
E. Drawings showing locations and details of structures shall be included as necessary to
show the proposed measures.
PART 2 - PRODUCTS
2.01 MATERIALS FOR EROSION AND SEDIMENT CONTROL
All materials shall comply with Section 104-6 of the Florida Department of Transportation
Standard Specifications for Road and Bridge Construction and local regulations.
PART 3 - EXECUTION
3.01 All construction, maintenance, and removal of erosion control structures shall comply with
Sections 104-6 to 104-8 of the Florida Department of Transportation Standard Specifications
for Road and Bridge Construction and local regulations.
END OF SECTION
January 2010
02310-1
NCWRF COMPLIANCE ASSURANCE PROJECT
EROSION AND SEDIMENTATION CONTROL
SECTION 02315
SITE EARTHWORK
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for construction of embankments shown on the Drawings, grading of
site to elevations, lines, slopes, depths and cross-sections as shown on the
Drawings, and placing, compaction, and testing of fill as specified in this Section.
1.02 REFERENCES
A. ANSIIASTM Standards
1. ANSI/ASTM D698 (AASHTO T-99) Moisture-Density Relations of Soils
and Soil Aggregate Mixture Using 5.5 lb. (2.49 kg) Rammer and 12 inch
(305mm) Drop
2. ANSIIASTM D1557 (AASHTO T-180) Moisture-Density Relations of Soils
and Soil Aggregate Mixture Using 10 lb. (4.54 kg) Rammer and 18 inch (457
mm) Drop
B. ASTM Standards
ASTM D2922 Test Methods for Density of Soil and Soil-Aggregate in Place
by Nuclear Method (Shallow Depth)
C. Occupational Safety and Heaith Administration
Excavation Safety Standards, 29 CFR.1926.650, Subpart P.
D. Collier County DOT Standards and Utilities Standards Manual, latest editions
with revisions.
1.03 ROCK
Rock excavation is anticipated and shall not be considered as classified. No
additional Contract Time or Cost will be allowed for rock excavation.
PART 2 - PRODUCTS
2.01 MATERIALS
A. Suitable Fill Material: Non-cohesive, non-plastic, granular mixture of local sand
and Iimerock, free from vegetation, organic material or muck. Suitable fill
material shall contain not more than 8% material by weight passing No. 200
sieve, nor more than 10% rock larger than two inches (2"). Suitable fill material
containing Iimerock shall have sufficient sand to fill voids in limerock.
January 2010
02315-1
NCWRF COMPLIANCE ASSURANCE PROJECT
SITE EARTHWORK
--~-,--
B. Unsuitable Fill Material: Topsoil from ground surface to a depth of six inches or
as determined by Engineer; material classified as A-8 in accordance with
AASHTO Designation M145 or material considered highly organic soil (peat or
muck) as determined by Engineer.
PART 3 - EXECUTION
3.01 INSPECTION
A. Verify site conditions and note irregularities affecting work of this Section.
B. Beginning work of this Section means acceptance of existing conditions.
3.02 EXCAVATION
A. General
1. Locate underground structures and utilities in areas of work to avoid
conflicts with existing facilities. Do not operate excavation equipment within
five (5) feet of existing structures or newly completed structures. Excavate
with hand tools in these areas. Where conflicts are unavoidable, perform
work so that interference with service rendered or facility disturbed is
minimized.
2. Strip existing surfaces to be excavated to a depth of six inches, unless
otherwise directed by Engineer, to remove grass, roots and other
vegetation. Stripped material is considered unsuitable for general fill
purposes. Use stripped material only as topsoil.
3. Dewater excavations if necessary, as specified In Section 02240 -
Dewatering.
4. Use suitable materials removed from excavation areas as far as practicable
in the formation of embankments. Stockpile topsoil and other suitable
materials in areas as directed by Engineer.
5. Remove unsuitable material and excess excavated suitable material from
the Project. Dispose of unsuitable material and excess excavated suitable
material off the Project.
B. Protection
1. Before commencing Work under this Section, protect existing structures and
utilities in accordance with Section 01150 - Protection of Existing Facilities.
2. Protect excavations by shoring, bracing, sheet piling, underpinning or other
methods required to prevent cave-in or loose soil form falling into the
excavation. Excavations slopes, shoring, bracing, sheet piling, underpinning
or other methods shall conform with the Florida Trench Safety Act and 29
CFR 1926.50, Subpart P. If sheeting is used, sheeting may be removed
provided removal can be accomplished without disturbing bedding, pipe or
January 2010
02315-2
NCWRF COMPLIANCE ASSURANCE PROJECT
SITE EARTHWORK
alignment. Should Engineer determine that removal of sheeting will damage
pipe, the sheeting shall be left in place at no additional cost to the Owner. If
left in place, cut sheeting off two feet (2') above top of pipe and leave
sheeting in place below cut. Any damage to pipe bedding, pipe, or
alignment caused by removal of sheeting shall be cause for rejection of the
affected portion of the Work.
3. if sheeting is used, Contractor submit calculations and drawings prepared
and sealed by a Florida P.E. to the Engineer for approval prior to
commencement of sheeting operations. All sheeting shall be designed to
accommodate ground water loading based on the normal groundwater table
and without consideration of dewatering activities.
4. Provide barricades, warning signs, and lights as required by law or
regulation.
5. Underpin adjacent structures and utilities, including utility services, which
may be damaged by excavation work.
6. Notify Engineer of unexpected subsurface conditions and discontinue work
in affected area until notified by Engineer to resume work. Take emergency
measures as required to protect persons and improvements.
C. Repair
1. Repair damage caused to existing structures and utilities in accordance with
Section 01160 - Alteration of Existing Facilities.
2. Repair facilities or structures damaged during prosecution of Work
immediately.
3.03 ROCK EXCAVATION
A. Use non-explosive methods for rock removal.
B. Maximum dimension of rock removed shall not exceed three feet.
C. Remove rock from site.
3.04 FILL
A. Provide fill material from excess on-site excavated suitable fill or from off-site
sources.
1. If there is not sufficient on-site excavated suitable fill required to complete
Work, provide suitable fill from off site.
2. Borrow areas or other sources of off-site material shall be accessible to
examination by the Engineer prior to, and during, use of off-site material.
B. Use only suitable fill material in formation of embankments.
02315-3
NCWRF COMPLIANCE ASSURANCE PROJECT
SITE EARTHWORK
January 2010 .
C. Place fill material in lifts not to exceed eight inches. Compact fill material in
general areas to density not less than 95% of maximum dry density as
determined by ASTM D698 (AASHTO T-180). Compact fill under paved areas
and structures to density not less than 98% of maximum dry density per ASTM
D698. During compaction of fill material, moisture content of fill material shall be
within plus or minus 2% of optimum moisture content. If necessary, add water or
allow material to dry until the proper moisture content for the specified
compaction is obtained. Allow testing of each compacted fill layer, in place, prior
to placement of succeeding fill layers.
D. Perform filling work in accordance with Section 120 of FDOT Standard
Specifications, in locations shown on the Drawings.
3.05 TESTING
A. Utilize a laboratory as specified in Section 01430 - Materials Testing.
B. Perform one Proctor Test according to ASTM D698 or ASTM D1557 for each
source of fill, as determined by Engineer, used on the Project.
C. Test the density of each compacted fill layer in place by field density test ASTM
D2922.
1. Perform at least one test for each 1,000 square feet of site fill, or fraction
thereof.
D. Perform additional field tests for each test that does not meet the required
density.
E. Excavate and recompact areas that do not meet the requirements of this
specification.
3.06 FINE GRADING
A. Fine grade disturbed areas of site after structures, bases, and pavements are
completed and yard piping trenches are backfilled.
B. Remove construction debris in areas to be fine graded prior to fine grading.
C. Shape and slope completed surface to drain away from structures. Completed
surface shall be within 0.1 foot of finish elevations, contours, or elevations and
contours shown on the Drawings.
D. Perform survey of finished site, in accordance with Section 01541 - Field
Engineering, to determine conformance of the final earthwork with the Drawings.
Submit certified survey as part of Record Drawings. See Section 01781 -
Project Record. Documents.
END OF SECTION
January 201 0
02315-4
NCWRF COMPLIANCE ASSURANCE PROJECT
SITE EARTHWORK
SECTION 02316
STRUCTURAL EARTHWORK
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for earthwork materials and procedures to produce an acceptable foundation
for structures. as shown on the Drawings and speCified in this Section.
1.02 REFERENCES
A. ANSIIASTM Standards
1. ASTM D698 (AASHTO T-99) Moisture-Density Relations of Soils and Soil
Aggregate Mixture Using 5.5 lb. (2.49 kg) Rammer and 12 inch (305mm) Drop
2. ANSI/ASTM D1557 (AASHTO T-180) Moisture-Density Relations of Soils and
Soil Aggregate Mixture Using 10 lb. (4.54 kg) Rammer and 18 inch (457 mm)
Drop .
B.. ASTM Standards
ASTM D2922 - Test Methods for Density of Soil and Soil-Aggregate in Place by
Nuclear Method (Shallow Depth)
C. State of Florida
Florida Trench Safety Act (90-96, Laws of Florida)
D. Occupational Safety and Health Administration
. Excavation Safety Standards, 29 CFR.1926.650, Subpart P.
E. Collier County DOT Standards and Utilities Standards Manual, latest editions with
. .
reVISions.
1.03 SUBMITTALS
A. General: As specified in Section 01330 - Submittals
B. Prior to starting earthwork, submit sieve analysis and Proctor test results of the
existing stripped soils and the proposed fill material to Engineer for review and
approval.
C. Prior to starting excavation submit a Plan for Excavation as specified in this
Section.
D. Submit vibratory roller technical specifications for review and approval to the
02316-1
NCWRF COMPLIANCE ASSURANCE PROJECT
EARTHWORK FOR STRUCTURES
January 201 0
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Engineer prior to shipment of vibratory roller to site.
1.04 QUALITY ASSURANCE
A. All Contractor and Subcontractors: Company specializing in respective field work
with five (5) years of documented experience.
B. Coordinate all activity with a testing laboratory experienced in soils and foundations
as specified in Section 01430 - Materials Testing.
C. Contractor shall satisfy himself as to the character and amount of different soil
materials, groundwater and the subsurface conditions to be encountered in the
work to be performed. Information and data, when furnished, are for the
Contractor's general information. However, it is expressly understood that any
interpretation or conclusion drawn there from is totally the responsibility of the
Contractor. Engineer assumes no liability for the accurateness of the data
reported.
1.05 ROCK
Rock excavation is anticipated and shall not be considered as classified. No additional
Contract Time or Cost will be allowed for rock excavation.
PART 2 - PRODUCTS
2.01 SYSTEM DESCRIPTION
Structural Earthwork shall be soil beneath structures. The limits of the structural earthwork
shall be within the limits described by proceeding 6 feet horizontally from the base of the
structure, then at a slope of 2H/1V downward to existing competent soils.
2.02 MATERIALS
A. Suitable Fill Material
1. Suitable material shall be non-cohesive, non-plastic, granular mixture of clean,
coarse sand free from vegetation, organic material, marl, silt or muck.
2. Suitable material shall contain no more than 8% material by weight passing the No.
200 sieve.
B. Unsuitable: Topsoil from ground surface to a depth of six inches or as determined by
the Engineer; material classified as A-2-4, A-2-5, A-2-6, A-2-7, A-4, A-5, A-6, A-7 and
A-8 in accordance with AASHTO Designation M145 or material considered highly
organic soil (peat or muck) as determined by Engineer.
C. Select Material: Suitable material that does not contain any rock larger than Y, - inch.
January 201 0
02316-2
NCWRF COMPLIANCE ASSURANCE PROJECT
EARTHWORK FOR STRUCTURES
D.' Gravel Base: Washed coarse #67 aggregate for concrete with fines not more than five
percent passing through the No. 200 sieve or FDOT #89 stone.
2_03 VIBRATORY ROLLER
Vibratory Roller shall be a self-propelled minimum two-ton drum type vibratory roller.
PART 3 - EXECUTION
3.01 SITE PREPARATION
A. Clean and grub surface vegetation as specified in Section 02230 - Clearing, Grubbing
and Stripping.
B. If unsuitable bearing soils, peat or muck are encountered, contact Engineer for further
direction.
C. If ground water is within twenty-four inches from the ground surface, it shall be
necessary to dewater. Dewater as specified in Section 02240 - Dewatering.
3.02 EXCAVATION
A. Dewatering: If necessary, dewater excavations for cast-in-place structures to a
maximum water surface elevation of three (3) feet below structural grades as described
in Section 02240 - Dewatering.
B. Plan for Excavation
1, Contractor shall be responsible for having determined to his satisfaction, prior to
the submission of his bid, the conformation of the ground, the character and quality
of the substrata, the types and quantities of materials to be encountered, the
nature of the groundwater conditions, the prosecution of the work, the general and
local conditions and other matters which can in any way affect the work under this
Contract.
2. Prior to commencing the excavation, the Contractor shall submit a Plan for
Excavation that describes his proposed operations to the Engineer for approval.
3. Contractor shall consider, and his plan for excavation shall reflect, the equipment
and methods to be employed in the excavation.
C. Protection
1. Protect excavations. by shoring, bracing, sheet piling, underpinning or other
methods required to prevent cave-in or loose soil form falling into the excavation.
Excavations slopes, shoring, bracing, sheet piling, underpinning or other
methods shall conform with the Florida Trench Safety Act and 29 CFR 1926.50,
Subpart P. If sheeting is used, sheeting may be removed provided removal can
be accomplished without disturbing bedding, pipe or alignment. Should Engineer
determine that removal of sheeting will damage pipe, the sheeting shall be left in
place at no additional cost to the Owner. If left in place, cut sheeting off two feet
January 2010
02316-3
NCWRF COMPLIANCE ASSURANCE PROJECT
EARTHWORK FOR STRUCTURES
-......_"_._.
.. ...,----..,'...',-,
-
(2') above top of pipe and leave sheeting in place below cut. Any damage to
pipe bedding, pipe, or alignment caused by removal of sheeting shall be cause
for rejection of the affected portion of the Work
2. If sheeting is used, Contractor submit calculations and drawings prepared and
sealed by a Florida P.E. to. the Engineer for approval prior to commencement of
sheeting operations. All sheeting shall be designed to accommodate ground
water loading based on the normai groundwater table and without consideration
of dewatering activities.
3. Provide barricades, warning signs, and lights as required by law or regulation.
4. Protect adjacent facilities as described in Section 01150 - Protection of Existing
Facilities.
5. Notify Engineer of unexpected subsurface conditions and discontinue work in
affected area until notified by Engineer to resume work. Take emergency
measures as required to protect persons and improvements.
D. Excavation for Structures
1. Excavation for precast or prefabricated structures shall be carried to an elevation
Hoot lower than the proposed outside bottom of the structure to provide space for
the select gravel backfill material. Prior to placing the select gravel backfill, the
excavation shall be sounded, if not dewatered, using a rigid pole to indicate to the
satisfaction of the Engineer that the excavation has been carried to the proper
depth and is reasonably uniform over the area to be occupied by the structure.
2. Carry down excavation for structures constructed or cast in place in dewatered
excavations to bottom of structure where dewatering methods are such that a dry
excavation bottom is exposed. Naturally occurring material at this elevation shall
be leveled and left ready to receive construction. Replace material disturbed below
the described final elevation in dewatered excavations with Class B concrete.
3. Excavate footings as specified in this Section. Footing sides shall be formed
immediately after excavation. Forming for footing sides is specified elsewhere.
3.03 FOUNDATION PREPARATION (FILLING, BACKFILLING)
A Compact exposed stripped and/or excavated surface for buildings by means of an
approved heavy vibratory roller until eight passes have been made and a soil density of
98 percent of maximum modified Proctor Density has been achieved twelve inches
below the exposed compacted surface Test compaction as specified. Add water if
necessary to bring up moisture to optimum levels.
B. Compact existing ground beneath the structural slabs to a density of not less than 98
percent of its maximum density as determined by ASTM D-1557 for a depth of not less
than 2 feet below bottom of concrete slabs. Remove unsuitable foundation material
and replace with suitable material.
C. Buildings: After precompaction of the stripped building area, place approved fill
material within the limits of structural fill as described in this section. Place fill in lifts of
12-inch maximum loose thickness, each lift compacted and fill brought to approximate
January 201 0
023164
NCWRF COMPLIANCE ASSURANCE PROJECT
EARTHWORK FOR STRUCTURES
underside of slab. Compact each lift to a minimum of 98 percent Modified Proctor 12
inches below the surface.
D. Excavation for building footings and wet well work slablbase slab shall be made
through precompacted soilslbuilding pad to design elevations. Bottom of excavation
shall be additionally compacted to 98% of Proctor Density 12-inches below the surface
by portable vibratory sled type of compactors. Test compaction as specified.
E. Building Slab Backfill: Place fill inside the building foundation walls in lifts of 6-inches
maximum loose thickness, each lift compacted with vibratory portable compactors and
fill brought to bottom of the slab. Add necessary water to each lift to bring moisture
content to optimum levels and compacting to achieve a minimum of 98 percent of
modified Proctor Density.
F. Form monolithic slab beams by excavating from the compacted fill material to grades
and lines indicated on the drawings.
G. Place backfill around foundation slabs, walls, utility trenches, mechanical and plumbing
pipes, and other items in layers of six inches maximum loose thickness and compact
with portable plate compactors to achieve a minimum of 98 percent of Modified Proctor
Density as per ASTM D-1557.
H. Equipment Pads and Slabs on Grade: Cut, fill and compact subgrades for concrete
slabs to required grade. Compact top 8-inches of concrete slab subgrade in cut
sections and fill material to a density of not less than 98 percent of its maximum density
as determined by ASTM D-1557.
I. Vibratory compaction shall not be done on dry sandy material or when water table is
within eighteen inches of the surface. Before start of vibratory compaction, the soils
should either have natural moisture or applied water to bring the soils to optimum
moisture content.
3.04 SITE GRADING AND FILLING OUTSIDE STRUCTURES
Perform site earthwork as specified in Section 02315 - Site Earthwork.
3.05 TESTING
A. Notify the materials testing laboratory in time to be on hand to make the tests required
by these specifications.
B. Perform Proctor Tests according to ASTM D698 or ASTM D1577 for the existing
stripped area and each source of fill as follows:
1. Existing stripped area: Perform one test, minimum
2. Fill source: For each source of fill, perform one test for every 500 cubic yards of
fill.
C. Test the density of each compacted fill layer in place by field density test ASTM D2922
as follows:
January 2010
02316-5
NCWRF COMPLIANCE ASSURANCE PROJECT
EARTHWORK FOR STRUCTURES
1. Stripped Area: Perform one test every 1000 square feet (perform a minimum of 2
tests).
2. Fill Area: For each layer, perform one test every 1000 square feet (perform a
minimum of 3 tests).
3. Bottom of Wall Footings: Perform one test every 75 linear feet (perform a
minimum of 3 tests).
4. Backfill Within Foundation Walls: For each layer, perform one test every 750
square feet.
5. Column Footings: Perform one test for every two footings.
6. Roadways and Under Pavement: Perform at least one test per layer for each 100
lineal feet of roadway.
D. Retest compaction tests that fail to pass after additional compaction effort has been
performed and until the specified minimum compaction density is achieved. Two
additional tests shall be taken for each failed test.
END OF SECTION
January 201 0
02316-5
NCWRF COMPLIANCE ASSURANCE PROJECT
EARTHWORK FOR STRUCTURES
SECTION 02317
TRENCHING, BEDDING AND BACKFILL FOR PIPE
PART 1 - GENERAL
1.01 SECTION INCLUDES
Excavation, grading, bedding and backfill for underground piping systems as shown
on the Drawings and specified in this Section.
1.02 REFERENCES
A. ANSIIASTM Standards
1. ANSIIASTM C33 Concrete Aggregates
2. ANSIIASTM D698 (AASHTO T-99) Moisture-Density Relations of Soils
and Soil Aggregate Mixture Using 5.5 lb. (2.49 kg) Rammer and 12 inch
(305mm) Drop
3. ANSIIASTM 01557 (AASHTO T-180) Moisture-Density Relations of Soils
and Soil Aggregate Mixture Using 10 lb. (4.54 kg) Rammer and 18 inch (457
mm) Drop
B. ASTM Standards
1. ASTM D2487 Classification of Soils for Engineering Purposes
2. ASTM D2922 (AASHTO T-238) Test Methods for Density of Soil and Soil-
Aggregate in Place by Nuclear Method (Shallow Depth)
C. AWWA Standards
AWWA C600
Appurtenances
Installation of Gray and Ductile Cast Iron Water Mains and
O. State of Florida
Florida Trench Safety Act (90-96, Laws of Florida)
E. Occupational Safety and Health Administration
Excavation Safety Standards, 29 CFR.1926.650, Subpart P.
F. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 MATERIALS TESTING
Utilize the services of a materials testing laboratory as specified in Section 01450 -
Quality Control.
January 2010
02317-1
NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING. BEODING ANO BACKFILL FOR PIPE
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1.04 ROCK
Rock excavation is anticipated and shall not I be considered as classified. No
additional Contract Time or Cost will be allowed for rock excavation.
PART 2 - PRODUCTS
2.01 GENERAL
A. Soil classifications presented in this Specification are applicable to natural and
blended soils.
B. Soil classes and types referenced in this Specification are as defined in ASTM
D2487.
2.02 SOURCE FOR BEDDING AND FILL MATERIALS
A. Use excavated materials that meet the requirements specified in this Section.
B. Furnish and install imported material if excavated material does meet the
requirements of this Section, or if the quantity of suitable excavated material is
not sufficient.
C. Excess excavated material that meets the requirements of this Section shall be
stored at the project site until backfilling is completed. Do not remove from the
project site excess excavated material that meets the requirements of this
Section until backfilling is completed.
2.03 BEDDING MATERIALS
A. Crushed Stone Bedding: Imported, graded stone meeting the requirements of
Class I with maximum particle size equal to one-half inch (1/2").
1. Size range and resulting high void ratio of crushed stone bedding material
makes it suitable for use to dewater trenches during pipe installation.
2. The permeable characteristic of crushed stone dictates that use of crushed
stone bedding material be limited to locations where pipe support will not be
lost by migration of fine grained natural material from trench walls and
bottom or migration of other embedment materiais into crushed stone
bedding material.
3. When migration of fine grained natural material into crushed stone bedding
is possible;
a. Crushed stone bedding shall be reduced to finer than one-quarter inch
(1/4") minimum, and gradation shall be selected to limit the size of the
voids, or;
b. An alternative to modifying the gradation is to use a geotextile fabric as
a barrier to migration to fines.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING, BEDDING AND BACKFILL FOR PIPE
B. Coarse Sand and Gravel Bedding: Coarse sands and gravels meeting the
requirements of Class II with maximum particle size equal to three-quarter inch
(3/4") and with less than five percent fines.
1. Coarse-grained soils with less than 12 percent but more than five percent
fines may be used for coarse sand and gravel bedding if approved by the
Engineer.
2. Gradation other than well graded, such as uniformly graded or gap graded,
may permit loss of support by migration into void spaces of a finer grained
natural material from the trench wall and bottom.
a) When migration of fine grained natural material into coarse sand and gravel
bedding is possible, adjust gradation of bedding material to limit size of
voids so there is no migration of fines from trench walls or trench bottom
into bedding material.
b) An alternative to modifying the gradation is to use a geotextile fabric as a
barrier to migration offines.
2.04 HAUNCHING MATERIALS
A. Haunching material shall be on-site or imported non-cohesive, non-plastic
material free of debris and gravel larger than one-half inch in diameter.
B. Haunching materials shall be Class I or Class II soils as defined in ASTM D2487.
2.05 SELECT FILL MATERIALS
A. Select fill shall be on-site or imported non-cohesive, non-plastic material free of
debris and gravel larger than one-half inch in diameter.
B. Select initial and final fill materials shall be Class I or Class II soils as defined in
ASTM D2487.
2.06 COMMON FILL
A. Common fill shall be on-site or imported non-cohesive, non-plastic material, free
of debris and rocks larger than two inches in diameter.
B. Common initial fill materials shall be Class I, Class II, or Class III soils as defined
in ASTM D2487.
C. Common final fill materials shall be Class I, Class II, Class III or acceptable dry,
native Class IV soils as defined in ASTM D2487.
PART 3 - EXECUTION
3.01 INSPECTION OF SOURCE FOR BEDDING AND FILL MATERIALS
Verify approval of full or limited use of stockpiled fill.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING. BEDDING AND BACKFILL FOR PIPE
--"--~
3.02 PREPARATION
A. Identify required lines, levels, contours, and datum.
B. Prior to trenching, cut or score pavement to straight edges, six inches outside
each edge of the proposed trench. Do not damage pavement not removed.
C. Prior to trenching, clear and grub surface six inches outside each edge of the
proposed trench. Stockpile material to be used as topsoil.
3.03 EXCAVATION
A. General
1. Dewater trenches, if necessary, as specified in Section 02240 - Dewatering.
2. Excavate trench so that piping can be installed to alignment and depth
shown on the Drawings and as specified.
3. Trench width shall be ample to permit piping to be laid and jointed properly.
Trench width shall be as shown on the Drawings and the Standards Details.
4. Grade top perimeter of trench to prevent surface water run-off into trench.
5. Open no more than 100 feet of trench ahead of pipe laying operations at
one time unless a greater length of trench is approved by the Engineer.
B. Protection and safety
1. Protect existing facilities in accordance with Section 01150 - Protection of
Existing Facilities.
2. Protect excavations by shoring, bracing, sheet piling, underpinning or other
methods required to prevent cave-in or loose soil form falling into the
excavation. Excavations slopes, shoring, bracing, sheet piling, underpinning
or other methods shall conform with the Florida Trench Safety Act and 29
CFR 1926.50, Subpart P. If sheeting is used, sheeting may be removed
provided removal can be accomplished without disturbing bedding, pipe or
alignment. Should Engineer determine that removal of sheeting will damage
pipe, the sheeting shall be left in place at no additional cost to the Owner. If
left in place, cut sheeting off two feet (2') above top of pipe and leave
sheeting in piace below cut. Any damage to pipe bedding, pipe, or
alignment caused by removal of sheeting shall be cause for rejection of the
affected portion of the Work.
3. If sheeting is used, Contractor submit caiculations and drawings prepared
and sealed by a Florida P.E. to the Engineer for approval prior to
commencement of sheeting operations.
4. Provide barricades, warning signs, and lights as required by law or
regulation.
5. Underpin adjacent structures and utilities, including utility services, which
may be damaged by excavation work.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING. BEDDING AND BACKFILL FOR PIPE
6. Notify Engineer of unexpected subsurface conditions and discontinue work
in affected area until notified by Engineer to resume work. Take emergency
measures as required to protect persons and improvements.
C. Repair
Repair damage to existing facilities as specified in Section 01160 - Alteration of
Existing Facilities.
3.04 TRENCH BOTTOM
A. Excavate trench to elevation required for pipe material.
1. For piping that does not require bedding below bottom of pipe, excavate
trench to bottom of pipe.
2. For piping that requires bedding below bottom of pipe, excavate trench to
bottom of bedding below pipe.
B. Soil surface at trench bottom shall provide a firm, stable and uniform support for
pipe, and shall be free of any protrusions which may cause point loading on any
portion of pipe or bell.
C. Do not over-excavate trench bottom if trench bottom material is stable
undisturbed soil of the fOllowing types:
1. Class II soil including types GW, GP, SW and SP.
2. Class III soil including types GM, GC, SM and SC.
3. Class IV soil including types CL and ML.
D. Do not bed pipe on solid rock, boulders, hardpan, unsuitable soils, organic
material, or other materials that are not suitable for trench bottom. Remove soils
and other materials that are not suitable materials for trench bottom. Remove
soils and other materials that are not suitable materials for trench bottom to six
inches under pipe, minimum.
1. Remove wet, yielding, or mucky soils. Remove the following soils:
a. Type CH and Type MH Class IV soils.
b. All Class V soils.
2. Remove organic material including roots, mulch, or other vegetable matter,
which in the opinion of the Engineer, will result in unsatisfactory foundation
conditions.
3. . Remove soils containing cobbles, boulders or stones larger than one and
one-half inches (1-1/2") in diameter.
4. Remove ledge rock and hardpan. Remove rock and hardpan to provide
bedding width 24 inches wider than pipe.
5. Remove soils containing rubbish, trash, or other foreign materials.
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING. BEDDING AND BACKFILL FOR PIPE
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E. Replace ledge rock, hard pan, boulders, unsuitable soils, and soil containing
material that is not suitable for trench bottom.
1. Over-excavation Replacement for Piping that Does Not Require Bedding
below Bottom of Pipe.
a. If trench is over-excavated more than six inches below the bottom of the
pipe, but less than twelve inches below the bottom of the pipe, fill and
compact over-excavation with acceptable Class I, [lor III soil as defined in
ASTM 02487.
b. If trench is over-excavated more than twelve inches below bottom of pipe,
fill and compact over-excavation with crushed stone bedding.
2. Over-excavation Replacement for Piping that Requires Bedding below
Bottom of Pipe: Fill and compact over-excavation to bottom of bedding with
Class I soil as defined in ASTM 02487.
3.05 BEDDING
A. General: Properly bed pipelines, conduits and appurtenances as shown on
Drawings and as specified in this Section.
B. Beddinq for all PVC Pi~: Place and compact crushed stone bedding from a
minimum of 1/4 diameter of pipe below invert of pipe to bottom of pipe or 4"
thickness, whichever is greater.
C. Beddinq for Ductile Iron Pi~:
1. If trench bottom at bottom of pipe is Class I, Class II, Class III or acceptable
dry, native Class IV soils as defined in this Section, bed pipe on trench
bottom.
2. If trench bottom is not acceptable for bedding, place crushed stone bedding
or coarse sand and gravel bedding from a minimum of 1/4 diameter of pipe
below invert of pipe up to bottom of pipe or 4" thickness, whichever is
greater.
D. Preparation of Trench Bottom for Piping and Conditions that Do Not Require
Bedding below Bottom of Pipe.
1. Compact trench bottom as required to achieve density specified for bedding,
haunching, and backfill. Minimum compaction for trench bottom shall be
90% of maximum density as determined by ASTM 0698 (AASHTO T-99,
Method C).
2. Bring trench bottom to grade prior to installation of pipe, fittings, and valves.
Bring trench bottom to grade along entire length of pipe.
E. Preparation of Trench Bottom for Piping or Conditions that Require Bedding
below Bottom of Pipe.
1. Excavate trench bottom and place bedding material, so that bedding grade
is correct following compaction of bedding.
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING. BEDDING AND BACKFILL FOR PIPE
2. Uniformly compact bedding. Use hand or mechanical tamping to compact
bedding material.
3. Compact bedding material as required to achieve density specified for
haunching and backfill. Minimum compaction of bedding material Shall be
95% of maximum density as determined by ASTM 0698 (AASHTO T-99,
Method C).
4. Bring bedding material to grade prior to installation of pipe, fittings, and
valves. Bring bedding material to grade along entire length of pipe.
3.06 HAUNCHING
.
A. Haunching for PVC Pi~: Place crushed stone bedding material from top of
bedding to spring line (centerline) of pipe.
B. HaunchinQ for Ductile Iron Pi~:
1. If trench bottom at bottom of pipe is Class I, Class II, Class III or acceptable
dry, native Class IV soils as defined in ASTM 02487, place haunching
material from trench bottom to spring line (centerline) of pipe.
2. If bedding is used under the pipe, place crushed stone bedding or coarse
sand and gravel bedding material from top of bedding up to 1/8 diameter of
pipe. Place haunching material from top of crushed stone bedding or coarse
sand bedding material to spring line (centerline) of pipe.
C. Support piping during placement and compaction of haunching.
D. Placing Haunching Material
1. Do not place haunching over porous, wet, or spongy trench bottom or
bedding material.
2. Hand place haunching material evenly along both sides of pipe, fittings, and
valves so that equal load is maintained along both sides of pipe, fittings, and
valves.
3. Work haunching under pipe, fittings, and valves so that there are no voids in
fill and so that pipe, fittings, and valves are properly supported.
4. Place haunching so that piping materials, coatings, and encasement are not
damaged.
E. Haunching Material Compaction
1. Compact haunching material haunching so that pipe, fittings, and valves are
properly supported and to achieve density specified for backfill material.
2. Minimum compaction of haunching shall be 95% of maximum density as
determined by ASTM 0698 (AASHTO T-99, Method C).
3.07 INITIAL BACKFILL - COMMON and SELECT
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING, BEDDING AND BACKFILL FOR PIPE
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A. Initial backfill shall extend from the top of haunching to one foot above top of pipe.
Placement of initial backfill may be either by hand or mechanical means.
B. Initial fill in trenches wholly or partially beneath paved and other areas as follows
shall be select fill:
1. Public streets, roads, and parking areas.
2. Institutional roads, drives, and parking areas.
3. Commercial roads, drives, and parking areas.
4. Under structures.
C. Initial fill in trenches beneath unimproved areas, lawns, landscaping, private drives,
and private parking areas shall be common fill unless otherwise shown on the
Drawings.
D. Keep initial backfill free from debris, rocks, clods, and other items larger than one-
half inch (1/2").
E. Do not compact initial fill directly over pipe, fittings, or valves until adequate cover
has been provided to prevent damage to pipe, fitting, or valve. Adequate cover will
depend on piping materials and type of compaction equipment used. Adequate
cover shall be as accepted by the Engineer.
F. Minimum compaction of initial common fill shall be 95% of maximum density as
determined by ASTM 0698 (AASHTO T-99, Method C). Minimum compaction of
initial select fill shall be 98% of maximum density.
3.08 FINAL BACKFILL
A. Backfill trenches to contours and elevations shown on drawings, or to match
existing grade if finish grade is not changed.
B. Final backfill in trenches wholly or partially beneath paved areas as follows shall be
select fill:
1. Public streets, roads, and parking areas.
2. Institutional roads, drives, and parking areas.
3. Commercial roads, drives, and parking areas.
C. Final backfill in trenches beneath unimproved areas, lawns, landscaping, private
drives, and private parking areas shall be common fill unless otherwise shown on
the Drawings.
D. Backfill trench systematically, as early as possible, to allow maximum time for
natural settlement.
E. Place and compact select fill material in continuous layers not exceeding 6
inches in depth. Minimum compaction of select fill shall be 98% of maximum
density as determined by ASTM 0698 (AASHTO T-99, Method C). Compaction
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING, BEOOING ANO BACKFILL FOR PIPE
of select fill shall be by small portable plate compactor or other approved
method.
F. Place and compact common fill material in continuous layers not exceeding 12
inches in depth. Minimum compaction of common fill shall be 95% of maximum
density as determined by ASTM 0698 (AASHTO T-99, Method C). Compaction
of common fill shall be by mechanical means or other approved methods.
3.09 COMPACTION
A. Moisture Content
1. Compact materials at moisture content within +/-2% of the optimum to
permit specified compaction.
2. Add water or permit material to dry until optimum moisture content is
obtained.
B. Testing
1. Field test density of each compacted lift of initial backfill and select final
backfill in accordance with ASTM 02922 prior to placement of succeeding
lifts.
2. Make at least one test per lift for each 100 foot length of trench for initial
backfill and final backfill.
3. If less than the prescribed amount of backfill is placed and compacted in a
day, make one test per lift for each day's length.
C. Additional Field Density Tests
1. If test density of compacted backfill or fill is less than specified density,
make additional tests at locations directed by Engineer.
D. Proctor
1. Make one Proctor Test in accordance with ASTM 0698 (AASHTO T-99) for
each source of fill. If material from excavation is used as backfill material,
take a test proctor from the best available location as determined by the
testing lab.
2. Upon completion of backfill, take an additional proctor from actual material
used and compare to test proctor. If actual proctor varies from test proctor,
retest backfill..
END OF SECTION
January 201 0
02317.9
NCWRF COMPLIANCE ASSURANCE PROJECT
TRENCHING, BEDDING AND BACKFILL FOR PIPE
SECTION 02503
CLEANING AND FLUSHING OF PIPING SYSTEMS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for cleaning and flushing of piping systems.
1.02 REFERENCES
A. AWWA Standard for Installation of Ductile-Iron Water Mains and Their
Appurtenances (ANSI/AWWA C600-99).
B. AWWA Standard for Disinfecting Water Mains (ANSI/AWWA C651-99).
C. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SUBMITTALS
A. General: As specified in Section 01330-Submittals.
B. Submit copy of permit for flushing water disposal prior to flushing pipeline.
C. Submit flushing and cleaning water supply meter calibration record to Engineer.
1.04 REGULATORY REQUIREMENTS
A. Apply for permit from South Florida Water Management District prior to starting
installation of pressure piping system. Apply, pay fees, and make all other
arrangements for disposal of discharge from flushing.
B. Comply with permit requirements for flushing water disposal. Meet regulatory
requirements relative to disposal of discharge water from flushing.
PART 2 - PRODUCTS (not used)
PART 3 - EXECUTION
3.01 PREPARATION
A. Furnish and install taps, connections, pipe, fittings, valves, pumps, and tanks required to
flush and clean piping. Taps, connections, pipe, fittings, valves, pumps, and tanks shall
be of proper size to provide flushing velocity specified in this Section.
B. For piping cleaned by pigging, furnish and install connections, pipe, fittings, and valves for
launching and catching pig.
02503.1
NCWRF COMPLIANCE ASSURANCE PROJECT
CLEANING AND FLUSHING OF PIPING SYSTEMS
January 2010
C. Provide backflow preventer, approved by the regulatory authority having jurisdiction, to
connection between flushing water connection and potable water system..
D. Furnish and install meter to record volume of water used for flushing and cleaning. Use
meter approved by the Engineer. An independent laboratory, or other facility acceptable
to the Engineer, shall have calibrated the meter within one year prior to the installation
date for flushing and cleaning.
3.02 FLUSHING AND CLEANING INTERIOR OF PIPING
A. General
1. Flush and clean interior of piping.
2. Flush potable water piping with potable water.
3. Flush all other piping with potable water or reclaimed water.
4. Coordinate flushing time and duration with Owner. The Owner shall be present at all
times during flushing.
5. The Owner does not guarantee that the specified minimum flushing rates can be
obtained from existing pressure piping systems. Contractor shall provide water,
pumps, tanks, and piping required to produce specified flushing velocity at no
additional cost to the Owner.
B. Flushing
1. For pipe sizes less than 12", full-bore flushing is required with a minimum flushing
velocity of 4 feet per second.
2. For pipe sizes 12" and greater, pigging is required for flushing. Follow manufacturers
recommendations for operation of pig. Run water until clear after recovery of pig.
3.03 DISPOSAL OF FLUSHING WATER
A. Discharge flushing water to storm drain systems in accordance with the permit for
disposal of flushing water and as specified in this Section. Provide silting basins and
other discharge treatment systems in accordance with permit for flushing water disposal
and to meet discharge permit requirements.
B. Dispose the flushing water without causing a nuisance or property damage.
C. Do not allow discharge from flushing to puddle or pond on construction site except in
areas designated and approved to receive flushing water.
D. Do not allow discharge from flushing to flow off construction site except through permitted
discharge structures and through pipes, conduits, and channels designated and approved
for discharge flow from flushing.
E. Do not use sanitary sewers for disposal of flushing water.
F. Do not discharge flushing water containing settleable solids into storm sewers.
G. Do not contaminate or disturb the environment of properties adjacent to the Work.
January 2010
02503.2
NCWRF COMPLIANCE ASSURANCE PROJECT
CLEANING AND FLUSHING OF PIPING SYSTEMS
H. Do not contaminate streams or other surface waters.
I. Provide temporary facilities and controls for flushing water discharge. Temporary facilities
and controls shall be appropriate to the project, including, but not limited to:
1. Silting basin, or basins, of adequate size.
2. Filters.
3. Coagulants.
4. Screens.
J. Discharge onto pavement shall not damage pavement.
3.04 CONNECTION OF NEW PRESSURE PIPING SYSTEM TO EXISTING PRESSURE PIPING
SYSTEM
A. Do not complete connection of new potable water piping system to existing potable water
piping system until Engineer has approved connection of new potable water piping system
to existing potable water piping system.
B. Do not complete connection of new potable water pressure piping system or pressure
wastewater system to existing piping system until flushing, cleaning, and pressure testing of
new piping system is complete.
C. Do not complete connection of potable water piping until bacteriologi<;:al clearance has been
received. Refer to Section 02505-Pressure Testing of Piping Systems, and Section 02507-
Disinfection of Potable Water Piping.
3.05 REMOVAL OF TEMPORARY FLUSHING AND CLEANING SYSTEM
A. Remove temporary pipe, fittings, valves, pumps, and tanks installed for flushing and
cleaning. Furnish and install caps on plain ends of pipe, plugs in joints bells, and blind
flanges on flanges after temporary piping is removed.
B. If shut-down of Owner's piping system, or systems, is required to remove temporary piping,
shut-down shall only be done by Owner. Notify Owner of requested shut-down not less
than 48 hours in advance of requested shut-down. Coordinate removal of temporary piping
with Owner's shut -down schedule.
END OF SECTION
January 201 0
02503-3
NCWRF COMPLIANCE ASSURANCE PROJECT
CLEANING AND FLUSHING OF PIPING SYSTEMS
SECTION 02505
PRESSURE TESTING OF PIPING SYSTEMS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for pressure testing of liquid piping systems.
1.02 REFERENCES
A. General: As specified in Section 01090 - Reference Standards.
B. ANSI/AWWA Standards
1. ANSI/AWWA C600
Appurtenances.
Installation of Ductile-Iron Water Mains and Their
2. ANSI/AWWA C605 Underground Installation of Polyvinyl Chloride (PVC)
Pressure Pipe and Fittings for Water.
3. Collier County Utilities Standards Manual, latest edition with revisions.
1.04 SUBMITTALS
A. General: As speCified in Section 01330-Submittals.
B. Submit pressure recording charts for hydrostatic test to Engineer not more than
three (3) days following pressure test.
1.05 NOTIFICATION
A. Notify Engineer at least 48 hours in advance of start of pressure test.
B. If the Engineer states that the Engineer will observe pressure test, do not start
pressure test unless the Engineer is present. If the presence of the Engineer is
required and testing is not observed by the Engineer, testing shall be repeated with
the Engineer present at no additional cost to the Owner.
C. If the Engineer states that the Owner will observe pressure test, do not start
pressure test unless the Owner is present. If the presence of the Owner is required
and testing is not observed by the Owner, testing shall be repeated with the Owner
present at no additional cost to the Owner.
PART 2 - PRODUCTS
2.01 TEST EQUIPMENT,
APPURTENANCES
PIPING, WATER STORAGE VESSELS, AND
January 2010
02505-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PRESSURE TESTING OF PIPING SYSTEMS
Contractor shall be responsible for the selection of pressure test equipment, piping,
water storage vessels, and appurtenances.
PART 3 - EXECUTION
3.01 PRESSURE TEST - GENERAL
Perform test on completed piping sections. Testing shall not proceed until concrete
thrust blocks are in place and cured, or other restraining devices are installed.
3.02 PREPARATION FOR TEST
A. All piping shall be thoroughly cleaned and flushed prior to testing to clear the
lines of all foreign matter.
B. Furnish and install taps and connections required to perform pressure test
C. Taps shall be of adequate size to fill and pressurize piping section to be tested.
D. If lower end of piping section to be tested is closed, provide tap at lower end of
plprng.
E. Tap piping at high points in piping section to be tested to release air from
piping.
F. Expel air from piping prior to application of test pressure.
3.03 PREPARATION FOR TEST - OPEN-END PIPING SYSTEMS
A. Securely install test plugs in or test caps on open ends of piping section to be
tested so they remain on the pipe with test pressure applied.
B. Provide tap in each test plug and test cap.
C. Test plugs and test caps shall be capable of holding 1.5 times the test pressure
applied to the piping section to be tested.
3.04 FILLING LINE TO BE TESTED
A. Place water into line at lower end of line.
B. Expel air from line.
3.05 HYDROSTATIC TEST
A. Test Pressure:
1. Potable Water Mains and Piping: 150 psi.
2. All Wastewater Piping: 150 psi.
3. All Reuse Water Piping: 150 psi
January 2010
02505-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PRESSURE TESTING OF PIPING SYSTEMS
B. Test Period: Not less than two consecutive hours.
A. For ductile iron pipe, the allowable rate of leakage shall be less than the
number of gallons per hour determined by the following formula:
L = (SD(P)~ 1133,200
Where
L = Allowable leakage in gallons per hour;
S = Length of pipe tested in feet;
0= Nominal diameter of the pipe in inches;
P = Average test pressure maintained during the leakage test in pounds
per square inch;
For pressure of 150 psi, L = 9.195 X 10.5 SO
D. For polyvinyl chloride (PVC) pipe, the allowable rate of leakage shall be less
than the number of gallons per hour determined by the following formula:
L = (ND(P)~ 17,400
Where
L = Allowable leakage in gallons per hour;
N = Number of joints in the length of pipeline tested;
o = Nominal diameter of the pipe in inches;
P = Average test pressure during the leakage test, in pounds per square
inch;
For pressure of 150 psi, L = 1.66 X 10.3 NO
E. Pressure and Leakage Recording - Record test pressure and leakage with a
recording pressure gauge. Submit record to Engineer.
3.06 VISUAL EXAMINATION
A. Visually examine exposed pipes, fittings, valves, hydrants, and joints during
pressure test.
B. Visually examine ground surface and filled trenches along route of piping for
visible leakage and indications of leakage.
3.07 SYSTEM REPAIR
A. Repair all visible leaks regardless of pressure test results.
January 2010
02505.3
NCWRF COMPLIANCE ASSURANCE PROJECT
PRESSURE TESTING OF PIPING SYSTEMS
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B.lf piping system fails pressure test, locate and repair leaks. Replace defective
pipe, fittings, valves, and other products at no additional cost to the Owner.
C. Repeat pressure testing and piping system repair until piping system meets the
requirements of this Section.
3.08 TEST CLEAN-UP
A. Remove testing equipment, piping, water storage vessels, and appurtenances.
B. Remove test plugs and test caps after test is successfully completed.
C. Plug taps water-tight after test is successfully completed.
END OF SECTION
January 201 0
025054
NCWRF COMPLIANCE ASSURANCE PROJECT
PRESSURE TESTING OF PIPING SYSTEMS
SECTION 02507
DISINFECTION OF POTABLE WATER PIPING
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for disinfection and bacteriological testing of potable water piping.
1.02 REFERENCES
A. General: As specified in Section 01090 - Reference Standards
B. AWWA Standards
AWWA C651 Disinfecting Water Mains
C. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SUBMITTALS
A. General: As specified in Section 01330-Submittals
B. Submit copy of permit for flushing water disposal to Engineer prior to flushing the pipeline.
C. Submit copy of bacteriological test report to Engineer as specified in this Section
1.04 REGULATORY REQUIREMENTS
A. Bacteriological Clearance: Contractor shall not put new potable water piping in service
prior to receipt of bacteriological clearance from regulatory authority having jurisdiction.
B. Flushing Water Disposal
1. Apply for permit from South Florida Water Management District prior to starting
installation of pressure piping system. Apply, pay fees, and make all other
arrangements for disposal of discharge from flushing.
2. Prior to flushing the pipeline, submit a copy of the permit for flushing water disposal
to the Engineer.
3. Comply with permit requirements for flushing water disposal. Meet regulatory
requirements relative to disposal of discharge water from flushing.
PART 2 - PRODUCTS
2.01 DISINFECTION SYSTEM
Contractor shall be responsible for the sizing and selection of disinfection system, disinfection
equipment, disinfection system piping, and appurtenances.
January 2010
02507.1
NCWRF COMPLIANCE ASSURANCE PROJECT
DISINFECTION OF POTABLE WATER PIPING
., ._~._._..... .,~._,-,--,_."...-
PART 3 - EXECUTION
3.01 DISINFECTION SEQUENCE
A. Prior to disinfection, the Contractor shall install potable water pipe, fittings, valves, and
appurtenances; complete any required repairs; and clean, flush, and pressure test the
potable water piping system.
B. Disinfect and flush potable water piping as specified in this Section.
C. Following flushing of chlorine solution, collect samples and perform bacteriological testing
as specified in this Section.
D. Install and disinfect piping for dry connections.
E. Disconnect and remove equipment, piping, and appurtenances after water mains are
successfully disinfected, bacteriological testing is complete, and water mains are
approved for connection to the existing water distribution system.
3.02 PREPARATION
A. Obtain approval from the Engineer prior to starting disinfection of potable water piping
system.
B. Furnish and install taps and connections required to inject chlorine solution into potable
water piping system.
3.03 BACTERIALOGICAL SAMPLE POINTS
A. Provide and install bacteriological sample points as shown on the Drawings.
B. Bacteriological sample points shall be at the following locations:
1. Test Sections 1,000 Feet and Smaller: One sample for each pipe section, tested at
the farthest point from chlorine injection.
2. Test Sections Greater Than 1,000 Feet: One sample for every 1,000 feet of line,
tested at regular intervals along water pipe sections.
3. Dead Ends: One sample at each dead end.
4. Other Locations: As shown on the Drawings.
C. Appropriately located fire hydrants may be utilized for sampling points. Under this
circumstance, the Contractor will be solely responsible for maintaining the hydrants in a
satisfactory environment for conducting the bacterial testing.
D. Utilities personnel will use bacteriological sample points for water main bacterial
clearance procedures.
3.04 DISINFECTANT
A. Disinfect potable water piping with chlorine.
B. Chlorinating agent shall be selected by the Contractor and accepted by the Engineer.
02507-2
NCWRF ODOR CONTROL-IQ MODS
DISINFECTION OF POTABLE WATER PIPING
October 2009
C. Acceptable chlorinating agents include the following:
1. Chlorine gas.
2. Calcium hypochlorite
3. Sodium hypochlorite
D. Select the chlorinating agent appropriate to the size and length of piping to be disinfected
and to the location of piping system. Do not use chlorine gas in residential, commercial,
or institutional areas.
E. Placing chlorine tablets or powder in the piping is not an acceptable method of
disinfection.
F. Provide equipment and feed system for chlorinating agent that is appropriate to the
chlorinating agent and the piping to be disinfected.
G. If disinfection cannot be achieved with the furnished and installed system, modify or
replace the disinfection system until disinfection of potable water piping can meet the
requirements of this Section.
3.05 DISINFECTION OF POTABLE WATER PIPING
A. Fill potable water piping with water containing 50 to 100 parts per million available
chlorine. Quantity of disinfectant required for 100 feet of pipe is presented in tables at
end of this Section. Tables are to be used only as a guide and are not guaranteed.
B. Perform disinfection using the following schedule unless otherwise approved by the
Engineer:
1. Friday: Inject chlorine solution;
2. Saturday and Sunday: Allow chlorine to remain in piping system.
3. Monday: Flush lines.
4. Tuesday and Wednesday: Collect bacteriological samples.
C. Feed chlorinating agent at or near the point from which potable water piping is to be filled.
Control flow and proportioning of water and chlorinating agent so that specified chlorine
concentration is achieved t~roughout piping to be disinfected. Eliminate air pockets as
piping is filled. .
D. Allow chlorine solution to stand in piping for not less than 48 hours.
E. Operate valves and other appurtenances during disinfection to assure sterilizing mixture
is dispersed into all parts of system being disinfected.
F. Check chlorine residual at sample points after chlorine solution has remained in piping for
48 hours or longer. Disinfection and chlorine residuals shall conform to AWWA C600 and
C601.
3.06 DISPOSAL OF CHLORINE SOLUTION
October 2009
02507-3
NCWRF ODOR CONTROL-IQ MODS
DISINFECTION OF POTABLE WATER PIPING
A. After chlorine solution has been retained for the required time, flush and fill pipes with
potable water from the distribution system in service.
B. Discharge water from flushing to storm drain systems In accordance with permit for
disposal of flushing water and as specified in this Section.
C. Reduce chlorine concentration to a level that will not harm plants or animals in ditches,
streams, canals, ponds, lakes, waterways, bays, estuaries, or any other location that
could be impacted by disinfectant discharge. Provide temporary dechlorination tanks,
equipment, and chemicals as required to reduce the chlorine concentration to a level that
will not harm plants or animals. The chlorine concentration in the discharge to a storm
drain system shall not exceed 0.1 parts per million.
3.07 BACTERIOLOGICAL SAMPLING AND TESTING
A. The Owner shall take water samples for bacteriological examination after receiving
adequate notice, 48 hours minimum, from the Contractor.
B. . The Owner shall perform bacteriological tests.
C. Bacteriological test shall meet the requirements of AWWA C651.
D. Bacteriological Test Reports: Include the following in each bacteriological test report:
1. Date issued;
2. Project name;
3. Testing laboratory name, address, and telephone number;
4. Time and date of water sample collection;
5. Name of person collecting sample;
6. Test location, or locations;
7. Initial and 24 hour disinfectant residuals in mglL for each sample point.
8. Coliform bacteria test results for each sample point.
9. Certification that water conforms, or fails to conform to bacteriological standards of
the State of Florida;
10. Bacteriologist's signature.
3.08 PLACING POTABLE WATER PIPING IN SERVICE
A. Do not place potable water piping in service until the Engineer has approved placing potable
water piping in service.
B. Do not place potable water piping in service until disinfection of potable water piping has
been completed and bacteriological clearance for potable water piping has been received.
02507-4
NCWRF ODOR CONTROL-IQ MODS
DISINFECTION OF POTABLE WATER PIPING
October 2009
October 2009
Appropriate Quantity of Calcium Hypochlorite Solution (70% Available Chlorine)
Required to Produce 50 mgll of Available Chlorine per 100 feet of Pipe
Pipe Size Pounds per 100 Feet Ounces per 100 Feet
%" 0.001 0.01
%" 0.002 0.02
111 0.003 0.04'
1%" 0.004 0.06
1%" 0.006 0.09
2" 0.010 0.16
2%" 0.015 0.25
3" 0.022 0.35
4" 0.039 0.62
6" 0.087 1.4
8" 0.16 2.5
10" 0.24 3.9
12" 0.35 5.6
14" 0.48 7.6
16" 0.62 10
1811 0.79 13
20" 0.97 16
24" 1.4 22
30" 2.2 34
36" 3.1 50
42" 4.3 69
48" 5.6 90
5411 7.2 110
60" 8.8 140
64" 10 160
02507-5
NCWRF ODOR CONTROL-IQ MODS
OISINFECTION OF POTABLE WATER PIPING
"-'__ r
"""" , -","~^".'-'P" ,__
..._---~._.-
Approximate Quantity of Sodium Hypochlorite Solution (5.25% to 14.7% Available Chlorine)
Required to Produce 50 mgll of Available Chlorine per 100 feet of Pipe
Ounces per 100 Feet Quarts per 100 Feet
14.% 5.25% 14.7% 5.25%
Pipe Size available available available available
chlorine chlorine chlorine chlorine
%11 0.05 0.1 0.001 0.004
%" 0.10 0.3 0.003 0.010
1" 0.20 0.5 0.006 0.020
1%" 0.30 0.8 0.009 0.030
1%" 0.40 1.2 0.013 0.040
2" 0.80 2.1 0.023 0.070
2~" 1.2 3.3 0.036 0.10
3" 1.7 4.7 0.052 0.15
4" 3.0 8.3 0.093 0.26
6" 6.7 19 0.21 0.58
8" 12 33 0.37 1.0
10" 19 52 0.58 1.6
12" 27 75 0.83 2.3
14" 36 100 1.1 3.2
1611 47 130 1.5 4.1
18" 60 170 1.9 5.2
2011 74 210 2.3 6.5
24" 110 300 3.3 9.3
30" 170 470 5.0 14
36" 240 680 7.2 21
42" 9.8 28
48" 13 36
5411 16 46
60" 20 56
6411 23 64
END OF SECTION
02507-6
NCWRF ODOR CONTROL-IQ MODS
DISINFECTION OF POTABLE WATER PIPING
October 2009
SECTION 02530
GRAVITY SANITARY SEWER SYSTEM
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for sanitary sewer piping, fittings, and accessories connecting building sanitary
drainage systems to municipal sewers.
1.02 REFERENCES
A. ASTM 03034 - Polyvinyl Chloride (PVC) Sewer Pipe and Fittings.
B. ASTM F679 - PolYvinyl Chloride (PVC) Large Diameter Plastic Gravity Sewer Pipe and
Fittings.
C. ASTM 02321 - Underground Installation of Flexible Thermoplastic Sewer Pipe.
D. ASTM 01784 - Rigid Polyvinyl Chloride (PVC) Compounds and Chlorinated Polyvinyl
Compounds (CPVC).
E. ASTM 03212 - Joints for Drain and Sewer Plastic Pipes Using flexible Elastomeric Seals.
F. ASTM F477 - Standard Specification for Elastomeric Seals (Gaskets) for Joining Plastic
Pipe.
G. SSPCPA-2 - Film Thickness Rating
H. AWWA C151 - Ductile Iron Pipe Centrifugally Cast, for Water.
I. AWWA C210 - Standard for Liquid-Epoxy Coating Systems for the Interior and Exterior of
Steel Water Pipelines.
J. AWWA C900 - Polyvinyl Chloride (PVC) Pressure Pipe, 4" through 12".
K. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SUBMITTALS
A General: As specified in Section 01330 - Submittals.
B. Submit certification of pipe lining to Engineer prior to installation of ductile iron pipe.
C. Submit results of infiltration/exfiltration tests to Engineer for approval prior to backfill of
pipeline.
PART 2 - PRODUCTS
2.01 SEWER PIPE MATERIALS
January 2010
02530-1
NCWRF COMPLIANCE ASSURANCE PROJECT
GRAVITY SANITARY SEWER SYSTEM
A. Plastic Pipe & Fittings: Conform to ASTM 03034 or F679 as appropriate, polyvinyl chloride
(PVC) material; inside nominal diameter as required; bell and spigot style joint, elastomeric
rubber gasket conforming to ASTM F477, SDR 26. Maximum length pipe shall be 12' - 6".
PVC material used in pipe shall be as specified in ASTM 01784, Cell Classification 12454-
B. Joints shall conform to ASTM 03212. Color of pipe shall be green. PVC pipe shall be
Pressure Class 200 with a Dimension Ratio of 14, conforming to the requirements of
AWWA C-900.
C. Ductile Iron Pipe
1. Pipe shall be centrifugally cast, ductile iron pipe in accordance with AWWA C151. The
working pressure for the pipe shall be 150 psi.
2. Line the interior of all ductile iron pipe and fittings with an epoxy lining. The epoxy lining
shall be Protecto 401 Ceramic Epoxy as manufactured by the Protecto Division of
Vulcan Painters, Inc. Line all pipe and fittings with a minimum dry film thickness of 40
mils, except for the gasket groove and spigot end up to six inches back from the end of
the spigot which shall be iined with ten mils of the material. All ductile iron pipe and
fittings shall be checked for dry film thickness in accordance with the SSPCPA-2. Mark
each pipe joint and fitting with the date of application of the lining system and with its
numerical sequence of application on that date. The pipe supplier shall furnish a
certificate stating that the lining applicator has complied with all specification
requirements relative to the material, its application of the lining, and inspection.
Surface preparation, number of coats, application of the lining material and field touch-
up shall be in strict accordance with the lining material manufacturer's
recommendations.
3. Prior to shipping, apply asphaltic coating in accordance with AWWA C151 to the
exterior wall of piping and fittings to be buried. For all exposed and interior piping, a
coating of rust inhibitive primer shall be applied in conformance with Section 09850-
Painting.
2.02 MANHOLES
Manholes shall be as specified in the applicable County Ordinances and Division 3. All interior
manhole surfaces shall receive a coating as specified in the Collier County Utilities Standards
Manual.
PART 3 . EXECUTION
3.01 EXAMINATION
A. Verify that trench cut is ready to receive work, and excavations, dimensions, and elevations
are as indicated in the field.
B. Beginning installation means acceptance of existing conditions.
3.02 PREPARATION
A. Excavate trench as specified in Section 02317-Trenching and Backfilling for Pipelines.
Hand trim excavations to required elevations. Correct over excavation with select backfill
material.
B. Remove large stones or other hard matter which could impede consistent backfilling or
compaction.
02530-2
NCWRF COMPLIANCE ASSURANCE PROJECT
GRAVITY SANITARY SEWER SYSTEM
January 2010
3.03 INSTALLATION
A. Install pipe, fittings, and accessories in accordance with ASTM 02321 and manufacturer's
instructions. Sealjoints watertight.
B. Lay sanitary sewer pipe in trenches commencing at lowest point, with spigot ends pointing in
direction of flow. Interior of pipe and jointing seal shall be free from sand, dirt and trash.
Jointing of pipe shall be in strict accordance with manufacturer's instruction and shall be
done entirely in trench. Lay pipe to slope as shown on Drawings.
C. Grade trench bottom for all types of pipe to proposed elevation of pipe line and shape
bottom to fit lower quadrant of pipe. Excavate holes at each bell so that pipe is supported
along entire length of barrel only. Each pipe shall be solidly and evenly bedded.
D. At all times when pipe laying operations are not in progress (including lunch hours), place a
suitable stopper in end of pipe to prevent water, mud, or other foreign material from entering
the pipe.
E. Lay no length of pipe until preceding pipe has been thoroughly embedded in place. Lay no
pipe except in presence of Engineer or his representative.
F. Lay sewer accurately to line and grade. Tolerances are 1/4-inch in grade and 1/2-inch on
line in any section between manholes. Deviations exceeding those tolerances shall be
grounds for rejection of line. Set batter boards at maximum intervals of 25 feet. Contractor
may use a laser for control of line and grade in lieu of batter boards. Qualified personnel
shall operate laser equipment. Inspect all stubs and laterals for line and grade prior to
backfilling.
G. During the installation of the pipe, the lining material manufacturer shall provide the services
of a field engineer to instruct and demonstrate to the Contractor's personnel the procedure
for the field touch-up of lining where field cuts and taps were required. For manhole base,
excavate to sufficient depth to permit construction on undisturbed bottom of excavation. Set
base of precast manhole on a minimum of 12 inches of crushed stone bedding. An
approved flexible coupling shall be used for all pipe connections.
H. Backfill pipeline as specified in Section 02317-Trenching, Bedding and Backfilling for
Pipelines. Do not displace or damage pipe when compacting.
I. All main-line extension stubs shall have reflective tape attached to the inside of the line plug
and shall be lamped during inspection.
3.04 TESTINGIINSPECTION
A. Manufacturer Testing
Holiday inspection shall be conducted using test equipment described in American Water
Works Association Standard, AWWA C210, Section 5.3.3.1. In accordance with coating
manufacturer's recommendation, holiday testing may be conducted any time after the
coating has reached sufficient cure.
B. Field Testing
1. Conduct infiltration/exfiltration tests on main lines and lateral lines for a minimum test period
of 24 hours. Provide all materials, eqUipment and labor necessary to perform
infiltration/exfiltration tests as set forth herein. Maximum allowable amount of
infiltration/exfiltration measured by test shall not exceed 50 gallonslinch of pipe
diameter/mile/24 hours with no additional allowance for manholes or service and house
January 2010
02530.3
NCWRF COMPLIANCE ASSURANCE PROJECT
GRAVITY SANITARY SEWER SYSTEM
-..--,-..-.-.---.......
"_.,._._-,-,---,~..-
laterals. Maximum increment of testing shall be 1000 L.F. Test pipe as the job progresses
and begin testing after no more than 1,000 feet of pipe are laid.
2. Test pipe for infiltration when crown of pipe is below natural ground water table at time and
place of testing. Install suitable watertight plugs and pump section of pipe to be tested dry
before start of test.
3. Where crown of the pipe is above the natural water table, test pipe for exfiitration by
installing necessary plugs and filling pipes and manholes with water. Maintain a static head
of water a minimum of 2 feet above highest service lateral or 5 feet above the crown of pipe
at the upstream manhole during test. The water level or intemal pressure to be used for
exfiltration tests shall be determined by Engineer.
4. Repair all visible leaks, regardless of results of infiltration or exfiltration tests. Replace
broken or cracked pipes. Test all manholes for watertightness.
5. Notify engineer at least 48 hours prior to any inspection or test being run for acceptance.
Engineer or his representative shall be present during all tests for acceptance.
6. Inspect sections to be tested for acceptance for defects prior to giving notice to Engineer. If
any section fails to pass tests for acceptance, make all repairs needed and retest the
section.
C. System Testing
The Contractor shall conduct low pressure air tests and structural leakage tests as
described in Collier County Utilities Standards Manual, Technical Specification 022501,
latest edition with revisions.
D. Televising and Inspection
The Contractor shall televise, video record and inspect the gravity sewer system as
described in Collier County Utilities Standards Manual, Technical Specification 330130.16,
latest edition with revisions.
END OF SECTION
January 2010
025304
NCWRF COMPLIANCE ASSURANCE PROJECT
GRAVITY SANITARY SEWER SYSTEM
SECTION 02630
STORM SEWERS AND STRUCTURES
PART 1 - GENERAL
1.01 SECTION INCLUDES
All materials and methods to construct or repair and place into operation a storm sewer
system as shown on the Drawings and as directed in the field.
1.02 REFERENCES
ASTM C-76 - Standard - Specification for Reinforced Concrete Culvert, storm Drain, and
Sewer Pipe
ASTM C-270 - Standard - Specification for Mortar for Unit Masonry
ASTM C-150 - Standard Specification for Portland Cement
ASTM C-144 - Standard Specification for Aggregate for Masonry Mortar
ASTM C-91 - Standard Specification for Masonry Cement
ASTM A-48 - Standard Specification for Gray Iron Castings
ASTM A-615 - Standard Specification for Deformed and Plain Billet-Steel Bars for
Concrete Reinforcement
ASTM 0-2729 - Standard Specification for Poly (Vinyl Chloride) (PVC) Sewer Pipe and
Fittings
FOOT Standard Specifications Sections
400 Concrete Structures
415 Reinforcing Steel
425 Inlets, Manholes, and Junction Boxes
430 Pipe Culverts and Storm Sewers
941 Concrete Pipe (For Culvert and Underdrains)
942 Pipe Gaskets
943 Corrugated Steel Pipe and Pipe Arch (Including Underdrain)
945 Aluminum Pipe, Including Underdrain, Pipe Arch and Struc;tural Plate Pipe
and Pipe Arch
Collier County DOT Standards and Utilities Standards Manual, latest editions with revision.
1.03 SUBMITTALS
A. General: As specified in Section 01330 - Submittals.
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
STORM SEWERS AND STRUCTURES
02630-1
B. Submit written results of inspection as noted in Part 3 of this Section.
PART 2 - PRODUCTS
2.01 REINFORCED CONCRETE PIPE
A. Reinforced Concrete Pipe shall be ASTM C-76, Class III with Wall Type B
reinforcement; inside nominal diameter as shown on Drawings; bell and spigot end
joints. Pipe joints shall be rubber gasket joints conforming to Sections 941 and 942. of
FOOT Standard Specifications. The use of lifting holes in pipe 30" in diameter and less
shall not be allowed. Fiber reinforced (2!pe shall not be allowed.
2.02 METAL PIPE
A. Bituminous-coated corrugated metal pipe shall meet the requirements of Section 943
or Section 945 of FOOT Standard Specifications.
2.03 PVC PIPE
A. Perforated polyvinyl chloride (PVC) pipe shall conform to ASTM 0-2729.
2.Q4 MORTAR
Mortar used for constructing and plastering manholes, drop inlets and junction boxes: In
accordance with ASTM Specifications Serial Designation C-270. Contractor has the
option of using either a portland cement/hydrated lime mixture or a portland cement
mixture with masonry cement added for improved workability; however, the Contractor
shall use the same materials throughout the project. Mortar materials shall be
proportioned by volume as follows:
A. One (1) part Type I Portland Cement - ASTM C-150.
B. Three (3) parts Aggregate (sand) - ASTM C-144.
C. The addition of masonry cement (ASTM C-91) will be permitted to improve workability
of mortar.
2.05 REINFORCING BARS
Reinforcing bars shall be deformed reinforcing steel conforming to Specifications for
Deformed and Plain Billet-Steel Bars for Concrete Reinforcement (ASTM A-615), for
concrete reinforcement. All bars shall be lapped and placed in accordance with ACI
requirements and specifications.
2.06 IRON CASTINGS
A. Casting shall conform to latest revision of the ASTM A-48 for Class 30 Gray Iron.
They shall be cast in a closed mold with controlled sand and be true to pattern.
Casting shall be free from blow holes and porosity, well cleaned, with fine and sharp
edges ground smooth. All circular frames and covers shall be machined (on lathe)
bearing surfaces to prevent rattling under traffic. All manhole covers shall have "Storm
Sewer" cast thereon and comply with County regulations and standards. All square
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
STORM SEWERS ANO STRUCTURES
02630-2
and rectangular frames, covers and grates shall be individually fitted as sets and
installed as sets in the field.
B. Manufacturer shall provide letter of guarantee for a period of 15 years. Upon request
of Engineer, manufacturers shall also furnish an independent testing laboratory's
report of castings supplied. Frame and cover surfaces shall be machined and any
tendency to rattle, as determined by tests before or after installation, will be sufficient
cause for rejection of the frame and cover.
2.07 STRUCTURES
A. Concrete for catch basins, storm sewer manholes and concrete headwalls shall
develop a compressive strength of 4000 psi in 28 days.
B. All structures shall conform to Sections 400, 415, and 425 of FOOT Standard
Specifications.
PART 3 - EXECUTION
3.01 HANDLING
A. Load and unload pipe and accessories by lifting with hoists or skidding in a manner
that will avoid shock or damage. Under no circumstances shall such materials be
dropped. Pipe handled on skidways shall not be skidded or rolled against pipe
already on the ground.
B. In distributing material at the site of the work, unload each piece near where it shall
be laid in the trench.
3.02 LAYING PIPE
A. Complete trenching and backfilling as specified. Inspect sewers when line is
completed and backfill has been placed to a depth of one foot over the pipe.
Complete backfill only after approval of each section has been given for line and
grade.
B. Remove and relay faulty sections of line rejected by Engineer.
C. Exercise care to insure pipe is carefully centered so laid storm sewer will have a
uniform invert.
D. Keep pipe joints clean at all times, and use no pipe in the work which does not
conform to specifications.
E. At all times when pipe-laying operations are not in process (including lunch hours),
place a watertight stopper in the end of the pipe last laid to prevent water, mud or other
foreign materials from entering the pipe. Insure all construction conforms to Section
430 of FOOT Standard Specifications.
3.03 JOINING PIPE
January 201 0
NCWRF COMPLIANCE ASSURANCE PROJECT
STORM SEWERS AND STRUCTURES
02630-3
- -_.^-~ '-'-""~-~--~--~.~-~-,"-"~--~ '.....~"._..-._-
A. Join all pipe by rubber gasket O-ring joints installed in strict accordance with
recommendations of pipe manufacturer.
B. Corrugated metal pipe joints shall consist of bolted galvanized metal connecting band
installed with neoprene gasket.
C. Joints shall be designed to limit movement due to expansion, contraction and normal
settlement.
D. When using Elliptical Concrete Pipe, all joints are to have Ram Neck used as a gasket
or equivalent, and all joints are to be wrapped per Section 430-7.3 of FOOT Standard
Specifications.
3.04 CATCH BASINS, STORM SEWER MANHOLES AND CONCRETE HEADWALLS
A. Construct junction boxes, storm sewer manholes, and concrete headwall at location
and depth indicated on drawings and in accordance with details shown hereon.
Excavate and backfill in accordance with applicable sections of specifications. Seal
joints between walls and incoming and outgoing pipes with portland cement mortar to
form a watertight joint. Cut off all pipes in junction boxes, storm sewer manholes, and
concrete headwalls flush with the face of the structure and grout broken ends of these
pipes with portland cement mortar to a smooth uniform covering with no steel exposed.
B. Construct grated inlets and junction boxes to elevations and dimensions shown on the
Drawings. Final adjustment of the gratings can be made while mortaring the frames in
place. Secure grating frames in mortar struck smooth inside and out.
3.05 INSPECTION
A. The Contractor shall inspect all installed storm sewer pipes by 'Iamping'. Lamping is
accomplished by placing a light at one end of the pipeline, and viewing the inside of
the pipe from the other end.
B. The Contractor shall ensure that the pipeline is clean, straight, round and with no
collapsed or indented sections.
C. The Engineer shall be present during all inspections to confirm the visual findins.
D. The Contractor shall replace sections not acceptable to the Engineer.
END OF SECTION
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
STORM SEWERS AND STRUCTURES
026304
SECTION 02660
GEOMEMBRANE LINED RESERVOIR
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for furnishing and installing a geomembrane liner for Ponds 2 and 4
and for liner repairs and modifications at Ponds 1, 3 and 5, all as shown on the
Contract Drawings.
1.02 REFERENCES
A. Resin Properties
1. ASTM 0-792 Standard Test Methods for Density and Specific Gravity
(Relative Density) of Plastics by Displacement
2. ASTM 0-570 Standard Test Method for Water Absorption of Plastics
3. ASTM 0-746 Standard Test Method for Brittleness Temperature of Plastics
and Elastomers by Impact
4. ASTM 0-1238 Standard Test Method for Flow Rates of Thermoplastics by
Extrusion Plastometer
5. ASTM 0-3895 Standard Test Method for Oxidative-Induction Time of
Polyefins by Differential Scanning Calorimetry
B. Manufactured Liner Properties
1. ASTM 0-3015 Standard Practice for Microscopical Examination of Pigment
Dispersion in Plastic Compounds
2. ASTM 0-1603 Standard Test Method for Carbon Black in Olefin Plastics
3. ASTM 0-792 Standard Test Methods for Density and Specific Gravity
(Relative Density) of Plastics by Displacement
4. ASTM 0-1693 Standard Test Method For Environmental Stress-Cracking of
Ethylene Plastic
5. ASTM 0-1593 Standard Specification for Nonrigid Vinyl Chloride Plastic
Film and Sheeting
6. FTMS 101/2065
C. Field Seam Properties
January 2010
02660-1
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
__w"..._._~,,_ . 'u. ~._".,_..,
1. ASTM 0-638 Standard Test Method for Tensile Properties of Plastics
2. ASTM 0-1822 Standard Test Method for Tensile-Impact Energy to Break
Plastics and Electrical Insulating Material
3. ASTM 0-1004 Standard Test Method for Initial Tear Resistance of Plastic
Film and Sheeting
4. ASTM 0-1204 Standard Test Method for Linear Dimensional Changes of
Nonrigid Thermoplastic Sheeting or Film at Elevated Temperature
1.03 SUBMITTALS
A. General: As specified in Section 01330 - Submittals.
B. Submit name and qualifications of specialty company to perform liner installation
and repairs.
C. Submit the manufacturer's certifications for the liner to the Engineer prior to
delivery of liner at the job site.
D. Submit the proposed panel layout diagram to the Engineer prior to installation.
E. Submit the proposed Quality Control Program to the Engineer prior to
installation.
F. At the termination of installation, submit copies of all daily reports, testing
reports, welding reports final panel layout diagram and other information required
for quality control to the Engineer, Including manufacturer's Certificate of Proper
Installation and Operation.
1.04 QUALITY CONTROL
A. General
As specified in Section 01450 - Quality Control.
B. The Contractor shall prepare and submit a Quality Control Program to the
Engineer, which shall include the following as a minimum:
1. Resumes of installation supervisors and quality control speciaiist that show
relevant experience.
2. The full-time participation of a quality control specialist to observe installation
and perform all necessary field quality control tests.
3. Proposed format for daily reports, testing reports, welding reports and other
documents.
4. Non-destructive testing program
5. Destructive testing program
02660-2
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
January 2010
C. The Contractor shall follow the requirements stated in the Quality Control
Program.
1.05 WARRANTY
A. As specified in Section 01780 - Warranties and Bonds
B. The manufacturer shall provide a written, full warranty all materials for a
minimum period of 10 years from the date of Substantial Completion.
C. . The installation shall have a fuli warranty for a minimum period of 5 years from
the date of Substantial Completion.
PART 2 - PRODUCTS
2.01 MANUFACTURER
A. The liner manufacturer shall be directly responsible for installation of the liner
using only a labor force trained, experienced and fully dedicated to installation of
HOPE liners.
B. The liner manufacturer and installer shall be GSE Lining Technology, Houston,
Texas or approved equal. The manufacturer and installer shall, demonstrate
similar project experience on over ten projects in the last two years and submit
project references and contract information for approval. The manufacturer shall
also submit similar project experience and references on at least ten projects
with a five year warranty, all of which were installed over six years ago.
2.02 RAW MATERIALS
All raw material supplied to the manufacturer shall be delivered in rail car batches
and must be supplied with test certification from the raw material supplier. The
certification must state the results of tests which confirm the quality of the resin. The
raw material supplier must also confirm that each batch of resin is ali of the same
type and is 100% Virgin. Each batch of resin shall be given an identification (batch)
number which shall be used and remain on file to keep track of all rolls manufactured
from each batch. The use of any off spec, recycled or blends of resins will not be
considered. Prior to the production of the membrane, the membrane manufacturer
shall test the raw material batches to certify the raw material suppliers test results
and entity of the singular resin.
2.03 MANUFACTURE
A. The geomembrane shall be a Premium Grade High Density Polyethylene
(HOPE). The membrane shall be manufactured by flat-cast extrusion process
only, and consist of single resin being one hundred (100%) Virgin and of a
narrow molecular distribution. Carbon black shall be added to the Resin for
ultraviolet resistance, the flexible membrane shall be manufactured to the
following approximate ratios; HOPE 97.5% - Carbon Black 2.5%.
January 2010
02660-3
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
_ ."___,~_ _'_",__',..m U _.".,., "_N ~..~..~_~.__.__.._,__'~...,_
B. All membrane shall be provided in rolls of a minimum width of 15 feet. Each roll
shall be labeled to provide the following identifying data:
1. Name of Manufacturer and Type
2. Material Thickness
3. Roll No.
4. Roll Length
5. Roll Weight
6. Roll Width
7. Cross reference numbers to Raw Material Batch and all laboratory certified
reports
8. The manufacturer's approved QA stamp and the technician's signature
C. The material shall be free from holes, blisters, folds, undispersed raw materials
and any sign of contamination by foreign matter. M~mbrane material shall meet
the requirements of the attached technical specification (Table 1).
S ecification For 60 mil Smooth HDPE Geomembrane
Pro ert Value Test Method
Thickness (nominal) (mills 60
Thickness (min. avg) (mils)
60
Lowest individual of 10 05199 per roll
. 54
values
Tensile Properties (min. avg.) 0638 Type IV
. Yield Strength (Ib/in) 126 (2 ipm)
. Break Strength (Ib/in) 228 50,000 SF
. Yield Elongation (%) 12 (1.3" gauge)
. Break Elongation (%) 700 (2.0" gauge)
Tear Resistance 42 01004 50,000 SF
min.av . lb
50,000 SF
Puncture Resistance 108 04833 Certified
min.av . lb
2.0-3.0 01603/04218 50,000 SF
Carbon Black Dis erslon
1
05596
50,000 SF
02660-4
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
January 2010
Densi
0.940
01505/0792
Resin Batch
Stress Crack Resistance
200
Resin Batch
Dimensional Stability
Max.av . %
+2
01204
Resin Batch
(1) Carbon black dispersion for 10 different views: All 10 in category 1 or 2.
2.03 MANUFACTURER QUALITY CONTROL
A. Thickness: Each roll shall be tested automatically and evenly over its entire
surface area, the minimum parameters acceptable for testing each roll shall be
6,000 thickness point checks
B. Sheet Quality: Each roll shall be tested automatically using high voltage over its
entire surface area for any point of Electrical Continuity through (across) the
thickness of the sheet. The high voltage scanner shall be capable of detecting
any pinhole, void or significant reduction of electrical resistance. Any roll
detected to have holes or electrically conductive inclusions shall be rejected and
not sent to the site.
C. Documentation: Each roll delivered to site shall be provided with a roll test data
report. These reports shall provide the test results as per the specified ASTM
standards. The reports must also carry the manufacturer's laboratory QAlQC
approval seal.
PART 3 - EXECUTION
3.01 SUBGRADE PREPRATION
All subgrade surfaces over which the HOPE geomembrane shall be placed or
replaced will be prepared as follows:
A. The area to be lined shall be smooth and free of stones, rocks, roots, sticks and
any sharp objects or debris of any kind.
B. The surface shall provide a firm unyielding uniform base for the membrane. The
surface shall be compacted to a minimum density of 90% Standard Proctor and
as required to allow the movement of vehicles, welding equipment, and
personnel on it without causing rutting or other detrimental effects. The area to
be lined shall not be effected by rising ground water, standing water or excessive
moisture. The subgrade preparation shall be approved by the lining installer.
3.02 INSTALLATION OF FLEXIBLE MEMBRANE
January 2010
02660-5
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
The Contractor shall install the membrane as per the recommended methods of the
membrane manufacturer. The membrane panel layout will be the responsibility of the
installer with approval of the Engineer. Individual panels of membrane shall be either
pre-cut andlor continuously placed down the embankment andlor across the base
. .
and shall be overlapped with adjacent membrane sheets by a minimum of 4 inches.
The geomembrane liner shall terminate within an anchor trench located 3 feet away
from thE;! top of the embankment. Once the membrane is in place the anchor trench
must be backfilled and siutably compacted to prevent slippage of the membrane.
The membrane installer shall be responsible for making allowances considered
necessary to accommodate variations in temperature and weather conditions.
3.03 FIELD WELDING OF GEOMEMBRANE
A. Primary Welding Method: All primary welds shall utilize the Wedge Fusion
welding method. The Wedge welder shall be a fully automated device
comprising of a heated copper wedge, pressure rollers, and electronic controls.
The copper wedge shall be controlled and constantly monitored by a
programmable controller with an audible off-temperature alarm and a variable
speed drive unit. The copper wedge shall create two contact fusion areas of a
minimum width of 15mm and a 5mm minimum wide void between each of the
separate parallel weld zones. This void shall be created over the entire seam
length to allow for field weld pressure testing.
B. Secondary Welding Method: All secondary welds shall utilize extrusion welders.
The minimum width of the surface extruded bead shall be 30mm. The extrusion
welder shall be semi-automated and equipped with electronic controls which
constantly monitor outputs for both preheat and HOPE extrudate. The unit shall
be capable of pre-heating the sheet just prior to the casting of HOPE extrudate
over the upper and lower section of the weld zone. The extruded granulate for
surface extrusion welding shall be manufactured from the same resin type used
in the manufacture of the membrane, all physical properties shall be identical to
those possessed by the membrane raw material. The manufacturer shall provide
certified test data with each batch of welding granulate, all granulate supplied
shall be packed to prevent the ingress of moisture and other contaminates. If
necessary the installer shall also employ an apparatus specifically built for drying
granulate to ensure weld quality.
C. General Site Welding: The Contractor shall be responsible for regularly
checking, calibrating, and recording the following items:
1. Preheat air flow and temperature at the nozzle
2. Extrudate flow and temperature at the barrel outlet
3. Split Copper wedge temperature on both contact points
D. Weld Preparation: The Contractor shall ensure prior to any primary or secondary
welding that weld zones be clean, free from moisture, dust, and any other foreign
matter. All weld zone surfaces shall be either cleaned or abraded no more than
30 minutes prior to the commencement of welding any seam. In certain
conditions, it maybe necessary for the installer to clean andlor abrade the weld
zone areas only minutes prior to the required weld.
January 2010
02660-6
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
E. Trial Welds: Trial welds shall be made on fragment pieces of membrane to verify
that welding machine parameters are set to produce satisfactory welds. Such
trial welds shall be made prior to actual field welds and at the beginning of each
welding period. The trial weld samples shall be at least 3 ft. long by 1 ft wide
with the weld centered lengthways. Four 1-inch wide samples shall be cut from
the trial weld using a calibrated die cutter and tested on a calibrated tensiometer
in shear and peel to determine whether the test welds have passed or failed.
3.04 TESTING OF FIELD WELDS
All welds shall be subjected to both Destructive and Non-Destructive testing. The
following tests shall apply:
A. Split Hot-Wedge Fusion Weld Destructive Testing: Destructive seam tests shall
be performed at random selected locations during the installation by the principal
and installer, at a minimum of one sample every 600 ft. The purpose of these
tests shall be to confirm and evaluate seam strength and continuity during the
field seaming. Each sample shall be cut using a calibrated die cutter into two 1-
inch wide pieces and shall be tested in shear and peel. In the event of a failure,
all prior welds shall be tested back to the last test which passed. The installer
shall repair and make good the defective seamlseams to the satisfaction of the
Engineer.
B. Split Hot-Wedge Fusion Weld Non-Destructive Testing: - 100% of all wedge
welds will be non-destructively tested. The air pressure channel testing unit
required shall be a manometer apparatus consisting of a hollow needle attached
to a pressure gauge and air fitting. Air pressure can generally be provided by
manual or mechanical pumps. The testing unit shall be capable of withstanding
and maintaining pressures between 23 to 44 psi. The following procedure for air
channel testing shall be followed:
1. Seal both ends of the seam to be tested.
2. Insert manometer into the tunnel created by the wedge welder.
3. Connect air pump, pressurize the tunnel to a minimum of 23 psi, and
maintain the pressure for approximately 60 seconds.
4. If loss of pressure exceeds 2 psi or does not stabilize, locate faulty area,
repair with surface extrusion weld and re-test seam.
5. Remove the manometer and seal with extrusion surface weld.
C. Surface Extrusion Welding Destructive Testing: Destructive seam tests shall be
performed at random locations during the installation selected by the Engineer at
a minimum of one sample every 600 ft. The purpose of these tests shall be to
confirm and evaluate seam strength and continuity during the field seaming.
Each sample shall be cut into two 1-inch wide pieces and shall be tested in shear
and peel.
D. Surface Extrusion Welding Non-Destructive Testing: 100% of all surface
extrusion welds will be tested. The vacuum box assembly unit required for
testing shall consist of a rigid housing, a transparent viewing window, a soft
gasket attached to the bottom of the rigid housing, a valve assembly and a
02660-7
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
January 2010
gauge to indicate chamber vacuum. This unit shall be designed for the sole
purpose of vacuum testing and shall be a complete unit incorporating a pump
assembly equipped with a pressure controller, pipe connections and a rubber
Vacuum hose with fittings and connections. The following procedures for
vacuum testing shall be followed:
1. Energize the vacuum pump
2. Wet the test area with water based foaming agent
3. Place the vacuum box over the wetted area and open vacuum valve
4. Ensure that a leak tight seal is created
5. Obtain a vacuum to a minimum pressure of 6 psi for a minimum period of 15
seconds; examine the seam through the viewing window for the presence of
bubbles
6. if no bubbles appear after the 15 second period, close the vacuum valve
and open the vent to relieve the vacuum pressure and move the box over
the next adjoining area with a minimum of 1-inch overlap and repeat the
process.
7. All areas where bubbles appear shall be marked, repaired and re-tested.
3.05 QUALITY CONTROL RECORDS FOR MATERIAL AND INSTALLATION
A. The installer shall provide the Engineer with the following listed Test Certificates
and records prior, during and at the completion of the installation as each report
and record is required:
1. Certification and Test Results of Raw Materials from Raw Material Supplier
2. Roll Test Data Reports for Each Roll of Material
3. HOPE Welding Granulate Test Reports
4. Daily Installation Reports for each welder and technician
5. Trial Test Weld Record
6. Wedge Weld Records
7. Surface Extrusion Weld Records
8. Weld Peel and Tensile Test Records
9. Wedge Air Tunnel Pressure Test Records
10. Vacuum Box Test Records
11. Repair Records
B. Completed As-Built Drawing, including roll numbers, panel layout, seam
locations and repair locations.
3.06 INDEPENDENT TESTING
A. The Engineer at his own discretion may, in addition to the testing described in
2.04 above, require the Contractor to extract random samples of sheet from
January 2010
02660-8
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE L1NEO RESERVOIR
each roll and from welded seams to qualify the manufacturers and installers test
results. Samples shall be kept to minimum and the following frequency of
samples shall apply:
1. Material Samples from Roll = 1-2 samples
2. Weld Samples from Site = 1 sample for every 600 feet.
B. All independent tests shall be undertaken by an approved testing authority
experienced in the testing and evaluation of HOPE Flexible Membrane Liners
and as specified in Section 01430 - Materials Testing.
3.07 MANUFACTURERS CERTIFICATION
The manufacturer shall provide field inspection and, at the completion of the
installation, a Certificate of Proper Installation.
END OF SECTION
January 2010
02660-9
NCWRF COMPLIANCE ASSURANCE PROJECT
GEOMEMBRANE LINED RESERVOIR
SECTION 02740
ASPHALTIC CONCRETE PAVEMENT
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for construction of new and replacement asphaltic concrete pavement and new
Iimerock roadways (unpaved).
1.02 REFERENCES
.
A. "DOT Specifications" - Florida Department of Transportation Standard Specifications for
Road and Bridge Construction.
B. Collier County DOT Standards, latest edition.
C. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SYSTEM DESCRIPTION
A. Furnish and install asphaltic concrete pavement in accordance with the lines, grades and
typical section as indicated on the Drawings and as described in Part 3 herein.
B. Furnish and install new asphaltic concrete pavement required to complete the paving
work and as described in Part 3 herein.
C. Furnish and install asphaltic concrete topping as indicated on the Drawings and as
described in Part 3 herein.
D. Repair asphaltic concrete pavement damaged as a result of completing Work and
damaged by construction operations and as described in Part 3 herein.
E. Provide Iimerock roadways as shown on Contract Drawings.
1.04 SUBMITTALS
A. General: As specified in Section 01330 - Submittals
B. Submit the proposed formula for the asphaltic concrete paving prior to starting pavement
work.
1.05 QUALITY CONTROL
A. DOT Specifications and Coller County Standards referred to in this Section are made a
part of this Contract to the extent of such references, and shall be as binding upon the
Contract as though reproduced herein in their entirety.
B. In the event of a conflict between the referenced standards or between the standards and
other Contract provisions, the more stringent requirement shall apply.
PART 2 - PRODUCTS
02740-1
NCWRF COMPLIANCE ASSURANCE PROJECT
ASPHALTIC CONCRETE PAVEMENT
January 2010
2.01 MATERIALS
A Umerock Base: Umerock base shall consist of either one or two courses of Miami Oolite
Iimerock in accordance with Section 200 and 911 of the DOT Specifications.
B. Prime Coat: Material used for prime coat shall be cut-back Asphalt Grade RC-70
conforming to. Sections 300 and 916 of the DOT Specifications for prime to be used on
Miami Oolite formation Iimerock.
C. Tack Coat: Material used for tack coat shall be Emulsified Asphalt Grade RS-2
conforming to Sections 300 and 916 of the DOT Specifications. All areas to be paved
shall receive a final tack coat that provides a uniform finish for new and existing paving.
D. Asphaltic Concrete: Materials and construction of asphaltic concrete patch and surface
courses shall be Type S-1 Asphaltic Concrete conforming to Sections 330, 331 and 916
of the DOT Specifications.
PART 3 - EXECUTION
3.01 GENERAL
A. Restoration Requirements
1. The extent and detail of roadway replacement shall be required by the Contract
Documents, the Collier County DOT Standards, and the Collier County Utilities
Standards Manual.
2. Replacement of asphalt roadway due to trenching shall include at least one lane. The
road base replacement shall include the standard width of 3 feet plus the trench width.
In addition, the asphalt must be removed and replaced for at least one full traffic lane.
If the required extent of asphalt replacement extends into two or more lanes, the
asphalt must be removed and replaced cross all lanes.
3.02 INSTALLATION
A. Subgrade
1. If subgrade is existing, such as for paving an existing road, make Umerock Bearing
Ratio (LBR) measurements on each 3,000 square feet of subgrade. If subgrade has
an LBR of at least 40, it may be used in-place. If it is less than 40, prepare the
subgrade as described below.
2. Stabilize roadway subgrades to the minimum depth shown on the Drawings to an
LBR of not less than 40. Stabilizing shall be Type B as defined in Section 160 of the
DOT Specifications. Stabilization may require addition and thorough mixing in of
crushed lime rock, course Iimerock screenings, or any other stabilizing material
acceptable to the Engineer. Apply stabilizing material in such quantity that, after
mixing and blending, the subgrade will have a LBR of not less than 40. Mix or blend
stabilizing material into subgrade material by plowing, scarifying, disking, harrowing,
blading or mixing with rotary tillers until mixed materials are of uniform bearing value
throughout width and depth of layer being processed.
3. Make not less than three density determinations on each day's final compaction
operations on each course. Make density determinations at more frequent intervals if
deemed necessary by the Engineer.
02740-2
NCWRF COMPLIANCE ASSURANCE PROJECT
ASPHALTIC CONCRETE PAVEMENT
January 2010
- ....-.,-.. . -, ". '. ,,~.,,~~~.... --.-..-
B. Limerock Base
1. If limerock base is existing, such as for paving an existing Iimerock road, make
thickness and density measurements on each 3,000 square feet of base. If the base
meets the requirements of this specification, it may be used in-place. If it does not
meet this specification, prepare the limerock base as described below.
2. Construct Iimerock base in accordance with Section 200 of the DOT Specifications,
to the thickness and width indicated on the Drawings.
3. After spreading of the base material is completed, scarify entire surface and shape
surface to produce the exact grade and cross section after compaction. For double
course base, extend scarifying to a depth sufficient to penetrate slightly the surface
of the first course. The maximum depth of each lift shall be 8 inches.
4. When the material does not have the proper moisture content to insure the required
density, wetting or drying shall be required.
a. If the material is deficient in moisture, add and uniformly mix in water by disking
the base course to the full depth of the base course.
b. If the material contains an excess of moisture, allow the material to dry to proper
moisture content before compacting material.
5. As soon as proper conditions of moisture are attained, compact material to an
average density not less than 98 percent maximum density. If there is more than one
course, the density shall be obtained in each lift of the base.
6. During final compacting operations, if blading of any areas is necessary to obtain true
grade and cross section, complete compacting operations for such areas prior to
making density determination on finished base.
7. Unless otherwise directed by the Engineer, "hard-plane" the surface with a blade
grader immediately prior to the application of the prime coat to remove the thin glaze
or cemented surface and to allow free penetration of the prime material. Materials
planed from the base shall be removed from base area.
8. If cra9ks or checks appear in the base, either before or after priming, which in the
opinion of the Engineer, would impair the structural efficiency of the base course,
remove such cracks or checks by rescarifying, reshaping, adding base material
where necessary and recompacting.
9. If at any time the subgrade material shall become mixed with the base course
material, dig out and remove the mixture, reshape and compact the subgrade and
replace the materials removed with clean base material. Shape and compact clean
base material as specified in this Section.
C. Prime Coat Apply prime coat at a rate of 0.15 gallons per square yard, and perform the
Work in accordance with Section 300 of the DOT Specifications.
D. Tack Coat Apply tack coat at a rate between 0.02 and 0.10 gallons per square yard, and
perform the Work in accordance with Section 300 of the DOT Specifications.
E. Asphaltic Concrete: Spreading, compact, and joint the wearing surface in accordance
with Sections 330 and 331 of the DOT Specifications to the thickness indicated on the
Drawings.
END OF SECTION
02740-3
NCWRF COMPLIANCE ASSURANCE PROJECT
ASPHALTIC CONCRETE PAVEMENT
January 201 0
SECTION 02765
CONCRETE PAVEMENT, CURB AND WALKWAYS
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for furnishing and installing concrete pavement, curbs and walkways.
1.02 REFERENCES
A. Collier County DOT Standards, latest edition.
B. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SUBMITTALS
A. General: As specified in Section 01330 - Submittals
C. Submit the concrete mix designs, including content of wetting compound or sealers,
reinforcing steel bar diagrams and information on the proposed joint materials to the
Engineer for approval prior to starting construction of concrete pavement, curbS, and
walkways.
1.04 QUALITY CONTROL
In the event of a conflict between the referenced standards or between the standards and the
other Contract provisions, the more stringent requirement shall apply.
PART 2 - PRODUCTS
2.01 CONCRETE
A. Concrete shall conform to the requirements of Division 3 -Concrete.
B. Mix designs for the concrete shall be submitted to the Engineer for approval.
2.02 REINFORCING AND WELDED WIRE FABRIC
Joint reinforcing and welded wire fabric shall conform to the requirements of Division 3 -
Concrete.
2.03 JOINT SEALER FOR PAVEMENT
A. Joint sealer shall be a two-part polysulfide base self-leveling sealant for horizontal
surfaces that has been developed for foot and vehicular traffic.
B. Specifications for the sealant shall be submitted to the Engineer for approval.
2.04 PREFORMED JOINT FILLER
January 2010
02765-1
NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE PAVEMENT, CURB AND WALKWAY
A. Preformed joint filler shall be sponge rubber and conform to the requirements of AASHTO
Designated M148, Type 1.
B. Samples and specifications of the preformed joint filler shall be submitted to the Engineer
for approval.
PART 3 - EXECUTION
3.01 SUBGRADE CONDITION
A. Subgrade shall be free of rocks, organic matter and other deleterious matter. Compact
subgrade to provide a firm foundation for the concrete. Refer to Section 02316,
Structural Earthwork.
B. Maintain finished subgrade in a smooth, compact condition, and restore any areas that
are disturbed prior to placing of the concrete. Subgrade shall be moist when concrete is
placed. Uniformly apply water ahead of the paving operations. If the subgrade is not
maintained in the required moist condition, a vapor barrier sheet shall be required
between the subgrade and the concrete.
C. Accurately trim subgrade to the required elevation with a 1/4-inch tolerance. Trim high
areas to proper elevation. Low areas may be filled with suitable material and compacted
to the specified density or filled with concrete integrally with the placing of the pavement.
3.02 SETTING FORMS
A. Forms shall be accurately set to line and grade and so that forms rest firmly upon the
compacted subgrade surface throughout entire length of forms.
,
B. Forms shall be joined neatly and tightly and braced to resist pressure of wet concrete and
finishing operations.
C. Alignment and grade of forms shall be approved immediately prior to the placing of
concrete.
3.03 MIXING CONCRETE
Concrete shall be mixed as specified in Division 3 - Concrete and in accordance with the
approved mix design.
3.04 PLACING CONCRETE
A. Distribute concrete on subgrade to such depth, that, when concrete is consolidated and
finished, slab thickness shown on the Drawings will be obtained at all points and surface
of concrete will at no point be below grade specified for finished surface, after application
of the allowable tolerance. Deposit concrete on subgrade in a manner that will require as
little rehandling of concrete as possible.
B. Piace wire fabric or bar reinforcement at mid slab depth, and maintain reinforcement at
mid slab depth during placing and finishing of concrete.
C. Thoroughly consolidate concrete against and along faces of forms, by means of hand-
operated, spud-type vibrators. Do not allow vibrators to come in contact with the
January 2010
02765-2
NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE PAVEMENT, CURB ANa WALKWAY
subgrade or a side form. Do not continue vibration at anyone location so long as to
produce puddling or accumulation of excessive grout on surface. In no case shall vibrator
be operated longer than 15 seconds in anyone location.
3.05 STRIKING-OFF, CONSOLIDATING AND FINISHING CONCRETE
A. Immediately after placing concrete, strike-off, consolidate and finish concrete, to produce
finished pavement conforming to cross section, surface grade and width.
B. Surface finishing sequence shall be as follows:
1. Strike-off;
2. Vibratory consolidation;
3. Screeding;
4. Floating;
. 5. Removal of laitance;
6. Straight-edging;
7. And final surface finish.
3.06 STRAIGHT-EDGING AND SURFACE CORRECTIONS
A. After floating has been completed and the excess water removed, but while the concrete
is still in a plastic state, test surface of concrete for trueness with an accurate 10-foot
straightedge. The straightedge shall be furnished by the Contractor.
B. Straightedge shall be held in successive positions parallel to the road, or drive, centerline,
in contact with the surface. Test whole area tested from one side of the slab to the other
as necessary.
C. Immediately fill any depressions with freshly mixed concrete and strike-off, consolidate
and refinish concrete. Cut down and refinish any high areas.
D. Continue straightedge testing and surface correction until entire surface appears to
conform to required grade and cross section.
3.07 FINAL FINISH
A. As soon as water sheen has disappeared from surface of the pavement and just before
concrete becomes nonplastic, give surface a light broom finish.
B. Pavement and waik finishes shall be uniform flat and within tolerances specified In
Division 3.
3.08 EDGING
A. After final finish has been applied, but before concrete has become nonplastic, carefully
round .edges of pavement to 1/4 inch radius along each side of strip being placed, on
each side of construction joints and along any structure extending into pavement, unless
otherwise shown on the Drawings. Produce a well-defined and continuous radius and
obtain a smooth, dense mortar finish. Remove any concrete from the top of joint filler.
02765-3
NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE PAVEMENT, CURB AND WALKWAY
January 2010
- -'--,--_.~._._._._.-._.---
B. Check joints with a straightedge before concrete has become nonplastic. Make
necessary corrections if one side of joint is higher then the other or the entire joint is
higher or lower than adjacent slabs.
3.09 JOINTS
A. Construction Joints: Locate construction joints as shown on the Drawings.
B. Expansion Joints Around Structures
1" Form expansion joints by placing premolded expansion joint material along
structures and features projecting through, into or against pavement.
2. Unless otherwise indicated, such joints shall be 1/2 inch in width.
C. Transverse Expansion Joints
1. Provide open type transverse expansion joints at sidewalk returns, at 30 feet
intervals, and as indicated on the Drawings.
2. Form open type joints by staking a 114cinch thick metal bulkhead in place and
placing concrete on both sides. After concrete has set sufficiently to preserve
width and shape of joint, remove bulkhead. After the sidewalk has been finished
over joint, open slot and edge with a tool having a 1/2-inch radius.
3. Clean transverse expansion joints and fill transverse expansion joints with joint
filler strips 1/4 inch thick conforming to the requirements of AASHTO M-153.
D. Scored Joints: Scored joints shall be either formed or sawed at 5-foot intervals and shall
extend to a depth of at least one fourth of the sidewalk slab thickness.
3.10 CURING
A. After the finishing operations have been completed and as soon as the concrete has
hardened sufficiently that marring of the surface will not occur, cover entire surface
and edges of newly placed concrete and cured concrete with membrane curing
compound.
B. Uniformly apply curing compound to surfaces to be cured, in a single coat,
continuous film, at rate of one gallon to not more than 200 square feet. Apply curing
compound with a mechanical sprayer.
C. Do not apply curing compound during periods of rainfall. Do not apply currng
compound to inside faces of joints to be sealed.
D. Should curing film become damaged from any cause within required curing period,
immediately repair damaged portions with additional compound.
E. Upon removal of side forms immediately coat exposed sides of slabs to provide a
curing treatment equal to that provided for the surface.
3.11 CURBS
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE PAVEMENT, CURB AND WALKWAY
January 2010
A. Construct curbs in uniform sections ten feet in length except where shorter sections
are necessary for closures or arcs. Separate sections by sheet metal templates set
perpendicular to face and tip of curve and not less than 2 inches longer than depth of
curb. . Firmly hold templates during placing of concrete, and allow templates to
remain in place until concrete has set sufficiently to hold its shape. Remove
templates while forms are still in place.
B. After concrete has sufficiently set for a minimum of 12 hours, remove forms and
backfill spaces on each side. Compact earth in satisfactory manner without
damaging concrete work.
C. Fill minor defects with mortar composed of one part Portland cement and two parts
fine aggregate.
END OF SECTION
02765-5
NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE PAVEMENT. CURB AND WALKWAY
SECTION 02890
PAVEMENT MARKING AND TRAFFIC SIGNS
PART 1 - GENERAL
1.01 SECTION INCLUDES
.
Requirements for striping pavement, and furnishing and installing traffic signs, parking stall
wheel stops, and fire hydrant markers.
1.02 REFERENCES
A. DOT Specifications - Florida Department of Transportation Standard Specifications for
Road and Bridge Construction.
B. Collier County DOT Standards, latest edition.
1.03 SUBMITTALS
A. General: As specified in Section 01330 - Submittals
B. Submit the sign manufacturer's certification that signs furnished meet the requirements of
DOT Specifications to the Engineer prior to ordering signs.
1.04 QUALITY CONTROL
A. DOT Specifications referred to in this Section are made a part of this Contract to the
extent of such references, and shall be as binding upon the Contract as through
reproduced herein in their entirety.
B. In the event of a conflict between the referenced standards or between the standards and
other Contract provisions, the more stringent requirement shall apply.
PART 2 - PRODUCTS
2.01 PAVEMENT MARKING
Pavement stripes and parking stalls shall be thermoplastic marking meeting Florida DOT
standards.
2.02 PARKING STALL WHEEL STOPS
Parking stall wheel stops shall be standard precast concrete units painted with lettering or a
number as designated by the Engineer.
2.03 REFLECTIVE MARKERS - FIRE HYDRANTS
Reflective markers shall be installed in the pavement in accordance with DOT Specifications
and Owner requirements.
January 2010
02890-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PAVEMENT MARKING AND TRAFFIC SIGNS
204 TRAFFIC SIGNS
A. Traffic regulating signs, signposts and other materials shall conform to the colors,
dimensions and requirements of DOT Specifications and County regulations.
B. Traffic regulating signs shall display the lettering and symbols required by the referenced
specifications and standards.
PART 3 - EXECUTION
3.01 FABRICATION
Preparation of sign blanks and fabrication of reflectorized faces shall conform to the
applicable requirements of DOT Specifications, Sections 700-4 and 700-5.
3.02 INSTALLATION
Erect signs and supports at the locations as shown on the Drawings and in accordance with
DOT Specifications and County regulations.
3.03 PAINTING
The pavement shall be painted at the locations as shown on the Drawings and in accordance
with DOT Specifications and County regulations.
END OF SECTION
January 2010
02890-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PAVEMENT MARKING AND TRAFFIC SIGNS
+,.....,.,..,"..'~~-"'-,-_._.~..-,.---,~,..,-, '-,
_ _... ...,____._._,,~__,.,.._,__._,_ ._,.....~,._..,.___.^.'___m'.
SECTION 03100
CONCRETE FORMWORK
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish all materials for concrete formwork, bracing, and supports
and shall design and construct all falsework, all in accordance with the provisions of the
Contract Documents.
1.02 REFERENCE SPECIFICATION, CODES AND STANDARDS
A. Without limiting the generality of other requirements of these Specifications, all work
specified herein shall conform to or exceed the requirements of the Florida Building
Code and the applicable requirements of the following documents to the extent that the
provisions of such documents are not in conflict with the requirements of this Section.
All referenced specifications, codes, and standards refer to the most current issue
available at the time of bid.
1 . Codes and Standards:
a. The Building Code, as referenced herein, is the Florida Building Code.
2. Government Standards:
a.
PS 1
U.S. Product Standard for Concrete Forms, Class I.
3. Commercial Standards:
a.
ACI 347
Recommended Practice for Concrete Formwork
b.
ACI318
Building Code Requirements for Reinforced Concrete
c.
ACI 350
Code Requirements for Environmental Engineering
Concrete Structures
1.03 RESPONSIBILITY
A. The design and engineering of the formwork as well as safety considerations are the
responsibility of the Contractor.
1.04 QUALITY ASSURANCE
A. Tolerances: Unless otherwise noted on the Drawings, the variation from established
grade or lines shall not exceed 1/4-inch in 10 feet and there shall be no offsets or
visible buiges or waviness in the finished surface. All tolerances shall be within the
"Suggested Tolerances" specified in ACI 347. The Contractor shall grind smooth all
fins and projections between formwork panels as directed by the Engineer.
0:03100 Concrete Formwork.doc:01-15-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
B_ Curved forms shall be used for curved and circular structures. Straight panels will not
be acceptable for forming curved structures.
PART 2 -- PRODUCTS
2.01 FORM MATERIALS
A. Except as otherwise expressly accepted by the Engineer, all lumber brought on the job
site for use as forms, shoring, or bracing shall be new material. All forms shall be
smooth surface forms and shall be of the following materials:
Footing sides
Walls
Columns
Roof and floor Slabs
All other work
- Construction grade Hem Fir or Douglas Fir
- Steel or plywood panel
- Steel, plywood or fiber glass
- Plywood
- Steel panels, plywood or tongue and groove lumber
B. Materials for concrete forms, formwork, and falsework shall conform to the following
requirements:
1. Lumber shall be Southern Pine, construction grade or better, in conformance with
U.S. Product Standard PS20.
2. Plywood for concrete formwork shall be new, waterproof, synthetic resin bonded,
exterior type Douglas Fir or Southern Pine plywood manufactured especially for
concrete formwork and shall conform to the requirements of PS I for Concrete
Forms, Class I, and shall be edge sealed. Thickness shall be as required to
support concrete at the rate it is placed, but not less than 5/8-inch thick.
2.02 PREFABRICATED FORMS
A. Form materials shall be metal, wood, plywood, or other acceptable material that will not
adversely affect the concrete and will facilitate placement of concrete to the shape,
form, line, and grade indicated. Metal forms shall be an acceptable type that will
accomplish such results. Wood forms for surfaces to be painted shall be Medium
Density Overlaid plywood, MOO Ext. Grade.
2.03 FORMWORK ACCESSORIES
A. Unless otherwise shown, exterior corners in concrete members shall be provided with
3/4-inch chamfers. Re-entrant corners in concrete members shall not have fillets
unless otherwise shown.
B. Form ties shall be provided with a plastic cone or other suitable means for forming a
coni.cal hole to insure that the form tie may be proken off back of the face of the
concrete. The maximum diameter of removable cones for rod ties, or of other
removable form-tie fasteners having a circular cross-section, shall not exceed 1-1/2
0:03100 Concrete Fonnwork.doc:01-15~10
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
_.< -
.
--'"-_._.~-"
__'.."_._.__.'m "_____._...._.,~.
-,'.-..-.-..---
inches; and all such fasteners shall be such as to leave holes of regular shape for
.
reamrng.
C. Form ties for water-retaining structures shall have integral waterstops. Removable
taper ties may be used when acceptable to the Engineer and a preformed neoprene or
polyurethane tapered plug sized to seat at the center of the wall shall be inserted in the
hole left by the removal of the taper tie.
,
D. Form release agent shall be a blend of natural and synthetic chemicals that employs a
chemical reaction to provide quick, easy and clean release of concrete from forms. It
shall not stain the concrete and shall leave the concrete with a paintable surface.
Formulation of the form release agent shall be such that it would minimize formation of
"Bug Holes" in cast-in-place concrete.
PART 3 -- EXECUTION
3.01 EXAMINATION
A. Forms to confine the concrete and shape it to the required lines shall be used wherever
necessary. The Contractor shall assume full responsibility for the adequate design of
all forms, and any forms which are unsafe or inadequate in any respect shall promptly
be removed from the Work and replaced at the Contractor's expense. A sufficient
number of forms of each kind shall be provided to permit the required rate of progress
to be maintained. The design and inspection of concrete forms and falsework, shall
comply with applicable local, state and Federal regulations. Plumb and string lines
shall be installed before concrete placement and shall be maintained during placement.
Such lines shall be used by Contractor's personnel and by the Engineer and shall be in
sufficient number and properly installed. During concrete placement, the Contractor
shall continually monitor plumb and string line form positions and immediately correct
deficiencies.
B. Concrete forms shall conform to the shape, lines, and dimensions of members as
called for on the Drawings, and shall be substantially, free from surface defects, and
sufficiently tight to prevent leakage. Forms shall be properly braced or tied together to
maintain their position and shape under a load of freshly-placed concrete.
C. All forms shall be true in every respect to the required shape and size, shall conform to
the established alignment and grade, and shall be of sufficient strength and rigidity to
maintain their position and shape under the loads and operations incident to placing
and vibrating the concrete. Suitable and effective means shall be provided on all forms
for holding adjacent edges and ends of panels and sections tightly together and in
accurate alignment so as to prevent the formation of ridges, fins, offsets, or similar
surface defects in the finished concrete. Plywood, 5/8-inch and greater in thickness,
may be fastened directly to studding if the studs are spaced close enough to prevent
visible deflection marks in the concrete. The forms shall be tight so as to prevent the
loss of water, cement and fines during placing and vibrating of the concrete.
Specifically, the bottom of wall forms that rest on concrete footings or slabs shall be
provided with a gasket to prevent loss of fines and paste during placement and
vibration of concrete. Such gasket may be a 1 to 1-1/2 inch diameter polyethylene rod
held in position to the underside of the wall form. Adequate clean-out holes shall be
0:03100 Concrete Formwork.doc:01-15-1 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
provided at the bottom of each lift of forms. The size, number, and location of such
clean-outs shall be as acceptable to the Engineer.
0_ Concrete construction joints will not be permitted at locations other than those shown or
specified, except as may be acceptable to the Engineer. When a second lift is placed
on hardened concrete, special precautions shall be taken in the way of the number,
location, and tightening of ties at the top of the old lift and bottom of the new to prevent
any unsatisfactory effect whatsoever on the concrete. Pipe stubs and anchor bolts
shall be set in the forms where required.
3.02 EARTH FORMS
A. All vertical surfaces of concrete members shall be fonmed, except where placement of
the concrete against the ground is called for on the Drawings. Not less than 1-inch of
concrete shall be added to the thickness of the concrete member as shown where
concrete is permitted to be placed against trimmed ground in lieu of forms. Such
permission will be granted only for members of comparatively limited height and where
the character of the ground is such that it can be trimmed to the required lines and will
stand securely without caving or sloughing until the concrete has been placed.
3.03 FOOTINGS, SLAB EDGES AND GRADE BEAMS
A. Provide wood side forms for all footings, slab edges and grade beams.
3.04 APPLICATION - FORM RELEASE AGENT
A. Apply form release agent on formwork In accordance with manufacturer's
recommendations.
3.05 INSERTS, EMBEDDED PARTS AND OPENINGS
A. Embedded Form Ties: Holes left by the removal of form tie cones shall be reamed with
suitable toothed reamers so as to leave the surface of the holes clean and rough
before being filled with mortar as specified for "Finish of Concrete Surfaces" in Section
entitled "Cast-in-Place Concrete." Wire ties for holding forms will not be permitted. No
form-tying device or part thereof, other than metal, shall be left embedded in the
concrete. Ties shall not be removed in such manner as to leave a hole extending
through the interior of the concrete members. The use of snap-ties which cause
spalling of the concrete upon form stripping or tie removal will not be permitted. If steel
panel forms are used, rubber grommets shall be provided where the ties pass through
the form in order to prevent loss of cement paste. Where metal rods extending through
the concrete are used to support or to strengthen forms, the rods shall remain
embedded and shall terminate not less than 1-inch back from the formed face or faces
of the concrete.
3.06 FORM CLEANING
A. Forms may be reused only if in good condition and only if acceptable to the Engineer.
Light sanding between uses will be required wherever necessary to obtain uniform
surface texture on all exposed concrete surfaces. Exposed concrete surfaces are
defined as surfaces which are permanently exposed to view. Unused tie rod holes in
0:03100 Concrete Formwork.doc:01-15-1 0
January 2010
03100-4
NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
-'._--.'~'---'---""'-"--~~~-"'-"--""""""--""
forms shall be covered with metal caps or shall be filled by other methods acceptable
to the Engineer.
3.07 FORMWORK TOLERANCES
A. Unless otherwise indicated on drawings, formwork shall be constructed so that the
concrete surfaces will conform to the tolerance limits listed in Table 3.1.
B. The contractor shall establish and maintain in an undisturbed condition and until final
completion and acceptance of the project, sufficient control points and bench marks to
be used for reference purposes to check tolerances.
C. Regardless of the tolerance limits listed in Table 3.1, no portion of the building shall
extend beyond the legal boundary of the building.
D. Permissible variations from plumb and designated building lines for portions of
buildings more than 100 ft. above the ground shall be as specified in the contract
documents.
E. Structural framing of reinforced concrete around elevators and stairways shall be
accurately plumbed and located with 1/4 in. tolerance from established dimensions.
TABLE 3.1 - TOLERANCES FOR FORMED SURFACES
1. Variation from plumb:
A. In the lines and surfaces of columns, piers, walls, and in arises:
In any 10 ft of length------------------------------------------------- 1/4 in.
Maximum for the entire length ____________________________m__m 1 in.
B. For exposed corner columns, control-joint grooves, and other conspicuous
lines:
In any 20 ft length ---------------------------------------------------- 1/4 in.
Maximum for the entire length ------------------------------------ 1/2 in.
2. Variations from the level or from the grades specified in the contract documents:
A In slab soffits, ceilings, beam soffits and in arises, measured before removal
of supporting shores:
In any 10 ft of length------------------------------------------------- 1/4 in.
In any bay or in 20 ft length---------------------------------------- 3/8 in.
B. In exposed lintels, sills, parapets, horizontal grooves, and other conspicuous
lines:
In any bay or in 20 ft length---------------------------------------- 1/4 in.
Maximum for the entire length ____mm____m___________________ 1/2 in.
3. Variation of the linear building lines from established position in plan and related
position of columns, wall, and partitions:
I n any bay _________"________________________________m_____________m_______ 1/2 in.
In any 20 ft of length-----------------------------------------------m----- 1/2 in.
Maximum for the entire length ___________________________________m____ 1 in.
4. Variation in the sizes and location of sleeves, floor +1/4 in.
0:03100 Concrete Formwork.doc:01-15-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
openings, and wall openings ---------"-------------------------------
5. Variation in cross-sectional dimensions of columns and
beams and in the thickness of slabs and walls:
Minus --------------------------------------,----------------------------- 1/4 in.
Plus ------------------------------------------------------------------------ 1/2 in.
6. Footings'
A. Variations in dimensions in plan:
Minus --------------------------------------------------------------- 1/2 in.
Plus -------------------------------------------------------------- 2 in.
B. Misplacement or eccentricity
2 percent of the footing width in the direction of
misplacement but not more than --------------------------------- 2 in.
C. Thickness:
Decrease in specified thickness ---------------------------------- 5 percent
Increase in specific thickness ----------------------------------- No limit
7. Variation in steps:
A. In a flight of stairs:
Rise ------------------------------------------------------------------ + 1/8 in.
Tread ------------------------------------------------------------------ + 1/4 in.
B. In consecutive steps:
Rise------------------------------------------------------------------- + 1/16 in.
Tread ------------------------------------------------------------------- + 1/8 in.
'Tolerances apply to concrete dimensions only, not to positioning of vertical
reinforcing steel, dowels, or embedded items.
3.08 FORM REMOVAL
A. Remove top forms on sloping surfaces of concrete as soon as removal operations will
not allow the concrete to sag. Perform any needed repairs or treatment required on
sloping surfaces at once and follow immediately with the specified curing.
B. The Contractor shall be responsible for the removal of forms and shores. Forms or
shores shall not be removed before test cylinders, field cured along with the concrete
they represent, have reached the specified minimum 28-day compressive strength for
the class of concrete specified in the Section entitled "Cast-in-Place Concrete", nor
sooner than listed below:
1. Wall forms -------------------------------------------------------------- 3 days
2. Column forms ------------,---------------------------------------------- 3 days
3. Beam and girder side forms -~-~------------------------------------- 3 days
0:03100 Concrete Formwork.doc:01-15-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
- -
-'~..,,"--~ -'--'--'~~-"-"*'-'~' ',-,-
,"~" ""...~.. ._----".-.-,.,
4. Beam bottoms and slab forms ----------------------------------- 14 days
5. Arch (:enter ------------------------------------------------------------. 7 days
6. Joist shores ------------------------------------------------------------ per manufacturer
The cost of field-cured test specimens and compression tests shall be borne by the
Contractor and included in the Contract Price.
3.09 MAINTENANCE OF FORMS
A. Forms shall be maintained at all times in good condition, particularly as to size, shape,
strength, rigidity, tightness, and smoothness of surface. Forms, when in place, Shall
conform to the established alignment and grades. Before concrete is placed, theJorms
shall be thoroughly cleaned. The form surfaces shall be treated with a nonstaining
mineral oil or other lubricant acceptable to the Engineer. Any excess lubricant shall. be
satisfactorily removed before placing the concrete. Where field oiling of forms is
required, the Contractor shall perform the oiling at least two weeks in advance of their
use. Care shall be exercised to keep oil off the surfaces of steel reinforcement and
other metal items to be embedded in concrete.
END OF SECTION
0:03100 Concrete FormwQrk.doc:01-15-1 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE FORMWORK
..
SECTION 03200
CONCRETE REINFORCEMENT
PART 1 "- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, fabricate and place all concrete reinforcing steel, welded wire
fabfic, couplers, and concrete inserts for use in reinforced concrete and deformed
reinforcing bars for masonrywalls and shall perform all appurtenant work; including all the
wires,. clips, supports, chairS, spacers, and other accessories, all in accordance with the
Contract Documents.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of other requirements of these specifications, all Work.
specified herein shall conform to or exceed the requirements of the Building Code and the
applicable requirements ofthe following documents to the extent thatthe provisions of such
documents are not in conflict with the requirements of this Section. All referenced
specifications, codes, and standards refer to the most current issue available at the time of
bid.
1 . Codes and Standards
The Building Code, as referenced herein, is the Florida Building Code.
2. Commercial Standards
ACI315
Details and Detailing of Concrete Reinforcement.
CRSI
Concrete Reinforcing Steel Institute Manual of Standard Practice
ACI 305
Hot Weather Concreting
ACI318
Building Code Requirements for Reinforced Concrete.
ACI 350
Code Requirements for Environmental Engineering Concrete
Structures
Manual of Standard Practice for Welded Wire Fabric.
WRI
AWS 01.4
Structural Welding Code - Reinforcing Steel.
ASTM A 185 Specification for Welded Steel Wire Fabric for Concrete
Reinforcement.
ASTM A 615 Specification for Deformed and Plain Billet-Steel Bars for Concrete
Reinforcement.
1.03 SUBMITTALS
0:03200 Concrete Reinforcement.doc:01-15..1O
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE REINFORCEMENT
," _.. ..._.".~,_,.o""~__.__,._-'-.""."_
.
. A. . The Contractor shall furnish shop bending diagrams, placing lists, and. Drawings of all
reinforcing st!'lel prior to fabrication in accordance with the requirements of the Section
01330 entitled "Submittals."
B. The Contractor shall submit detailed placing and shop fabricating drawings, prepared in
accordance with ACI 315 and ACI Detailing Manual- (SP66) for all reinforcing steel. These
drawings shall be made to such a scale as to clearly show joint locations, openings, the
arrangement, spacing and splicing of the bars. Where opening sizes are dependent on
equipment selection the CONTRACTOR shall indicate all necessary dimensions to define
steel lengths and placing details.
C. Oetails of the concrete reinforcing steel and concrete inserts shall be submitted by the
Contractor at the earliest possible date after receipt by the Contractor of the Notice to .
Proceed. Said details of reinforcing steel for fabrication and erection shall conform to ACI
315 and the requirements specified and shown. The shop bending diagrams shall show
the actual lengths of bars, to the nearest inch measured to the intersection of the
extensions (tangents for bars of circular cross section) of the outside surface. The shop
Drawings shall include bar placement diagrams which clearly indicate the dimensions of
each bar splice.
D. Where mechanical couplers are shown on the Drawings to be used to splice reinforcing
steel, the Contractor shall submit manufacturer's literature which contains instructions and
recommendations for installation for each type of coupler used; certified test reports which
verify the load capacity of each type and size of coupler used; and shop Drawings which
show the location of each coupler with details of how they are to be installed in the
formwork.
E. If reinforcing steel is spliced bywelding at any location, the Contractor shall submit mill test
reports which shall contain the information necessary for the determination of the carbon
equivalent as specified in AWS 01.4. The Contractor shall submit a written welding
procedure for each type of weld for each size of bar which is to be spliced by welding,
merely a statement that AWS procedures will be followed is not acceptable. Welding of
rebar Shall be done only where shown on the Drawings or allowed in writing by the
Engineer.
PART 2 -- PRODUCTS
2.01 REINFORCEMENT
A. All reinforcing steel for all reinforced concrete construction shall conform to the following
requirements:
1. Bar reinforcement shall conform to the requirements of ASTM A 615 for Grade 60
Billet Steel Reinforcement with supplementary requirement S-1, and shall be
manufactured in the United States.
2. . Welded wire fabric reinforcement shall conform to the requirements of ASTM A 185
and the details shown on the Drawings; provided, that welded wire fabric with
longitudinal wire ofW9.5 size wire shall be either furnished in flat sheets or in rolls with
a core diameter of not less than 10 inches; and provided further, that welded wire
0:03200 Concrete Reinforcement.doc:01-15-.1 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE REINFORCEMENT
fabric with longitudinal wires larger than W9.5 size shall be furnished in flat sheets
only.' All welded wire fabric reinforcement shall be galvanized.
2.02 ACCESSORY MATERIALS
A. Bolsters; chairs, spacers and other devices for supporting and fastening reinforcing in place
shall be galvanized wire type complying with CRSI recommendations on grade with gray
plastic tipped legs.
B. Metal bar supports for reinforcing steel for wastewater structures shall be Class 2, Type B
stainless steel protected bar supports (CRSI).
C. Tie Wire shall be galvanized 16 gauge annealed type.
D. Concrete blocks (dobies), used to support and position reinforcing steel, shall have the
same or higher compressive strength as specified for the concrete in which it is located.
Concrete blocks shall only be used for slabs on grade.
E. Couplers used to mechanically splice reinforcing steel shall be Lenton Standard Coupler-
A2 manufactured by ERICO Products, Inc. or equal. Bars shall be shop threaded to receive
couplers.
2.03 FABRICATION
A. Reinforcing steel shall be accurately formed to the dimensions and shapes shown on the
Drawings, and the fabricating details shall be prepared in accordance with ACI315 and ACI
318, except as modified by the Drawings. Stirrups and tie bars shall be bent around a pin
having a diameter notless than 1-1/2 inch for NO.3 bars, 2-inch for No.4 bars, and 2-1/2
inch for NO.5 bars. Bends for other bars shall be made around a pin having a diameter not
less than 6 times the minimum thickness, except for bars larger than 1 inch, in which case
the bends shall be made around a pin of 8 bar diameters. Bars shall be bent cold.
S. The Contractor shall fabricate reinforcing bars for structures in accordance with bending
diagrams, placing lists, and placing Drawings. Said Drawings, diagrams, and lists shall be
prepared by the Contractor as specified under Section entitled "Submittals," herein.
C. FabricatinQ Tolerances: Bars used for concrete reinforcing shall meet the following
requirements for fabricating tolerances:
1. Sheared length: + 1 inch
2. Depth of truss bars: + 0, - 1/2 inch
3. Stirrups and ties: + 1/2 inch
4. All other bends: + 1 inch
D. Welded splice shall be provided where required on the drawings. All welded splices of
reinforcing steel shall develop a tensile strength which exceeds 125 percent of the yield
strength of the reinforcing bars which are connected.
0:03200 Concrete Reinforcement.doc:01-15-1 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
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,
___M.._ , __',_"U_,",H...",...
- .'--, - ._-,.. ~'~"--""'~""--"-'-'-"--"--"-'~--
E. All materials required to perform the welded splices to the requirements of AWS 01.4 shall
. be provided.
2.04 DOWEL ADHESIVE SYSTEM
A. Where shown on the Contract Drawings, to be drilled in and grouted, reinforcing bars shall
be anchored into hardened concrete with a dowel adhesive system conforming to AC308.
Epoxy adhesive system shall use a two-component adhesive mix and shall be injected with
a static mixing nozzle following manufacturer's instructions. The embedment depth of the
bar as minimum shall match the dimension shown on the Drawings or increased as
required to provide a minimum allowable bond strength that is equal to 125 percent of the
yield strength of the bar. The adhesive system shall be "PE1000 SO Epoxy Injection
Adhesive Anchoring System" as manufactured by Powers Fasteners, "SET-XP"by
Simpson Strong-tie, "HIT RE-500 SO Injection Adhesive Anchor System" as manufactured
by Hilti, Inc., or equal.
PART 3 -- EXECUTION
3.01 FABRICATION
A. Reinforcing steel shall be stored above ground on platforms or other supports and shall be
protected from the weather at all times by suitable covering. It shall be stored in an orderly
manner and plainly marked to facilitate identification.
B. No fabrication shall commence until approval of Shop Drawings has been obtained and all
bars shall be shop fabricated unless approved by the Engineerto be bent in the field. Bars
shall not be straightened or rebent in a manner that will injure the material. Heating of any
bars will not be permitted.
C. Welded Wire Fabric shall be furnished and installed as f1atmats.
3.02 MINIMUM REINFORCEMENT
A. Unless otherwise shown on the Drawings or in the absence of the steel being shown, the
minimum cross sectional area of horizontal and vertical reinforcing steel in walls shall be
0.0033 times the gross concrete area and the minimum cross sectional area of steel
perpendicular to the principal steel in slabs shall be 0.0020 times the gross concrete area.
Minimum reinforcement steel shall not be spaced further apart than five times the slab or
wall thickness, nor more than 18 inches.
3.03 PLACEMENT
A. Reinforcing steel shall be accurately positioned as shown on the Drawings, and shall be
supported and wired together to prevent displacement, using tie wire or suitable clips at
intersections. All reinforcing steel shall be supported by concrete, plastic or metal supports,
spacers or metal hangers which are strong and rigid enough to prevent any displacement of
the reinforcing steel. Where concrete is to be placed on the ground, supporting-concrete
blocks (or dobies) shall be used, in sufficient numbers to support the bars without
settlement, but in no case shall such support be continuous. All concrete blocks used to
support reinforcing steel shall be tied to the steel with wire ties which are embedded in the
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CONCRETE REINFORCEMENT
blocks: For concrete over formwork"the Contractor shall fumish concrete, metal, plastic, or.
other acceptable bar chairs and spacers.
B. Tie wires shall be bent away from the forms in order to provide the specified concrete
coverage.
C. Bars additional to those shown on the Drawings which may be found necessary or
desirable by the Contractor for the purpose of securing reinforcement in position shall be
provided by the Contractor at its own expense.
. .
D. Unless otherwise specified, reinforcement placing tolerances shall be within the limits
specified in Section 7.5 of ACL318 except where in conflict with the requirements of the
Building Code.
E. Bars may be moved as necessary to avoid interference with other reinforcing steel,
conduits, or embedded items. If bars are moved more than one bar diameter, orenough to
exceed the above tolerances, the resulting arrangement of bars shall be as acceptable to
the Engineer.
F. Welded wire fabric reinforcement placed over horizontal forms shall be supported on slab
bolsters having gray, plastic-coated standard type legs as specified in 2.02B herein. Slab
bolsters shall be spaced not less than 30 inches on centers, shall extend continuously
across the entire width of the reinforcing mat, and shall support the reinforcing mat in the
plane shown on the Drawings.
G. Welded wire fabric placed over the ground shall be supported on wired concrete blocks
(dobies) spaced not more than 3 feet on centers in any direction. The construction practice
of placing welded wire fabric on the ground and hooking into place in the freshly placed
concrete shall not be used.
H. The clear distance between parallel bars (except in columns and between multiple layers of
bars in beams) shall be not less than the nominal diameter of the bars nor less than 1-1/3
times the maximum size of the coarse aggregate, nor less than one inch.
I. Where reinforcement in beams or girders is placed in two or more layers, the clear distance'
between layers shall be noUess than one inch.
J. In columns, the clear distance between longitudinal bars shall be not less than 1-1/2 times
the bar diameter, nor less than 1-1/2 times the maximum size of the coarse aggregate, nor
less than 1-1/2 inches.
K. The clear distance between bars shall also apply to the distance between a contact splice
and adjacent splices or bars.
L. Reinforcing bar splices shall only be used at locations shown on the Drawings. When it is
necessary to splice reinforcElment at points other than where shown, the character of the
splice Shall be as acceptable to the Engineer.
,
M. The length of lap for reinforcing bars, unless otherwise shown on the Drawings shall be in
accordance with ACI 318, Section 12.15.1 for a class B splice.
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONCRETE REINFORCEMENT
,~ _.._.'_m.~"" .,.."",,~~_,.'m ,,_. ..,_, __
m.._.,,"_...,.._'.,.'.,_.,__~,^~<___~_~___~,_,_
'. N. Laps of welded Wire fabric. shall be in accordance with the AC1318~ AdjOining sheets shall
be securely tied together with No. 14 tie wire, one tie for each2.running .feet. Wires shall
be staggered and tied in such a manner that they cannot slip.
O. Reinforcing shall not be straightened or rebent in a manner which will injure the material.
Bars with kinks or bends not shown on the Drawings shall not be used. All bars shall be
bent cold, unless 'otherwise permitted by the ENGINEER. No bars partially embedded in
concrete shall be field-bent except as shown on the Drawings or specifically permitted by
the Engineer.
3.04 CLEANING AND PROTECTION
A. Reinforcing steel shall at all times be protected from conditions conducive to corrosion until
concrete is placed arOund it.
B. The surfaces of all reinforcing steel and other metalwork to be in contact with concrete shall
be thoroughly cleaned of all dirt, grease, loose scale and rust, grout, mortar and other
foreign substances immediately before the concrete is placed. Where there is delay in
depositing concrete, reinforcing shall be reinspected and, if necessary recleaned.
END OF SECTION
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CONCRETE REINFORCEMENT
SECTION 03290
JOINTS IN CONCRETE
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall construct all joints in concrete at the locations shown on the Drawings.
. Joints required in concrete structures are of various types and will be permitted onlywhere
shown on the Drawings, unless specifically accepted by the Engineer.
B. Construction joints, expansion joints, contraction joints and control joints shall be provided
at the locations shown and formed in accordance with the details shown on the Drawings.
C. Waterstops shall be provided where shown on the Drawings, and in all waterbearing joints
in hydraulic structures_
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of other requirements of these Specifications, all work
. specified herein shall conform to or exceed the applicable requirements of the following
documents to the extent that the provisions therein are not in conflict with the requirements
of this Section.
1. Federal Specifications:
TT-S-00227E(3)
Sealing Compound, Elastomeric Type, Multi-component (For Caulking, Sealing, And
Glazing Buildings And Other Structures).
2. U.S. Army Corps of Engineers Standard Specifications
CRD-C572
3. Commercial Standards:
ASTM C 920 - . Specification for Elastomeric Joint Sealants.
ASTM 0 624 - Test Method for Rubber Property -- Tear Resistance.
ASTM 0 638 - Test Method for Tensile Properties of Plastics.
ASTM 0 746 - Test Method for Brittleness Temperature of Plastics and Elastomers
by Impact.
ASTM 0747 - Test Method for Apparent Bending Modules of Plastics by Means ofa
Cantilever Beam.
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NCWRF COMPLIANCE ASSURANCE PROJECT
JOINTS IN CONCRETE
.~~"-- ---.----
"...,.,_...... ._-<~~---- ,-~, --~,.~---_.. ..-
___"_',_,_,,__~__""_m."_~'_~_._
ASTMD 1752 - Specification for Preformed Sponge Rubber and Cork Expansion
Joint Fillers for Concrete Paving and Structural Construction.
ASTM D 2240 - Test Method for Rubber Property -- Durometer Hardness.
1.03 TYPES OF JOINTS
A. Construction Joints: When fresh concrete is placed against a hardened concrete surface,
the joint between the two pours is called construction joint. Unless noted otherwise, all
joints in water bearing structures shall be provided with a waterstop of the shape specified
herein.
B. Contraction Joints: Contraction joints are similar to construction joints except that the fresh
concrete shall not bond to the hardened surface of the first pour, which shall be coated with
a bond breaker. Theslab reinforcement shall be stopped 4-1/2 inches from the joint; which
is provided with a sleeve-type dowel, to allow shrinkage of the concrete ofthe second pour.
Waterstop andlor sealant groove shall also be provided when specified on the Drawings.
C. ~pansion Joints: To allow the concrete to expand freely, a space is provided between the
two pours, the joint shall be formed as detailed on the Drawings. This space is obtained by
placing a preformed joint filler against the first pour, which acts as a form for the second
pour. Unless noted otherwise, all expansion joints in water bearing members shall be
provided with a 9-inch wide waterstop. Premolded expansion joint material shall be
installed with the edge at the indicated distance below or back from finished concrete
surface, and shall have a slightly tapered, dressed, and oiled wood strip secured to or
placed at the edge thereof during concrete placement, which shall later be removed to form
space for sealing material. The space so formed shall be filled with a joint sealant material
as specified herein.
D. Control Joints: The function ofthe control joint is to provide a weaker plane in the concrete,
where shrinkage cracks will probably occur. A groove, ofthe shape and dimensions shown
on the Drawing, is formed or saw-cut in the concrete. This groove shall be filled with a joint
sealant.
1.04 SUBMITTALS
A. Watersto~: Prior to production of the material required under this contract, qualification
samples shall be submitted. Such samples shall consist of extruded or molded sections of
each size or shape to be used, and shall be accomplished so that the material and
workmanship represents in all respects the material to be furnished under this contract. The
balance of the material to be used under this contract shall not be produced until after the
Engineer has reviewed the qualification samples. The samples shall be delivered to a
location on site indicated by the Engineer.
B. Joint Sealant Prior to ordering the sealant material, the Contractor shall submit to the
Engineer for the Engineer's review, sufficient data to show general compliance with the
requirements of the Contract Documents.
C. Product data sheets of all materials proposed under this section.
D. Shi0linq Certification: The Contractor shall provide written certification from the
manufacturer as an integral part of the shipping form, to show that all of the material
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JOINTS IN CONCRETE
. . shipped.to this project meets or exceeds the physrcal property requirements of the.Contract
Documents. Contractor'certificates are not acceptable.
Eo.. The Contractor shall submit placement Shop Drawings showing the location arid type of all .
joints for each structure.
1.05 QUALITY ASSURANCE
A. Waterstop
1. Review: It is required that all waterstop field joints shall be subject to' review
inspection, and no such work shall be scheduled or started without having made prior
arrangements with the Engineerto provide for the required reviews. Not less than 24
hours' notice shall be provided to the Engineer for scheduling such reviews.
2. All field joints in waterstops will be subject to rigid review for misalignment, bubbles,
inadequate bond, porosity, cracks, Offsets, and other defects which would reduce the
potential resistance of the material to water pressure at any point. All defective joints
shall be replaced with material which will pass said review, and all faulty material shall
be removed from the site and disposed of by the Contractor at its own expense.
3. The following defects represent a partial list of defects which shall be grounds for
rejection:
a. Offsets at joints greater than 1/16 inch or 15 percent material thickness, at any
point, whichever is less.
b. Exterior crack at joint, due to incomplete bond, which deeper than 1/16 inch or
15 percent of material thickness, at any point, whichever is less.
c, Any combination of offset or exterior crack which will result in a net reduction in
the cross section of the waterstop in excess of 1/16 inch or 15 percent of
material thickness at any point, whichever is less.
d. Misalignment of joint which result in misalignment ofthe waterstop in excess of
1/2 inch in 10 feet.
e. Porosity in the welded joint as evidenced by visual inspection.
f. Bubbles or inadequate bonding which can be detected with pen-knife test. (If,
while prodding the entire joint with the point of a pen knife', the knife breaks
through the outer portion of the weld into a bubble, the joint shall be considered
defective.)
1.06 GUARANTEE
, . .
A. The Contractor shall provide a two-year written guarantee of the entire sealant installation
against faulty andlor incompatible materials and workmanship, together with a statement
that.it agrees to repair or replace, to the satisf<!ction of the Owner, at no additionaJ cost to
the Owner, any such defective areas which become evident within said two-year guarantee
period.
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JOINTS IN CONCRETE
PART'2-- PRODUCTS
2.01 PVC WATERSTOPS
A. General: Waterstops shall be extruded from an elastomeric pOlyvinylchloride compound
containing the plasticizers, resins, stabilizers, and other materials necessary to meet the'
requirements of these Specifications. No reclaimed or scrap material shall be used. The
Contractor shall obtain from the waterstop manufacturer and shall furnish to the Engineer
for review, current test reports and a written certification of the manufacturer that the
material to be shipped to the job meets the physical requirements as outlined in the U.S.
Army Corps of Engineers Specification CRD-C572 and listed in Paragraph C. below.
B. Multi-Rib Watersto~ All PVC waterstops shall be of Multi-rib construction. Watersfops for
construction joints shall be serrated style 732 by Greenstreak or equal. . Waterstops for
expansion joints shall be Style 738 by Greenstreak or equal. T type waterstops installed
against existing concrete shall be Style 609 by Greenstreak, or equal. Compatible baten
bars and anchor bolts shall be supplied by the same manufacturer. Prefabricated joint
. fittings (900 bends and tees) shall be used at all intersections ofthe ribbed-type waterstops.
C. Waterstop Testing Requirements: When tested in accordance with the specified test
standards, the waterstop material shall meet or exceed the following requirements:
Value
ASTM Std.
Tensile Strength-min (psi)
Ultimate Elongation-min (percent)
Low Temp. Brittleness-Max (degrees F)
Stiffness in Flexure-min (psi)
1750
350
-35
400
0638, Type IV
o 638, Type IV
0746
0747
Accelerated Extraction (CRD-C572)
Tensile Strength-min (psi)
Ultimate Elongation-min (percent)
1500
300
o 638, Type IV
o 638, Type IV
Effect of Alkalies (CRD-C572)
Ultimate Elongation-min (percent)
Change in Weight (percent)
Change in Durometer, Shore A
300
+0.25/-0.10
+5
o 638, Type IV
----
o 2240
Finish Waterstol2
Tensile Strength-min (psi
Ultimate Elongation-min (percent)
1400
280
o 638, Type IV
o 638, Type IV
2.02 HYDROPHILIC WATERSTOPS
A. Hydrophilic waterstops shall be designed to expand and seal under hydrostatic conditions.
At construction joints, the waterstops shall be Adeka Ultraseal MC 2010 M for wall/slab
thickness greater than 9 inches, and Adeka Ultraseal KBA-151 OFF for walllslab thickness
less than 9 inches or equal. At expansion joints, the waterstops shall be Adeka Ultraseal
KM-3030M or equal.
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JOINTS IN CONCRETE
B. Plate fabrications used to plug flow channels or close wall openings shall be caulked using
hydrophilic waterstops designed for the application. Caulking agents shall be Adeka
Ultraseal P201 or equal.
2.03 WATERSTOPS FOR CHEMICAL AND FUEL STORAGE CONTAINMENT AREAS
A. General: Waterstops shall be manufactured from thermoplastic elastomeric rubber material.
The synthetic rubber shall provide a high resistance to acids, bases, alcohols, oils, solvents
and chemicals. No reclaimed material shall be used. The Contractor shall obtain from the
waterstop manufacturer and furnish to the Engineer for review, current test reports and a
written certification of the manufacturer that the material to be shipped to the job meets the
physical requirements outlined herein. Waterstop connections shall be heat welded. All
waterstop corners, intersections, and directional changes shall be miter cut, heat welded,
factory fabricated. Only straight butt splices shall be allowed in the field.
B. Multi-Rib WaterstoQ2: All chemical resistant waterstops shall be of multi-rib construction.
Waterstops for expansion joints shall be 9"x3/16" ribbed with a center bulb. Waterstops for
control joints shall be 6"x3/16" ribbed with a center bulb. Contractor shall provide chemically
resistant waterstops for all chemical containment construction. Chemical resistant
waterstops shall be Westec Type TPE-R synthetic rubber, manufactured by Westec Barrier
Technologies, St. Louis, MO, or equal.
C. Waterstop Phvsical Properties: When tested in accordance with the specified test
standards, the waterstop material shall meet or exceed the following requirements:
Physical Property
Tensile Strength
Ultimate Elongation
100% Modulus
Shore A Hardness
Brittle Point
Ozone Resistance
Value
1800 psi
450%
1000 psi
85 units:l: 5 units
-70oF
450 pphm passed
ASTM Std.
0-412
0-412
0-412
0-2240
0-746
0-1171
D. Weathering Performance: When tested in accordance with the specified test standards,
the waterstop material shall meet or exceed the following requirements:
Phvsical Propertll
Tensile Strength (% Retention)
Ultimate Elongation (% Retention)
Shore A Hardness (units change)
Value
87%
84%
7 units
ASTM Std.
0-412
0-412
0-2240
2.04 JOINT SEALANT
A. Joint sealant shail be polyurethane polymer designed for bonding to concrete which is
continuously submerged in water.
B. Joint sealant material shall meet the following requirements:
Work Life
Time to Reach
Hardness
45- 90 minutes
20 Shore "A"
24 hours, maximum
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NCWRF COMPLIANCE ASSURANCE PROJECT
JOINTS IN CONCRETE
__._........_.____.._. ".._.._...... .___._ _ "_'..m_._.__'___..~_.__"_,,,'__".._" ,_,
(at 77 degrees F, 200 gr quantity)
Ultimate Hardness
Tensile Strength
Ultimate Elongation
Tear Resistance (Die C ASTM 0624)
Color
30 - 40 Shore "A"
250 psi, minimum
400 percent, minimum
75 pounds per inch of thickness, minimum
Light Gray
C. All polyurethane sealants for joints in concrete shall conform to the following requirements:
1. Sealant shall be 2-part polyurethane with the physical properties of the cured sealant
conforming to or exceeding the requirements of ANSIIASTM C 920 or Federal
Specification TT-S-00227 E(3) for 2-part material, as applicable.
2. For vertical joints and overhead horizontal joints, only "non-sag" compounds shall be
used; all such compounds shall conform to the requirements of ANSIIASTM C 920
Class B, or Federal Specification TT-S-0027 E(3), Type II.
3. For plane horizontal joints, the self-leveling compounds which meet the requirements
of ANSIIASTM C 920 Class A, or Federal Specification TT-S-0027 E(3), Type I shall
be used. For joints subject to either pedestrian or vehicular traffic, a compound
providing non-tracking characteristics, and having a Shore "A" hardness range of25 to
35, shall be used.
4. Primer materials, if recommended by the sealant manufacturer, shall conform to the
printed recommendations of the sealant manufacturer.
2.05 PREFORMED JOINT FILLER
A. Preformed joint filler material shall be of the preformed non- extruding type joint filler
constructed of cellular neoprene sponge rubber or polyurethane offirm texture. Bituminous
fiber type will not be permitted. All non-extruding and resilient-type preformed expansion
joint fillers shall conform to the requirements and tests setforth is ASTM 0 1752 for Type I,
except as otherwise specified herein.
2.06 BACKER ROD
A Backer rod shall be an extruded closed-cell, polyethylene foam rod. The material shall be
compatible with the joint sealant material used and shall have a tensile strength of not less
than 40 psi and a compression deflection of approximately 25 percent at 8 psi. The rod
shall be 1/8-inch larger in diameter than the joint width exceptthat a one-inch diameter rod
shall be used for a 3/4-inch wide joint.
2.07 BOND BREAKER
A. Bond breaker shall be Super Bond Breaker as manufactured by Burke Company, San
Mateo, California; Hunt Process 225-TU as manufactured by Hunt Process Co., Santa Fe
Springs, CA; Select CureCRB as manufactured by Select Products Co., Upland, CA; or
equal. It shall contain a fugitive dye so that areas of application will be readily
distinguishable.
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NCWRF COMPLIANCE ASSURANCE PROJECT
JOINTS IN CONCRETE
. PART .3 -- EXECUTION
3.01 GENERAL...
.
A. Unless otherwise shown on the Drawings, waterstops of the type specified herein shall be
embedded intlie concrete across joints as shown. All waterstops shall be fully continuous .
for the extent of the joint. Splices necessary to provide such continuity shall be .
accomplished in conformance to printed instructions of manufacturer of the waterstops.
. The Contractor shall take suitable precautions and means to support and protect the'
waterstops during the progress ofthe Work and shall repair or replace at its own expense
any waterstops damaged during the progress of the Work. All waterstops shall be stored
so as to permit free circulation of air around the waterstop material.
B. When any waterstop is installed in the concrete on 1 side of a joint, while the other half or
portion of the waterstop remains exposed to the atmosphere for more than 14 days,
suitable precautions shall be taken to shade and protect the exposed waterstop from direct
rays ofthe sun during the entire exposure and until the exposed portion of the waterstop is
embedded in concrete.
3.02 SPLICES IN PVC WATERSTOPS
A. Splices in waterstops shall be performed by heat sealing the adjacent waterstop sections in
accordance with the manufacturer's printed recommendations. It is essential that
1. The material not be damaged by heat sealing.
2. The splices have a tensile strength of not less than 60 percent of the unspliced
materials tensile strength.
3. The continuity of the waterstop ribs and of its tubular center axis be maintained.
B. Butt joints of the ends of 2 identical waterstop sections may be made while the material is in
the forms.
C. All joints in waterstop involving more than 2 ends to be joined together, and all joints which
involve an angle cut, alignment change, or the joining of 2 dissimilar waterstop sections
shall be factory fabricated with not less than 24-inch long strips of material beyond the joint.
Upon being inspected and accepted, such prefabricated waterstop joint assemblies shall be
installed in the forms and the enc;fsofthe 24"inch strips shall be butt welded to the straight
run portions of waterstop in place in the forms.
3.03 JOINT CONSTRUCTION
A. Settinq PVC Watersto~ In order to ,eliminate faulty installation that may result in joint
leakage, particular care shall be taken of the correct positioning of the waterstops during
installation. Adequate provisions must be made. to support the waterstops during the
progress of the Work and to insure the proper imbedment in the concrete. The symmetrical
hCilves of the waterstops shall be equally divided between the concrete pours at the joints.
The center a)!:isof the waterstops shall be coincident with the joint openings. Maximum
density and imperviousness of the concrete shall be insured by thoroughly working it in the
vicinity of all joints.
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JOINTS IN CONCRETE
B. In placing PVC waterstops in the forms, means shall be provided to preventthem from
being folded over by the concrete as it is placed. Unless otherwise shown,all waterstops
shall be held in place w~h light wire ties on 12-inch centers which shall be passed through
the edge of the waterstop and tied to the curtain of reinforcing steel. Horizontal waterstops,
with their flat face .in a vertical plane, Shall be held in place with continuous supports to'
which the top edge of the waterstop shall be tacked. In placing concrete around horizontal
waterstops, with their flat face in a horizootal plane, concrete shall be worked under the
waterstops by hand so as to avoid the formation of air and rock pockets.
C. Joint Location: Construction joints, and other types of joints, shall be provided where
shown on the Drawings. When not shown on the. Drawings, construction joints shall be
provided at 35-foot maximum spacing for all concrete construction, unless noted otherwise.
The location of all joints, of any type, shall be submitted for review by the Engineer.
D. Joint Preparation: Special care shall be used in preparing concrete surfaces at joints where
bonding between two sections of concrete is required. Unless otherwise shown on the
Drawings, such bonding will be required at all horizontal joints in walls. Surfaces shall be
prepared in accordance with the requirements of Section entitled "Cast-in-Place Concrete."
E. Adequate means shall be provided for anchoring the waterstop in concrete. Waterstops
shall be positioned so that they are equally embedded in the concrete on each side of the
joint.
F. Sealant application shall be in accordance with the manufacturer's printed instructions. The
surfaces of the groove for the sealant shall not be coated. Concrete next to waterstops
shall be placed in accordance with the requirements of Section entitled, "Cast-in-Place
Concrete."
G. The primer and sealant shall be placed strictly in accordance with the printed
recommendations of the manufacturer, taking special care to properly mix the sealant prior
to application. All sealant shall cure at least 7 days before the structure is filled with water.
H. All sealant shall be installed by a competent waterproofing specialty contractor who has a
successful record of performance in similar installations. Before work is commenced, the
crew doing the Work shall be instructed as to the proper method of application by a
. representative of the sealant manufacturer.
I. Thorough, uniform mixing of 2-part, catalyst-cured materials is essential; special care shall
be taken to properly mix the sealer before its application. Before any sealer is placed, the
Contractor shall arrange to have the crew doing the Work carefully instructed as to the
proper method of mixing and application by a representative of the sealant manufacturer.
J. Any joint sealant which, after the manufacturer's recommended curing time for the job
conditions of the Work hereunder, fails to fully and properly cure shall be completely
removed; the groove shall be thoroughly sandblasted to remove all traces ofthe uncured or
partially cwred sealant and primer, and shall be re-sealed with the specified joint sealant. All
costs of such removal, joint treatment, re-sealing, and appurtenant work shall be at the
expense of the Contractor.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
JOINTS IN CONCRETE
SECTION 03300
CAST -IN-PLACE CONCRETE
PART 1 -" GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish all labor, equipment, materials and services necessary for the
manufacture, transportation and placement of all plain and reinforced concrete work, as
shown on the Drawings or as ordered by the Engineer, except for the work specifically
included under other items.
B. The requirements in this section shall apply to the following types of concrete:
1. Class A Concrete: Normal weight concrete used at all locations, unless otherwise
noted.
2. Class B Concrete: Normal weight concrete where proportions are designed such that
the maximum aggregate size is 3/8" (Pearock). Class B concrete shall be used only at
locations specifically identified on the Drawings.
3. Class C Concrete: Normal weight concrete used in electrical/instrumentation
ductbanks, pipe encasements and sidewalks.
4. Flowable Fill: Lean concrete proportioned without the use of coarse aggregate
primarily for use as pipe backfill. Flowable fill shall be utilized only at locations
indicated on the Drawings.'
.
5. Grout is specified in Section 03315 entitled "Grout",
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of other requirements of these specifications, all work herein
shall conform to or exceed the requirements of the Florida Building Code and the
applicable requirements ofthe following documents to the extentthatthe provisions of such
documents are not in conflict with the requirements of this Section.
1. Codes and Standards
a. The Building code, as referenced herein, shall be the Florida Building Code.
. 2. Federal Specifications
a.
UU-B-790A
Building paper, vegetable fiber (Kraft, waterproofed; water
repellant and fire resistant).
3. Commercial Standards
a.
ACI214
Recommended Practice for Evaluation of Strength Test
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NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
Resuits of Concrete.
b. ACI 301 Specifications for Structural Concrete for Buildings.
c. ACI 305 Hot Weather Concreting.
d. ACI306 Cold Weather Concreting.
e. ACI 309 Recommended Practice for Consolidation of Concrete
f. ACI315 Details and Detailing of Concrete Reinforcement.
g. ACI 318 Building Code Requirements for Reinforced Concrete.
h. ACI347 Recommended Practice for Concrete Formwork.
I. ACI 350 Environmental Engineering Concrete Structures.
J. ASTM C 31 Methods of Making and Curing Concrete Test Specimens in
the Field.
k. ASTM C 33 Specification for Concrete Aggregates.
. I. ASTM C 39 Test Method for Compressive Strength of Cylindrical Concrete
Specimens.
m. ASTM C 88 Test Method for Soundness of Aggregates by use of Sodium
Sulfate or Magnesium Sulfate.
n. ASTM C 94 Specification for Ready-Mixed Concrete.
o. ASTM C 114 Method for Chemical Analysis of Hydraulic Cement.
p. ASTM C 136 Method for Sieve Analysis of Fine and Coarse Aggregate.
q. ASTM C 143 Test Method for Slump of Portland Cement Concrete.
r. ASTM C 150 Specification for Portland Cement.
s. ASTM C 156 Test Method for Water Retention by concrete Curing
Materials.
t. ASTM C 157 Test Method for length Change of Hardened Cement Mortar
and Concrete.
u. ASTM C 192 Method of Making and Curing concrete Test Specimens inthe
Laboratory.
v. ASTM C 227 Standard Test Method for Potential
Alkali Reactivity of Cement Aggregate Combinations (Mortar-
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Bar Method).
. w: ASTM C 260 Specification forAir-Entraining Admixtures for Concrete.
x. ASTM C 289 Standard Test Method for Potential Reactivity of Aggregates
(Chemical Method).
y. ASTM C 494 Specification for Chemical Admixtures For Concrete.
Z. ASTM C 586 Standard Test Method for Potential Alkali Reactivity of
Carbonate Hocks for Concrete Aggregates (Rock Cylinder
Method).
aa. ASTM C 618 Standard Specification for Fly Ash and Raw or Calcined
.Natural Pozzolan for use as a Mineral Admixture in Portland
Cement Concrete.
bb. ASTM 0 1751 Specification for preformed Expansion Joint Fillers for
Concrete Paving and Structural Construction (Non-extruding
and Resilient Bituminous Types).
cc. ASTM E11 Specification for Wire-Cloth Sieves for Testing Purposes.
dd. . ASTM E 119 Method for Fire Tests of Building Construction and Materials.
ee. AWS 01.4 Structural Welding Code - Reinforcing Steel.
B. Any procedure, materials or operation specified by reference to the American Society for
Testing and Materials (ASTM), the American Concrete Institute (ACI), Building Code or
other references shall comply with the requirements of the current and most recent
specifications or standards. In conflicts between listed standards and this specification, the
. more stringent requirements shall govern.
C. The Contractor. is expected to obtain. the. most recent issue of all standards,
recommendations, codes or specifications referred to within this specification.
1.03 SUBMITTALS
A. In accordance with the procedures and requirements set forth in the Section entitled
Submittals, the Contractor shall submit the following:
1. Sources of all materials and certifications of compliance with specifications for all
sources of each material:
2. Manufacturer's data on all admixtures.
3. Concrete mix designs for each type of mix proposed and its intended locations. Design
mixes shall be prepared by qualified persons. The design of the mix is the
responsibility of the Contractor subject to the limitations of the specifications. Review
processing ofthissubmission will be required only as evidence that the mix has been
designed by qualified persons and that the minimum requirements ofthe specifications
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have been met. Such review will in no way alter the responsibility of the Contractor to
furnish concrete meeting the requirements ofthe specifications relative to strength and
.'.slump, .
. 4. Field mix el,Cperience records andlor trial mix d;3ta used as the basis for the proposed
. concrete mix design shall be submitted to the Engineer along with the proposed mix.
5. If in the progress of the work the sources of materials change in characteristics or the
Contractor requests' a new source in writing, the Contractor shall, at his expense,
submit new test data and information for the establishment of a new design mix.
6. A schedule of all concrete placement with volume of concrete planned to be placed
each day.
7. A layout of all structures with all planned construction joint locations.
8: Where ready-mix concrete is used, the Contractor shall provide deiivery tickets at the
time of delivery of each load of concrete. In addition to the information required by
ASTM C94, each ticket shall show the mix number, cement content, water content,
and waterlcement ratio.
9. Contractor shall submit to the Engineer for approval, a minimum of two suppliers for
aggregates it proposes to use or confirmation that it can obtain 100 percent of the
needed aggregates from one quarry.
10. The Contractor shall submit certification from each admixture manufacturer that all
admixtures utilized in the design mix are compatible with one another and properly
proportioned.
11. The Contractor shall submit a Certification with the chloride content of the admixtures
proposed prior to Mix design review by the Engineer.
1.04 QUALITY ASSURANCE
A. Plant equipment and facilities shall meet all requirements of the Check Listfor Certification
of Ready Mixed Concrete Production facilities of the National Ready Mixed Concrete
Association and ASTM C 94.
B. Tests on component materials and for compressive strength and slump of concrete shall be
performed as specified herein. Test for determining slump shall be in accordance with the
requirements of ASTM C143.
C. The cost of initial trial batches and initial laboratory tests to design the mixes including
compression tests, sieve analysis and tests on trial batches shall be included in the
Contract Price. The cost of other laboratory tests during construction on cement,
aggregates, and concrete, will be borne by the Owner. However, the Contractor will be
charged for the cost of any additional tests and investigation on work performed which does
notmeetthe Specifications. All test results shall be sent directly to the Engineer. All testing
invoices shall be sent directly to the Owner. The Contractor shail be responsible for
coordination of all tests with the testing laboratory.
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. D. Concrete for testing shall. be supplied by the Contractor at no additional cost to the Owner,
and the Contractor shall provide assistance to the testing laboratory in obtaining samples.
The Contractor shall dispose of and clean up all excess material.
E. Field Samples
1. Compression test specimens shall be taken during construction from the first
placement of each class of concrete specified herein. At least one set of test
specimens shall be made for each 50 yards of concrete placed subject to a minimum
of one set for each concrete placement. Each set of test specimens shall be a
minimum of four cylinders.
2. Tests shall conform to ASTM C172 for sampling and ASTM C31 for making and curing
test cylinders. Specimens shall be 6-inch diameter by 12-inch high cylinders for
concrete with coarse aggregates and four inch cubes for concrete containing fine
aggregates only.
3. Compression tests shall be performed in accordance with ASTM C39. One test
cylinder will be tested at seven days and two at 28 days. The remaining cylinder will
be held to verify test results, if needed.
4. Take a minimum of one slump measurement whenever a set of compression test
specimens is made. Slump tests shall be made in accordance with ASTM C143.
5. Air contenttests shall conform to ASTM C231 (pressure method for air content). Tests
shall be made whenever strengths specimens are made.
G. Evaluation and Acceptance of Concrete.
1: Evaluation and acceptance ofthe compressive strength of concrete shall be according
to the requirements of AC1318, Chapter five "Concrete Quality, Mixing, and Placing"
and as specified herein.
2. If any concrete fails to meet these requirements, immediate corrective action shall be
taken to increase the compressive strength for all subsequent batches of the type of
concrete affected.
3. When the standard deviation ofthe test results exceeds 500 psi, the average strength
for which the mix is designed shall be increased by an amount necessary to satisfy the
statistical requirement that the probability of any test being more than 500 psi below or
the average of any three consecutive tests being below the specified compressive
strength is one in 100. The required average strength shall be calculated by the
Criteriol1 No. three of ACI214 using the actual standard of deviation.
4. All concrete which fails to meet the ACI requirements and these specifications, is
subject to removal and replacement at no additional cost to the OWNER.
H. The. Contractor shall set and maintain concrete forms and perform finishing operations so
as to ensure that the completed work is within the tolerances specified herein and in
accordance with Section entitled "Concrete Formwork". Surface defects and irregularities
are defined as finishes and are to be distinguished from tolerances. Tolerance is the
specified permissible variation from lines, grades, or dimensions shown. Where tolerances
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.-.--..---
-
. _._._ __ _"'~'_"~"'.."_' ~_w._.~__. ...... .._...-
.,,_._.-.._..<~-,-~--~-_.--,...,..., ,,-.. -....- ...-..-..-.-
.----.
are not stated in the Specifications, permissible deviations shall be in accordance with ACI
117.
I. Inspections are required as specified in the Section entitled "Concrete Reinforcement".
1.05
PRE-CONCRETE CONFERENCE
.
A. At least 35 days prior to start of the Concrete construction schedule, the Contractor shall
conduct a meeting to review the proposed mix designs and to discuss the required
methods and procedures to achieve the required concrete construction. The Contractor
shall send a pre-concrete conference agenda to all attendees 20 days prior to the
scheduled date of the conference.
B. The Contractor shall require responsible representatives of every party who is concerned
with tl:le concrete work to attend the conference, including but not limited to the following:
1. Contractor's superintendent
2. For the concrete design mix - Laboratory retained for trial batching and tests
3. For field quality control - Concrete subcontractor, Concrete producer, Admixture
Manufacturer(s), Concrete pumping contractor
C. Minutes of the meeting shall be recorded, typed and printed by the Contractor and
distributed by him to all parties concerned within five days of the meeting. One copy of the
minutes shall also be transmitted to the Engineer.
D. The minutes shall include a statement by the admixture manufacturer(s) indicating that the
proposed mix design and placing techniques can produce the concrete quality required by
these specifications.
E. The Engineer will be present at the conference. The Contractor shall notify the Engineer at
least 20 days prior to the scheduled date of the conference.
PART 2 -- PRODUCTS
2.01 CONCRETE MATERIALS
A. Materials shall be delivered, stored, and handled so as to prevent damage by water or
breakage. Only one brand of cement shall be used. Cement reclaimed from cleaning bags
or leaking containers shall not be used. All cement shall be used in the sequence of receipt
of shipments.
B. All materials furnished for the work shall comply with the requirements of ACI 301, as
applicable.
C. Storage of materials shall conform to the requirements of ACI 301.
D. Materials for concrete shall conform to the following requirements:
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. 1. . Gement shall be standard brand Portland Cement conforming to ASTM 150forType II.
Portland cement shall contain not more than 0.60 percent alkalies. The term "alkalies"
ref~rred to herein is defined as the sum of the percentage of sodium oxide and 0.658
times the percentage of potassium oxide (Na20 + 0.658 K20). These oxides shall be .
determined in accordance with ASTM C 114. A single brand of cement shall be used
throughout the work, and prior to its use, the brand shall be acceptable to the
Engineer. The cement shall be suitably protected from exposure to moisture until .
. used. Cement that has become lumpy Shall not be used. Sacked cement shall be
stored in such a manner as to as to permit access for inspection and sampling.
Certified mill test reports for each shipment of cement to be used shall be submitted to
the Engineer, verifying compliance with these Specifications.
2. Water shall be potable, clean and free from objectionable quantities of silty organic
matter, alkali, salts and other impurities. The water shall be considered potable; for
the purposes of this Section only, if it meets the requirements of the local .
govemmental agencies. Agricultural water with high total dissolved solids (over 1000
mg/1 TDS) shall not be used.
3. Aggregates shall be obtained from pits acceptable to the Engineer, shall be non-
reactive and shall conform to the ASTM C 33. Lightweight sand for fine aggregate will
not be permitted. Maximum size of coarse aggregate shall be as specified in Article
2.04, Paragraph B of this Section.
a. Coarse aggregates shall consist of clean, hard, durable gravel, crushed gravel,
crushed rock or a combination of coarse aggregate and shall be of designated
size for the mix being used for the application.
b. Fine aggregates shall be natural sand or manufactured sand or a combination
of natural and manufactured sand that are hard and durable.
c. Combined aggregates shall be well graded from coarse to fine sizes, and shall
be uniformly graded between screen sizes to produce a concrete that has
optimum workability and consolidation characteristics. Where a trial batch is
required for a mix design, the final combined aggregate gradations will be
established during the trial batch process.
4. Ready - Mix Concrete shall conform to the requirements of ASTM C 94.
2.02 ADMIXTURES
A. Admixtures shall be required at the Engineer's discretion or, if not required, may be added
at the Contractor's option to control the set, effect water reduction, and increase Workability.
In either case, the addition of an admixture shall be at no additional cost to the Owner.
The use of an admixture shall be subject to acceptance by the Engineer. Admixtures
permitted shall conform to the requirements of ASTM C 494 (chemical admixtures) or
ASTM C260 (Air-Entraining admixture). Admixtures shall contain no free chloride ions, be .
non-toxic after 30 days:
B. Air-entraining agent meeting the requirements of ASTM C 260, shall be used. For Class A
Coricrete, sufficient air-entraining agent shall be used to provide a total air content of2.5 to
5.5 percent. The Owner reserves the right, at any time, to sample and test the airc
entraining agent received on the job by the Contractor. The air-entraining agent shall be
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.'. added to the batch in a portion of the mixing w;3ter: The solution shall be batched bymeans . .
. of amechanical batcher capable of accurate. measurement. Air-entraining ageht shall be
Sika AER by Sika Corp., MB-VR by Master Builders, Darex AEA by Grace, AEAc92Sby
. EuClid Chemical Company, orequaL
...
C. Admixtures shall be compatible with and made by the same manufacturer as the air
entraining admixture:
D. . Water reducing admixture shall conform to ASTM C 494, Type A and shall contain no more
than.0.05% chloride ions. Acceptable products are "Eucon Series" by the Euclid Chemical
Company, "Pozzolith Series" by BASF, and "Plastocrete Series" by Sika Corporation.
E. High range water reducer shall be sulfonated polymer conforming to ASTM C 494, Type F
or G. The high range water reducer shall be accurately measured and pressure injeCted
into the mixer as a single dose by an experienced technician. A standby system shall be
provided and tested prior to each day's operation of the job sitesystem. Concrete shall be
mixed at mixing speed for a minimum of 1 00 mixer revolutions after the addition of the high
range water reducer. Acceptable products are "Eucon 37" or Plastol 5000 by the Euclid
Chemical Company, "Rheobuild 1 000 or Glenium Series" by BASF, and "Daracem 1 00 or
Advaflow Series" by W.R. Grace.
F. A non-chloride, non-corrosive accelerating admixture shall be used when air temperature at
time of placement is expected to be consistently below 40 degrees Fahrenheit as
specifically approved by the Engineer. The admixture shall conform to ASTM C 494, Type
C or E, and shall not contain more chloride ions than are present in municipal drinking
water. The admixture manufacturer must have long-term non-corrosive test data from an
independent testing laboratory (of at least a year's duration) using an acceptable
accelerated corrosion test method such as that using electrical potential measures.
Acceptable products are "Accelguard 80/90 or NCA" by the Euclid Chemical Company and
"Daraset" by W.R. Grace.
G. A water reducing retarding admixture shall be used when air temperature at time of
placement is expected to be consistently above 90 degrees Fahrenheit as specifically
approved by the Engineer. The admixture shall conform to ASTM, Type 0 and shall not
contain more than 0.05% chloride ions. Acceptable products are "EUcon NR or Eucon
Retarder 100" by the Euclid Chemical Company, "Pozzolith 200N" by BASF, and
"Plastiment" by Sika Corporation. '
H. The Contractor shall submit certification from each admixture manufacturer that all
admixtures utilized in the design mix are compatible with one another and properly
proportioned.
I. Prohibited Admixtures: Calcium chloride, thiocyanate or admixtures containing more than
0.05 percent chloride ions are not permitted,
J. Certification: Written conformance to the above mentioned requirements and the chloride
ion content of the admixture will be required from the admixture manufacturer prior to Mix
design review by the Engineer.
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K .' ,. Synthetic Fibers: MOl1ofilamentorfibrillated polypropylene fibers for secondary reinforcing
. of concrete members only. when specifically called for on Drawings. Product shall have a
UL rating. Product shall be "Fiberstrand~' by The Euclid Chemical Co. or "Fibermesh'" by
. Fibermesh, Inc.
L. For Class A; Class B and Class C Concrete,f1yash may be added atthe option of the
Contractor. However, the weight added shall be limited to 15 percent of total cementitous
materials (cement and f1yash). Flyash shall conform to ASTM C618; Type F.
M. The mix proportions used shall be changed subject to the limitation specified herein,
whenever such change is n'ecessary or desirable to secure the required strength, density,
workability, and surface finish and the Contractor shall be entitled to no additional
compensation because of such changes.
2.03 CONCRETE DESIGN REQUIREMENTS
A. The Contractor shall be responsible for the concrete mix designs subject to the
requirements specified herein. Concrete shall be composed of cement, admixtures,
aggregates and water. The exact proportions in which these materials are to be used for
different parts of the work shall be determined during the trial batch. In general, the mix
shall be designed to produce a concrete capable of being deposited so as to obtain
maximum density and minimum shrinkage and, where deposited in forms, to have good
consolidation properties and maximum smoothness of surface. The aggregate gradations
shall be formulated to provide fresh concrete that will not promote rock pockets around
. reinforcing steel or embedded items. The proportions shall be changed whenever
. necessary or desirable to meet the required results at no additional cost to the Owner. All
changes shall be subject to review by the Engineer.
2.04 PROPORTIONING
A. The quantity of ingredients to use per batch shall be governed by the size of the concrete
mixer and the composition of the concrete, but shall not exceed the rated capacity specified
for the mixer by the manufacturer of that equipment. The proportion of cement,
aggregates, admixtures and water shall be such as to produce a mixture which willwork
readily into the corners and angles of the forms and around reinforcement by methods of
placing and consolidation employed on the work, but without permitting the materials to
segregate or excessive free water to collect on the surface.
B. The proportions of cement, aggregates, admixtures and water used in the concrete shall be
based on tests of grading and moisture content of materials, slump of concrete mixture,
strength of concrete and the following factors:
1. Class A Concrete (AIi concrete unless otherwise noted).
Minimum cementitousmaterials
content, per cubic yard
Maximumwater-cementitous
materials ration, by weight
. .
. Slump range
without flyash added: 611 lbs.
0.42
3" to 4" with water reducing admixture
3" max. before addition of high range water
reducing admixture.
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~_ ..___~._,,~'.'. u.",_._.^,_
8" max. after addition of high range water
reducing.admixture
#57 per ASTM C33
Coarse Aggregate
Compressive strength Ibs. per
sq. inch at 28 days - F'c
Air Content
4,000
3%+1%
2. Class B Concrete (At locations shown on the Drawings).
Minimum cementitous materials content, per cubic yard
Maximum water-cementitous materials ratio, by weight
Slump, maximum
Compressive strength Ibs. per sq. inch at 28 days - F'c
Coarse Aggregate
Air Content
5171bs.
0.50
5-inches
4,000
Pea rock
3%+ 1%
3. Class C Concrete ( Sidewalks, pipe encasements in the dry, thrust blocks and
electrical duct banks
Minimum cementitous materials content, per cubic yard
Maximum water-cementitous materials ratio, by weight
Slump, maximum
Compressive strength Ibs. per sq. inch at 28 days - F'c
Coarse Aggregate
Air Content
4. Flowable Fill (In lieu of pipe bedding, select backfill).
Minimum cementitous materials content, per cubic yard
Maximum water-cementitous materials ratio, by weight
Flowability, minimum
Compressive strength Ibs. per sq. inch at 28 days - F'c
Coarse aggregate
Fine aggregate
500 Ibs.
0.60
5-inches
3,000
#57 per ASTM C33
3% + 1%
1001bs.
5.0
8 inches
50-150 psi
none
limestone screenings
C: All Class A, unless noted otherwise on the Drawings, shall be air entrained concrete. All
class A for vertical work shall contain the high range water-reducing' admixture
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(superplasticizer).' A water reducing admixture may be added to the mix at the Contractor's.. .
option. .
D. Concrete proportions shall be based on the basis of proposed laboratory trial batches in
conformance with Section 5.3, "Proportioning on the Basis offield Experience andlor Trial
Mixtures" ofACI 318. Tests shall be made by an independent laboratory. Submit mix
designs on each class of concrete for review on the Mix Design Submittal Form attached at
the end of the specification.
2.05 MEASUREMENT OF CEMENT AND AGGREGATE
A. The amount of cement and of each separate size of aggregate entering into each batch of
concrete shall be determined by direct weighing equipment fumished by the Contractor and
acceptable to the Engineer; provided that, where batches are so proportioned as to contain
an integral number of conventional sacks of cement, and the cement is delivered at the
mixer in the original unbroken sacks, the weight of the cement contained in each sack may
be taken without weighing as 94 pounds.
2.06 MEASUREMENT OF WATER
A. The quantity of water entering the mixer shall be measured by a suitable water meter or
other measuring device of a type acceptable to the Engineer and capable of measuring the
water in variable amounts within a tolerance of one percent. The water feed control
mechanism shall be capable of being located in position so as to deliver constantly any
specified amount of water to each batch of concrete, and the meter shall include a set-back
register with a readily visible vertical face and double hands indicating in cubic feet and
decimals thereof. A positive quick-acting valve shall be used for a cut-off in the water line
to the mixer. The operating mechanism must be such that leakage will not occur when the
valves are closed.
2.07 READY-MIXED CONCRETE
A. At the Contractor's option, ready-mixed concrete may be used meeting the requirements as
to materials, batching, mixing, transporting, and placing as specified herein and in
accordance with ASTM C 94.
B. Ready-mixed concrete shall be delivered to the site for the work, and discharge shall be
completed within 90 minutes after the addition of the cement to the aggregates or before
the drum has been revolved 250 revolutions, whichever is first. In hot weather, or under
conditions contributing to quick stiffening of the concrete, the time between the introduction
of the cement to the aggregates and discharge shall not exceed one hour. Upon delivery
from the truck, concrete termperature shall not exceed 90 degrees Fahrenheit.
C. . Truck mixers shall be equipped with electrically-actuated counters by which the number of
revolutions of the drum or blades may be readily verified. The counter shall be of the
resettable, recording type, and shall be mounted in the driver's cab. The counters shall be
actuated at the time of starting mixers at mixing speeds.
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-'
...---
.. ---"".--..-- ".~ -.., ,...-~--.^"-,_...~...._-_._.
.~._....~,.---_._"._-_.._.. .'. ,.--.-.----
D. Each' batch of concrete shall be mixed in a truck mixer for not less than 70 revolu1ions of.
the drum or blades at the rate of rotation designated by the manufacturer of equipment.
Additional mixing, if any, shall be at the speed designated by the manufacturer of the
equipment as agitating speed. . All materials including mixing water shall be in the mixer
drum before actuating the revolution counter for determining the number of revolution of
. ..
mixing.
E. Truck mixers and their operation shall be such that the concrete throughout the. mixed
batch, as discharged, is within acceptable limits of uniformity with respect to consistency,
mix and grading. If slump tests taken at approximately the 1/4 and 3/4 points of the load
during discharge give slumps differing by more than one inch when the specified slump is
three inches or less, or if they differ by more than 2 inches when the specified shimp is
more than 3 inches, the mixer shall not be used on the work unless the causing condition is
corrected and satisfactory performance is verified by additional slump tests. All mechanical
details of the mixer, such as water measuring and discharge apparatus, condition of the
blades, speed of rotation, general mechanical condition of the unit and clearance of the
drum, shall be checked before a further attempt to use the unit will be permitted.
F. . Each batch of ready-mixed concrete delivered at the job site shall be accompanied by a
certified weighmaster delivery ticket furnished to the Engineer in accordance with
Paragraph 1.04 giving the dry weights of cement and saturated surface-dry-weights of fine
and coarse aggregate and quantities, type, and name of admixtures (if any) and of water
per cubic yard of concrete furnished (w/c ratio).
G. The use of non-agitating equipment for transporting ready-mixed concrete will not be
permitted. Combination truck and trailer equipment for transporting ready-mixed concrete
will not be permitted. The quality and quantity of materials used in ready-mixed concrete
and in batch aggregates shall be subject to continuous inspection at the batching plant by
the Engineer.
2.08 CONTROLLED LOW STRENGTH MATERIAL (FLOWABLE FILL)
A. Mixture used for excavatable fill shall be designed to produce a 28-day compressive
strength of 1 00 psi. The Contractor shall submit his mixture design to the Engineer priorto
construction.
PART 3 -- EXECUTION
3.01 PROPORTIONING AND MiXING
A. Proportioning of the concrete mix shall be based on the results of field experience or
laboratory trial mixes in conformance with Section 5.3, "Proportioning on the Basis of Field
Experience and/otTrial Mixtures" of ACI 318. When trial mixes are used they shall conform
to the requirements of Chapter 3 "Proportioning" of ACI 301; provided, that the maximum
slump for any concrete shall not exceed the limits specified in this Section of the
Specifications.
B. When field experience records are inadequate to confirm the quality of a proposed concrete
mix in acco'rdance with Section 5.3, "Proportioning on the Basis of Field Experience andlor
Trial Mixtures" of ACI 318, or when required by the Engineer, an independent testing
laboratory designated by the Contractor and acceptable to the Engineer shall test a trial
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batch'of each of the preliminary concrete mixes.submitted by the Contractor. The trial
batches shalli:>e prepared using the aggregates, cement and admixtures proposed for the .
project. The trial batch materia is shall be of a quantity such that the testing laboratory can
obtaineriough samples to satisfy requirements stated below. Tests on individual materials
. stated in PART 2, c- PRODUCTS should already be performed before any trial niix is done.
The cost of laboratory trial batch tests for each specified concrete mix will be borne by the
Contractor and the Contractor shall fumish and deliver the materials to the testing
laboratory at no cost to the Owner.
C. An independent testing laboratory shall observe the preparation of the trial batch, and they
shall prepare a minimum of fifteen (15) standard test cylinders in accordance with ASTM
C 31 in addition to conducting slump (ASTM C 143), air content (C 231) and unit weight
(C .138) tests. Compressive strength test on the cylinders shall subsequently be performed
by the same laboratory in accordance with ASTM C 39 as follows: Test 3 cylinders at age 7
days; test 3 cylinders at age 21 days; test 3 cylinders at age 28 days and test 3 cylinders at
56 days. The cylinders shall be carefully identified as "Trial Mix, Contract No. ,
Product ." If the average 28-day compressive strength of the trial mix is less than
that specified, or if any Single cylinder falls below the required strength by more than 500
psi, the mix shall be corrected, another trial batch prepared, test cylinders taken, and new
tests performed as before.' Any such additional trial batch testing required shall be
performed at no additional cost to the Owner. Adjustments to the mix shall be considered
refinements to the mix design and shall not be the basis for extra compensation to the
Contractor.
D. . Mixing of concrete shall conform to the requirements of Chapter 7 of ACI 301
Specifications.
E. Retempering of concrete or mortar which has partially hardened will not be permitted.
3.02 COMPRESSION TEST CYLINDERS
A. The Owner will perform, control and pay for all tests during construction as specified herein.
All testing shall be performed in accordance with procedures specified herein. The
Contractor shall be required to furnish. labor to the Owner for assistirig in preparing test
cylinders for testing. The Contractor shall provide approved curing boxes for storage of
cylinders on sitE). The insulated curing box shall be of sufficient size and strength to contain
all the specimens made in any four consecutive working days and to protect the specimens
from falling over, being jarred or otherwise disturbed during the period of initial curing. The
box shall be erected, furnished and maintained by the Contractor. Such box shall be
equipped to provide the moisture and to regulate the temperature necessary to maintain the
proper curing conditions required by ASTM C31. Such box shall be located in an area free
from vibration such as pile driving and traffic of all kinds: No concrete requiring inspection
shall be' delivered to the site until such storage curing box has been provided. Specimens.
shall remain undisturbed in the curing box uritil ready for delivery to the testing laboratory
but not less than sixteen hours.
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NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
3.03 CONSISTENCY
A. The consistency of the concrete shall be checked by the Engineer by standard slump cone
tests, The Contractor shall make any necessary adjustments in the mix as the Engineer
may direct and shall upon written order suspend all placing operations in the event the
consistency does not meet the intent of the specifications. No payment shall be made for
any delays, material or labor costs dJie to such eventualities.
B. The approved consistency of the concrete mix shall at all times be as stiff or dry as is
practicable, considering the particular type of work being done and the necessity of
obtaining a dense, impervious, watertight concrete. Thin or wet mixes as a substitute for
proper placing facilities or adequate placing labor will not be permitted,. nor will the
appearance of free water in the forms. Any concrete work which does not fully satisfy the
specifications as to strength, density and watertightness or in which segregation, voids or
improper finish is apparent, shall be completely removed and replaced as instructed by the
Engineer at the Contractor's expense.
3.03 MIXING CONDITIONS
A. The concrete shall be mixed only in such quantities as required for immediate use. No
concrete shall be mixed while the air temperature is below 40oF, without permission of the
Engineer. If permission is granted for mixing concrete under such conditions, the work
shall be in accordance with ACI 306, "Cold Weather Concreting" and the aggregates or
water, or both if required, shall be heated and temperature of the concrete, when placed,
shall not be less than 65 degrees Fahrenheit, nor more than 80 degrees Fahrenheit.
B. During hot weather, the temperature of the concrete shall be less than 90 degrees
Fahrenheit. The work shall be in accordance with ACI 305, "Hot Weather Concreting."
C. Retempering of concrete by adding water or other materials will not be permitted.
3.04 PLACING CONCRETE
A. Before any major concrete placement is started, the Contractor shall prepare and submitto
the Engineer for approval a schedule of his proposed operations. The Contractor shall give'
the Engineer a minimum of 24 hours notice prior to concrete placement after all other
requirements of these specifications have been met. No concrete shall be placed except in
the presence of duly authorized representative of the Engineer.
B. No foundation, slab or pavement concrete shall be placed until the depth and character of
the foundation soils have been inspected and accepted by the Engineer. No concrete shall
be placed until all reinforcing steel, anchor bolts, pipes, conduits, sleeves and other work
required to be built into concrete have been inspected and accepted by the Engineer. All
concrete shall be placed during the daylight hours except with the consent of the Engineer;
the placing of concrete in any portion of the work shall not be started unless it can be
completed in daylight. If special permission is obtained to carry on work during the night,
an adequate flood-light system must be provided.
C. The method and manner of placing concrete shall be such as to avoid the possibility of
segregation of the concrete materials or the displacement of the reinforcement. When.
troughs or chutes are used in placing concrete, their angle of inclination shall not exceed 1
vertical to 2 horizontal with respect to the horizontal. When pipes are used, they shall be
003300 CasHn-Place Concrete.doc:Ol-15-1 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
kept full of concrete' and have their lower ends buried in fresh concrete; such pipes shall be .
used in the same manner as a tremie. All chutes, troughs and pipes shall be kept clean
arid free from coatings of hardened concrete. Open troughs or chutes shall be metal or
metal-lined, and shall extend as nearly as possible to the point of deposit... Wheri the
discharge must be intermittent, a hopper or other device for regulating the discharge shall
be provided.
D. Dropping the concrete a distance of more than five (5) feet or depositing a large quantity at
any point, running or working it along the forms will not be penTlitted.
E. Placing of concrete shall be so regulated thatthe pressure caused by the wet concrete shall
riot exceed that used in the design of the forms.
F. All concrete shall be deposited in approximatelY horizontal layers. Each part of the form
shall be filled by placing the concrete as near to its final position as possible. The coarse
aggregate shall be worked back from the face and the concrete forced under and around
the inserts, piping and reinforcing bars without disturbing them.
G. All concrete shall be consolidated by continuous working with suitable tools and by the use
of approved mechanical vibrating devices. All formed faces shall be vibrated in accordance
with Table 1 included at the end of Section 03300 and the mortar flushed to the surface by
continuous working with a concrete spade or vibrating implement. Use and type of
vibrators shall conform to ACI 309 "Recommended Practice for Consolidation of Concrete."
H. Mechanical vibrators shall meet requirements indicated in Table 1 attached to the end of
this Section transmitting vibrations directly to the concrete with sufficient intensity to cause
flow and settlement. Their operation shall be carefully controlled to give sufficient duration
to accomplish thorough compacting without over-agitation which will cause segregation of
the materials. Every effort shall be made to ensure that all concrete work is impermeable,
compact, watertight, and smooth to prevent the formation of laitance.
I. The various placements shall be planned and executed to ensure that once started the
placing of concrete in a placement shall be continuous and in a manner to prevent any
initial set from starting in any concrete before fresh concrete is placed against it.
J. After the concrete has acquired its initial set, care shall be exercised to avoid jarring forms
or placing any strain on the ends of projecting reinforcing bars.
K. Earth surfaces shall be thoroughly wetted by sprinkling, prior to the placing of any concrete,
and these surfaces shall be kept moist by frequent sprinkling up to the time of placing
concrete thereon. A vapor barrier specified in Section 07190 entitled "Vapor Barrier" shall
be placed. The surface shall be free from standing water, mud, and debris at the time of
placing concrete.
L. No concrete shall be placed until the reinforcement steel and formwork have been erected
in a manner acceptable to the Engineer. The Contractor shall notify the Engineer not less
than two working days prior to Concrete Placement, allowing one day for review and any'
corrective measures which are required.
M. Joints in Concrete
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NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
1. Concrete surfaces upon or against which concrete is to be placed shall be given a
roughened surface for good bond and a bonding agent shall be placed. Do not use
bonding agent at North Bleach System structures and at pond screening structure's
anchor walls.
2. After the surfaces have been prepared all approximately horizontal construction joints
shall be covered with a layer of mortar approximately one-inch thick. The mortar shall
have the same proportions of cement and sand as the regular concrete mixture. The
water-cement ratio of the mortar in place shall not exceed that of the concrete to be
placed upon it, and the consistency of the mortar shall be suitable for placing and
working' in the manner hereinafter specified. The mortar shall be spread uniformly and
shall be worked thoroughly into all irregularities of the surface. Wire brooms shall be
used where possible to scrub the mortar into the surface. Concrete shall be placed
immediately upon the fresh mortar. Do not use mortar at North Bleach System
structures and at pond screening structure's anchor walls.
N. Placing Interruptions
1. When placing of concrete is to be interrupted long enough for the concrete to take a
set, the working face shall be given a shape by the use of forms or other means, that
will secure proper union with subsequent work; provided that construction joints shall
be made only where acceptable to the Engineer. Cold joints will be sufficient cause for
rejection of the work.
O. Embedded Items
1. No concrete shall be placed until all formwork, installation of parts to be embedded,
reinforcing .steel, and preparation of surfaces involved in the placing have been
completed and accepted by the Engineer at least four hours before placement of
concrete. All surfaces of forms and embedded items that have become encrusted with
dried grout from concrete previously placed shall be cleaned of all such grout before
the surrounding or adjacent concrete is placed.
2. All inserts or other embedded items shall conform to the requirements herein.
P. All reinforcement, anchor bolts, sleeves, inserts, and similar items shall be set and secured
in the forms where shown on the Drawings or by shop drawings and shall be acceptable to
the Engineer before any concrete is placed. Accuracy of placement is the responsibility of
the Contractor.
Q. All anchor bolts called for on the drawings shall be cast-in-place in the concrete. Drilled,
impact, adhesive or other types of anchors shall not be substituted for anchor bolts unless
otherwise shown on the Drawings. Anchor bolts shall conform to the requirements set forth
in Section 05050 entitled "Metal Fastening".
R. Casting New Concrete Against Old
1. Where concrete is to be cast against old concrete (any concrete which is greater than
60 days of age), the surface of the old concrete shall be thoroughly cleaned and
roughened by sand-blasting (exposing aggregate) prior to the appiication of an epoxy
bonding agent. .
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NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
S. . No concrete 1;>hall be placed in any. structure until all water entering the space to be filled
. with concrete has been properly cut offer has been diverted by pipes, or other means, and
carried out of the forms, clear of the work. No concrete shall be deposited underwater.
except where shown on the Drawings to be placed. by the tremie method, nor shall the
Contractor allow still water to rise on any concrete until the concrete has attained its initial
set Water shall not be permitted to flow over the surface of any concrete in such manner
and at such velocity aswill injure the surface finish of the concrete. Pumping or other
necessary dewatering operations for removing ground water, if required, will be subject to
. the review of the Engineer.
T. Corrosion Protection
1. Pipe, conduit, dowels, .and other ferrous items required to be embedded in concrete
construction shall be so positioned and supported prior to placement of concrete that
there will be a 'minimum of 2 inches clearance between said items and any part of the
concrete reinforcement. Securing such items in position by wiring orwelding them to
the reinforcement will not be permitted.
2. Openings for pipes, inserts for pipe hangers and brackets, and the setting of anchors
shall, where practicable, be provided for during the placing of concrete.
3. Anchor bolts shall be accurately set, and shall be maintained in position by templates
while being embedded in concrete.
4. The surfaces of all metalwork to be in contact with concrete shall be thoroughly
cleaned of ail dirt, grease, loose scale and rust, grout, mortar, and other foreign
substances immediately before the concrete is placed.
U. The Temperature of concrete when it is being placed shall not be more than 90 degrees
Fahrenheit Concrete ingredients shall not be heated to a temperature higher than
necessary to keep the temperature of the mixed concrete, as placed, from falling below the
specified minimum temperature. If concrete is placed when the weather is such that the
term perature of the concrete would exceed 90 degrees Fahrenheit, the Contractor shall
e'mploy effective means, such as precooling of aggregates and mixing water using ice or'
placing at night, as necessary to maintain the temperature of the concrete, as it is placed,
below 90 degrees Fahrenheit. The Contractor shall be entitled to no additional
compensation on account of the foregoing requirements. During summer months, concrete'
pours shall be scheduled in the morning or early part of the day when temperatures are
cooler.
3.05 CONCRETE FINISHES
A. Concrete Finishes are specified in Section 03350.
3.06 CONCRETE CURING
A. Concrete Curing is specified in Section 03370.
3.07 '. CONSTRUCTION JOINTS
A. Materials and procedures shall comply with requirements of Section 03290 - Joints in
Concrete.
003300 Cast-in-Place Concrete.doc:01-15~10'
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03300-17
NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
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3.08 ". FLOOR SLABS ON GROUND.
A. Tbesubgrade for slabs on ground shall be well drained and of adequate and uniform
load bearing nature.' The in-place density of the subgrade soils shall be at least the
minimum required by the specifications.
B. The subgrade shall be moist at the time of concreting. If necessary, it shall be dampened
with water in advance of concreting, but there shall be no free water standing on the
subgrade nor any muddy or soft spots when the concrete is placed.
C. Where called for on the Drawings install a vapor barrier in accordance with section entitled
"Vapor Barriers", under entire slab prior to placing any reinforcing steel. Use the greatest
widths and lengths practicable so as to eliminate joints wherever possible. Where joints
are necessary, lap not less than 12 inches and seal with approved adhesive.
D. Provide control joints in slabs-on-grade at locations indicated on the drawings. The dry cut
saw shall be used immediately after final finishing and to a depth of 1-1/4 inch. a
conventional saw shall be used as soon as possible without dislodging aggregate and to a
depth of 1/4 slab thickness.
E. Floor slabs shall be screeded level or pitched to drain as indicated on the Drawings.
3.09 PLACING CONCRETE UNDER PRESSURE'(PUMPING)
A. Where concrete is conveyed and placed by mechanically applied pressure, the equipment
shall have the capacity for the operation. The operation of the pump shall be such that a
continuous stream of concrete without air pockets is produced. To obtain the least line
resistance, the layout of the pipeline system shall contain a minimum numberof bends with
no change in pipe size. If two sizes of pipe must be used, the smaller diameter should be
used at the pump end and the larger at the discharge end. When pumping is completed,
the concrete remaining in the pipelines, if it is to be used, shall be ejectedin such a manner
that there will be no contamination of the concrete or separation of the ingredients.
B. No aluminum parts shall be in contact with the concrete during the entire placing of
concrete under pressure at any time.
C. Prior to placing concrete under pressure, the Contractor shall submit the concrete mix
design together with test results from a recognized testing laboratory proving the proposed
mix meets all requirements. In addition, atthe Contractor's Option, an actual pumping test
under field conditions may be performed prior to use of the accepted mix. This test
requires a duplication of anticipated site conditions from beginning to end. The batching
and truck mixing shall be the same as will be used; the same pump and operator shall be
present and the pipe and pipe layouts will reflect the maximum height and distance
contemplated.
D. If the pumped concrete does not produce satisfactory end results, the Contractor shall
discontinue the Pumping operation and proceed with the placing of concrete using
conventional methods.
EThe pumping equipment must have two cylinders and be designed to operate with one
cylinder only in case the other one is not functioning. In lieu of this requirement; the
Contractor may have a standby pump on the site during pumping.
-OQ330Q,Cast-in-Place Concrete.doc:01-15-1 0 -
January 201 0
03300-18
NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-iN-PLACE CONCRETE
F. The minimum diameter of the hose (conduits) shall be four inches.
G_ Pumping equipment and hoses (conduits) that are not functioning properly shall be
replaced.
3.09 . ORDER OF PLACING CONCRETE
A. In order to minimize the effects of shrinkage; the concrete shall be placed in units as
bounded by construction joints shown on the Drawings and maximum lengths as indicated
on Drawings. The placing of units shall be done by placing alternate units in a manner
such that each unit placed shall be have cured at least seven days before the contiguous
unit or units are placed, except that the corner sections of vertical walls shall not be placed
until the two adjacent wall panels have cured at least 14 days.
B. The surface of the concrete shall be level whenever a run of concrete is stopped.
3.10 DEFECTIVE CONCRETE
A. As soon as forms are removed, all exposed surfaces shall be carefully examined and any
irregularities shall be immediately rubbed or ground in a satisfactory manner in order to
secure a smooth, uniform, and continuous surface. Plastering or coating of surfaces to be
smoothed will not be permitted. No repairs shall be made until reviewed by the Engineer.
In no case will extensive patching of hon(lycombed concrete be permitted. Concrete
containing minor voids, holes, honeycombing, or similar depression defects shall have them
repaired as specified herein. Concrete containing extensive voids, holes, honeycombing,
or similar depression defects, shall be completely removed and replaced. All repairs and
replacements herein specified shall be promptly executed by the Contractor at its own
expense.
B. Defective surfaces determined by the Engineer to be repairable, shall be cut back from
trueline a minimum depth of 1/2-inch over the entire area. Feathered edges will not be
permitted. Where chipping or cutting tools are not required in order to deepen the area
properly, the surface shall be prepared for bonding by the removal of alllaitance or soft
material, and not less than 1/32-inch depth of the surface film from all hard portions. The
material used for repair proposed shall consist of a mixture of one sack of cement to 3
. cubic feet of sand. For exposed walls, the cement shall contain such a proportion of Atlas
white portland cement as is required to make the color of the patch match the color of the
surrounding concrete.
C. Holes left by tie-rod cones shall be repaired in an acceptable manner with dry- packed
cement grout or premixed patching material as accepted by the Engineer.
D. All repairs shall be built up and shaped in such a manner that the completed work will
conform to the requirements of Article 3.05 or 3.06, as applicable, using acceptable
methods which will not disturb the bond, cause sagging, or cause horizontal fractures.
Surfaces of said repairs shall receive the same kind and amount of curing treatment as
required for the concrete in the repaired section.
E. Prior to filling any structure with water, all cracks that may have developed shall be "vee'd"
and filled with sealant conforming to the requirements of Section entitled, "Joints in
Concrete." This repair method shall be done on the water bearing face of members. Prior
003300 Cast~in-prace Concrete.doc:01-15-10
January 2010
03300-19
NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-IN-PLACE CONCRETE
to backfilling, faces of members in contact with fill shall also have cracks repaired as .
specified herein.
3.11 CARE AND REPAIR OF CONCRETE
A. The Contractor shall protect all concrete against injury or damage from excessive heat, lack'
of moisture, overstress, or any other cause until final acceptance by the Owner. Particular.
care shall be taken to prevent the drying of concrete and to avoid roughening or otherwise
damaging the surface. Any concrete found to be damaged, or which may have been
originally defective; or which becomes defective at any time prior to the final acceptance of
. the.completed Work, or which departs from the established line or grade, or which, for any
other reason, does not conform to the requirements of the Contract Documents, shall be
satisfactorily repaired or removed and replaced with acceptable concrete at the
Contractor's expense.
.
3.12 CONCRETE SEALER
A. Contractor shall apply a sealer to the top surface of all finished concrete floor slabs and
equipment pads which are to remain unpainted and are not intended to be immersed
unless stated otherwise. Sealer shall be Sikagard 701W as manufactured by Sika
Corporation or equal.
003300 Cast-in-Place Concrete.doc:01-15-1 0
January 2010
03300-20
NCWRF COMPLIANCE ASSURANCE PROJECT
CAST-iN-PLACE CONCRETE
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SECTION 03315
GROUT
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish all materials for grout in accordance with the provisions ofthis
Section and shall form, mix place, cure, repair, finish, and do all other Work as required to
produce finished grout, all in accordance with the requirements ofthe Contract Documents.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 01330 - Submittals
B. Section 03300 - Cast-in-Place Concrete
1.03 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Specifications, codes, and standards shall be as specified in Section 03300 "Cast-in-Place
Concrete," and as referred to herein.
B. Additional Commercial Standards: CRD-C 621 - Corps of Engineers Specification for
Nonshrink Grout.
1.04 SUBMITTALS
A. The Contractor shall submit certified test results verifying the compressive strength,
shrinkage, and expansion requirements specified herein; and manufacturer's literature
containing instructions and recommendations on the mixing, handling, placement and
appropriate uses for each type of grout used in the work.
PART 2 -- PRODUCTS
2.01 PREPACKAGED NON-SHRINK CEMENTITIOUS GROUT
A. Nonshrink grout shall be a prepackaged, inorganic, non-gas liberating, nonmetallic,
cement-based grout requiring only the addition of water. Manufacturer's instructions shall
be printed on each bag or other container in which the materials are packaged. The
specific formulation for each class of nonshrink grout specified herein shall be that
recommended by the manufacturer for the particular application.
B. Nonshrink grouts shall have a minimum 28 day compressive strength of 5000 psi (ASTM
C109, restrained), shall have no shrinkage (0.0 percent) and a maximum 4.0 percent
expansion in the plastic state when tested in accordance with ASTM C 827, and shall have
no shrinkage (0.0 percent) and a maximum of 0.2 percent expansion in the hardened-state
when tested in accordance with CRD C 621.
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C.. Cement based grout shall be Five Star Grout as manufactured by Five Star Products, Inc.,
Fairfield, Connecticut, or equal.
D. Cementitious non-shrink grout shall be used at locations where there are no dynamic loads,
the grout will not come in contact with wastewater or wastewater gases, and where non -.
shrink grout is identified on the Drawings, Applications include, but are not limited to,
structural steel column base plates, gate frames and guides, and precast concrete to cast-
in-place concrete joints.
2.02 PREPACKAGED NON-SHRINK EPOXY GROUT
A. Epoxy-based non-shrink grout shall be a three component, 100 percent solids, solvent-free
system designed for maChinery grouting. Applications include, but are not limited to,
anchoring, pump and motor bases, and any other equipment imparting dynamic loads to
the support system.
B. When non-shrink grout is identified on the Drawings in submerged (water or wastewater) or
under wastewater gas environment, epoxy-based non-shrink grouts shall be used,
C. The epoxy grout shall be delivered to site as prepackaged, three-component systems
composing of the resin, hardener, and specially blended aggregates. The components
shall be stored as recommended by the manufacturer until use.
D. Non-shrink epoxy grout shall be Five Star DP Epoxy Grout by Five Star Products, Inc.,
Fairfield, Connecticut, or equal.
2.03 CEMENT GROUT
A. Cement grout for fills in the bottom of structures shall conform to the requirements specified
herein for Class B concrete, except the coarse aggregate shall have 100 percent passing
the 1/2 inch sieve and 85 percent passing the 3/8 inch sieves. The grout shall be placed
within the tolerances shown on the Drawings. .
2.04 DOWEL I ANCHOR BOLT ADHESIVE SYSTEM
A. When rebar or anchor bolts are specified to be drilled in and grouted on the Drawings, an
adhesive system specified in Section 03200 shall be used for dowels and an adhesive
. system specified in Section 05050 shall be used for anchor bolts.
2.05 CURING MATERIALS
A. Curing materials for prepackaged grout shall be as recommended by the manufacturer,
Cement grouts shall be c'ured with water for a minimum of seven days.
2.06 CONSISTENCY
A. The consistency of grouts shall be that necessary to completely fill the space to be grouted
for the particular application. Dry pack consistency is such that the grout is plastic and
moldable but will not flow. Where "dry pack" is called for in the Contract Documents, it shall
mean a grout of the above described consistency; the type of grout to be used shall be as .
specified herein for the particular application.
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2.07 . . MEASUREMENT OF INGREDIENTS
A. Prepackaged grouts shall have ingredients measured by means recommended by the
manufacturer. .
PART 3 c. EXECUTION.
3.01 GENERAL
A. All mixing, surface preparation, handling, placing, consolidation, and other means of
execution for prepackaged grouts shall be done according to the instructions and
recommendations of the manufacturer.
B. Cementitious grouts may be dry packed, poured in, vibrated or pumped into place as
recommended by the manufacturer. Epoxy grouts shall only be poured in.
C. Forms shall be used to place epoxy grout. Surfaces to be in contact with epoxy grout shall
be prepared in accordance with the manufacturer's instructions. Steel plates in contact with
grout shall receivE) a commercial blast to SSPC-SP6.
D. Aggregate content of the epoxy grout shall not be altered without the concurrence of the
manufacturer and the Engineer.
3.02 CONSOLIDATION
A. Grout shall be placed in such a manner, for the consistency necessary for each application,
so as to assure that the space to be grouted is completely filled.
END OF SECTION
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SECTION 03350 .
CONCRETE FINISHES
. .
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. Fumish all materials, labor, and equipment required to provide finishes of all concrete
surfaces specified herein and shown on the Drawings.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of the other requirements of the specifications, all work herein
shall conform to the applicable requirements of the following documents. All referenced
specifications, codes, and standards refer to the most current i$sue available at the time of
. Bid.
1. ACI 301 -Specifications for Structural Concrete for Buildings'
2. ACI 318 - BUilding Code Requirements for Reinforced Concrete
1.03 SUBMITTALS
A. Submit the following in accordance with Section 01330 - Submittals.
1. Manufacturer's literature on all products specified herein.
PART 2 -- PRODUCTS
2.01 CONCRETE FLOOR SEALER
A. Floor sealer is specified in Section 03300 - Cast-In-Place Concrete
PART 3 -- EXECUTION
3.01 FINISHES ON FORMED CONCRETE SURFACES
A. After removal of forms, the finishes described below shall be applied in accordance with
Article 3.05 - Concrete Finish Schedule. Unles$ the finish schedule specifies otherwise, all
surfaces shall receive at least a Type I finish. The Engineer shall be the sole judge of
acceptability of all concrete finish work.
1. . :Iype 1- Rouqh: All fins, burrs and other projections left by the forms shall be removed.
All holes left by removal of ends ofties, and all other holes, depressions, or voids shall
be filled solid with cement grout after first being thoroughly wetted. Honeycombs shall
be chipped back to solid concrete as directed, prior to patching with cement grout
Holes shall be filled with a small tool that will permit packing the hole solidly with
cement grout Cement grout shall consist of one part cement to three parts sand, and
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the amount of mixing water shall be as little as consistent with the requirements of
handling and placing. Color of cement grout shall match the adjacent wall surface~
2. IYPe II - Grout Cleaned: Where this finish is required, it shall be applied after
completion of Type I finish. After the concrete has been predampened, a slurry
consisting of one part cement (including an appropriate quantity of white cement in
order to produce a color matching the surrounding concrete) and 1-1/2 parts sand
passing the No. 16 sieve, by damp loose volume, shall be spread overthe surface with
clean burlap pads or sponge rubber floats. Any surplus shall be removed by scraping
and then rubbing with clean burlap. The finish shall be kept damp for at least 36 hours
after application.
3. IYpe III - Smooth Rubbed: Where this finish is required, it shall be applied after the
completion of the Type I finish. No rubbing shall be done before the concrete is
thoroughly hardened and the mortar used for patching is firmly set. A smooth, uniform
surface shall be obtained by wetting the surface and rubbing it with a carborundum
stone to eliminate irregularities. Unless the nature of the irregularities require it, the
general surface of the concrete shall not be cut into. Corners and edges shall be
slightly rounded by the use of the carborundum stone. Brush finishing or painting with
grout or neat cement will not be permitted.
3.02 SLAB AND FLOOR FINISHES
A. The finishes described below shall be applied to floors, slabs, flow channels and top of
walls in accordance with Article 3.05 - Concrete Finish Schedule. The Engineer shall be
the sole judge of acceptability of all such finish work.
1. IYPe "A" - Screeded: This finish shall be obtained by placing screeds at frequent
intervals and striking off to the surface elevation required. When a Type "F" finish is
subsequently to be applied, the surface of the screeded concrete shall be roughened
with a stiff brush or rake prior to final set.
2. IYPe "B" - Wood Floated: This finish shall be obtained after completion of a Type "A"
finish by working a previously screeded surface with a wood float until the desired
texture is reached. Floating shall beginwhen the water sheen has disappeared and
when the concrete has sufficiently hardened so that a person's foot leaves only a slight
imprint. If wet spots occur, water shall be removed with a squeegee. Care shall be
taken to prevent the formation of laitance and excess water on the finished surface.
The finished surface shall be true, even, and free from blemishes and other
irregularities.
3. Jype "C" - Cork Floated: This finish shall be similar to Type "B" but slightly smoother
than that obtained with a wood float. It shall be obtained by power or band floating
with cork floats.
4. Jype "0" - Steel Troweled: This finish shall be obtained after completion of a Type "B"
finish. When the concrete has hardened sufficiently to prevent excess fine material
from working to the surface, the surface shall be compacted and smoothed with not
less than two thorough and complete steel troweling operations. In areas which are to
receive a floor covering such as tile, resilient flooring, or carpeting, only one troweling
operation is required. The finish shall be brought to a smooth, dense surface, free
from defects and blemishes.
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5-. JYpe"E" - Broom or.Belt: This finish shall provide thesurface with a transverse scored
texture by drawing a broom or burlap belt across the surface immediately after
completion of a Type "B" finish.
- . . , -
6. . TYPe "F" - Swept in Grout TOl1ping: This finish shall be applied after a completion of a
Type "A" finish: The concrete surface shall be properly cleaned, washed, and coated.
with a mixture of water and Portland Cement. Cement grout in accordance with
Section 03315 shall then be plowed and swept into neat conformance with the blades
or arms of the apparatus by turning or rotating the previously positioned mechanical
equipment. Special attention shall be paid to true grades, shapes and tolerances as
specified by the manufacturer of the equipment. Before beginning this finish, the
Contractor shall notify the Engineer and the equipment manufacturer of the details of
the operation and obtain approval and recommendations.
7. TYPe "G" - Hardened Finish: Either a liquid hardened finish or an aggregate hardened
finish shall be provided at the Contractor's option.
a. Liquid hardened finish shall be proVided by application of a liquid floor '.
hardener. Floors to receive this finish shall have previously received a Type
"0" finish. Liquid hardener shall be applied between 30 to 60 days after
concrete placement. Surface to be treated shall be dry, clean and free of all
loose dust, dirt, oil, wax, sealers and curing compounds. Application
procedure shall be in accordance with manufacturer's instructions and shall
consist of a three-coat treatment.
.b. Aggregate hardened finish shall be provided by applying an aggregate floor
hardener concurrently with the application of a Type "0" finish. Application
procedure shall be in accordance with manufacturer's instructions.
8. :Iype "H" - Non-Slip Finish: This finish shall be provided by applying a non-slip shake-
on aggregate concurrently with the application of a Type "0" finish. Application
procedure shall be in accordance with manufacturer's instructions.
9. TYPe "J" - Raked Finish: This finish shall be provided by raking the surface as soon as
the condition of the concrete permits by making depressions of +1-1/4 inch.
3.03. SEALING OF CONCRETE FLOOR
A. After installation of all equipment and plprng, and after completion of other related
construction activities, all floor slabs which are to remain un painted and not intended to be
immersed shall be sealed with a floor sealer unless stated otherwise. Remove all dirt,
droppage, oil, grease, asphalt or other foreign matter with caustics and detergents as
required prior to application. Sealer shall be applied in accordance with the manufacturer's
recommendations.
3.04 FINISHES ON EQUIPMENT PADS
A. Formed surfaces of equipment pads shall receive a Type I finish.
B. Top surfaces of equipment pads, except those surfaces subsequently required to receive
non-shrink grout and support equipment bases, shall receive a Type "0" finish, unless
otherwise noted. Surfaces which will later receive non-shrink grout shall, before the
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. concrete takes its final set, be made rough by.removing the sand and cement that
accumulates' on the top to the extent that the aggregate will be exposed with irregular
indentations in the surface up to 1/2 inch deep.
3.05 CONCRETE FINISH SCHEDULE
Item
lnner'face of walls of tanks, flow channels, wet wells, perimeter walls,
and miscellaneous concrete structures:
Type of Finish
From 3 feet below water surface to bottom of wail
1*
From top of wall to 3 feet below water surface
11*
,
Exterior concrete walls below grade I
Exterior exposed concrete walls and columns (including top of wall) to II
one foot below grade. All other exposed concrete surfaces not
specified elsewhere
All interior exposed concrete vertical surfaces in buildings III
Interior exposed ceiling, including beams III
Floors of process equipment tanks or basins, and slabs to receive B
roofing material or waterproof membranes
All interior finish floors of buildings and structures and walking surfaces C
which will be continuously or intermittently wet
All interior finish floors of buildings and structures which are not 0
continuously or intermittently wet
Floors to receive tile, resilient flooring, or carpeting 0 .
Concrete in flow channels 0
Exterior concrete sidewalks, steps, ramps and landings E
Floors of process equipment tanks indicated on Drawings to receive F
grout topping
Garage and storage area floors G
Precast concrete form panels, hollow core planks, double tees J
*Finish shall be acceptable to the coating applicator and manufacturer. See Section
09850.
END OF SECTION
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.
SECTION 03370 .
CONCRETE CURING
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall protect all freshly deposited concrete from premature drying and
excessively hot or cold temperatures, and maintain with minimal moisture loss at a relatively
constant temperature for the period of time necessary for the hydration of the cement and
proper hardening of the concrete in accordance with requirements specified herein.
1.02 SUBMITTALS
A. In accordance with the procedures and requirements set forth in the Section entitled
"Submittals", the contractor shall submit the following:
1. Request for acceptance along with procedures for protection of concrete under wet
weather placement conditions.
2. Requestfor placement along with proposed procedures for hot weather placement.
3. Request for acceptance along with procedures for protection and curing of concrete
during normal conditions.
4. Request for acceptance and proposed materials and procedures for moisture
preservation.
5. Proposed method of measuring concrete surface temperature changes. .
6. Manufacturer's literature and material certification for proposed curing compounds.
1.03 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of other requirements of these specifications all work
hereunder shall conform to the applicable requirements of the referenced portions of the
following documents, to the extent that the requirements therein are not in conflict with the
provisions of this Section.
1. Specifications for Structural Concrete for buildings, ACI 301.
2. Guide for Measuring, Mixing, Transporting, and Placing Concrete, ACI 304.
3. Hot Weather Concreting, ACI 305.
4. Cold Weather Concreting, ACI 306.
5. Standard Practice for Concrete Curing, ACI 308.
6. . Specifications for Sheet Materials for Curing Concrete, ASTM C171.
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7. Specification for Liquid Membrane- Forming Compounds for Curing Concrete, ASTM
C309.
8. Federal Specification TT-C-800.
1.04 QUALITY ASSURANCE
A. Curing compound shall not be used on any surface where concrete or other material will be
bonded unless the manufacturer certifies that the curing compound will not prevent bond or
indicates measures to be taken to completely remove the curing compound from areas to
receive bonded applications, and specifically approved by the Engineer.
B. Care shall be taken to ensure that curing compounds are compatible with all finish concrete
castings.
PART 2 -- PRODUCTS
2.01 CURING COMPOUNDS
A. All materials shall meet the ASTM specifications C309, Type 1-0, Class B or Federal
Specification TT-C-800 and shall have a minimum solids contentof30 percent. The curing
compound shall contain a fugitive dye so that areas of application are readily
distinguishable.
2.02 EVAPORATION REDUCER
A. Evaporation reducer shall be Master Builders "Confilm" or Euclid Chemical "Euco-Bar", or
approved equal.
2.03 BURLAP MATS
A. Burlap mats shall conform to ASTM M-182.
PART 3 -- EXECUTION
3.01 PROTECTION AND CURING
A. All concrete work shall be protected from the elements, flowing water and from defacement
of any nature during construction operations.
B. Immediately after placement, protect concrete from premature drying, excessively hot or
cold temperatures, and mechanical injury. Protect concrete during the curing period such
that the concrete temperature does not fall below the requirements of Section 3.02 -
Concrete Temperature. Cure concrete in accordance with paragraph E or paragraph F.
C. When concrete is placed in cold weather as defined in ACI 306, the concrete shall be
protected in accordance with requirements of ACI 306, Cold Weather Concreting.
D. When concrete is placed in hot weather as defined in ACI 305, the concrete shall be
protected in accordance with the requirements of ACI 305, Hot Weather Concreting.
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E. After placing and. finishing, use one or more of the following methods to preserve moisture
in concrete:
1. Ponding or continuous fogging or sprinkling.
2. Application of mats or fabric kept continuously wet.
3. Continuous application of steam (under 150 degrees Fahrenheit).
4. Application of sheet materials conforming to ASTM C171.
5. If approved by the Engineer, application of a curing compound conforming to ASTM
C309 or Federal Specification TTcC-800. Apply the compound in accordance with the.
manufacturer's recommendation on after water sheen has disappeared from the
concrete surface and after finishing operations. The rate of application shall not
exceed 200 square feet per gallon. For rough surfaces, apply in two directions at right
angles to each other.
F. Keep absorbent forms wet until they are removed. After form removal, cure concrete by
one of the methods in paragraph E. Frames may be "cracked" within twenty-four hours and
kept moist until they are required to be kept in place per Section 03100.
3.02 CONCRETE TEMPERATURE
A. When the average of the highest and lowest temperature during the period from midnightto
midnight is expected to drop below 40 F for more than three successive days, concrete
shall be delivered to meetthe following minimum temperature immediately after placement
1. 55 degrees Fahrenheit for sections less than 12 in. in the least dimension
2. 50 degrees Fahrenheit for sections 12 in. to 36 in. in the least dimension
3. 45 degrees Fahrenheit for sections 36 in. to 72 in. in the least dimension
4. 40 degrees Fahrenheit for sections greater than 72 in. in the least dimension
B. The temperature of concrete as placed shall not exceed these values by more than 20
degrees Fahrenheit.
C. These minimum requirements may be terminated when temperatures above 50 degrees .'
Fahrenheit occur during more than half of any 24 hour duration.
D. Unless otherwise specified or permitted, the temperature of concrete as delivered shall not
exceed 90 degrees Fahrenheit.
E. During and following curing, do not allow the surface of the concrete to change temperature'
more than the following:
1. 50 degrees Fahrenheit in any 24-hr period for sections less than 12 in. in the least
dimension
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""_""_.~_'_"""_..'>~.'__~_ _ .... """_'~__"_W_""'~_~'''_ 'C...
,--~--
..
2. . .40 degrees Fahrenheit for sections from 12, to 36 in. in the least dirnension
3. 30 degrees Fahrenheit for sections 36 to 72 in. in the least dimension
.
4. 20 degrees Fahrenheit for sections greater than 72 in. in the least dimension
3.03 CURING PERIOD
A. Cure for at least the first seven days after placement for all concrete except high early
strength concrete, for which the period shaH be at leasfthe first three days after placement.
1. Alternatively, moisture retention measures may be terminated when:
a. Tests are made on at least two additional cylinders kept adjacent to the
structure and cured by the same methods as the structure and tests indicate
70 percent of the specified compressive strength, fc, as determined in
accordance with ASTM C39.
b. The temperature of the concrete is maintained at 50 degrees Fahrenheit or
higher for the time required to achieve 85 percent of fc in laboratory-cured
cylinders representative of the concrete in place.
c. The strength of concrete reaches fc as determined by accepted
nondestructive methods or laboratory-cured cylinder test results.
B. When one of the curing procedures in Paragraph 3.01-E is used initially, the curing
procedure may be replaced by one of the other procedures when concrete is one day old,
provided concrete is not permitted to become surface dry at any time.
END OF SECTION
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.'. .-
SECTION 03400
PRECAST CONCRETE, GENERAL
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall construct all precast items as required in the Contract Documents,
inclUding all appurtenances necessary to make a complete installation.
1.02' REFERENCED SPECIFICATIONS, CODES, AND STANDARDS
A. Codes:' Without limiting the generality of other requirements of these Specifications, all
Work specified herein shall conform to or exceed the requirements of the Building Code
and the applicable requirements of the following documents to the extent that the provisions
of such documents are not in conflict with the requirements of this Section.
B. Commercial Standards:
ASTM A 48
ASTM A 615
Specifications for Gray Iron Castings.
Specification for Deformed and Plain Billet-Steel Bars for
Concrete Reinforcement.
Specification for Precast Reinforced Concrete Manhole
Sections.
Building Code Requirements for Reinforced Concrete.
ASTM C 478
ACI318
1.03 SUBMITTALS
A. The Contractor shall submit the following for review in accordance with Section 01330
entitled "Submittals".
1. Shop drawings for all precast concrete items showing all dimensions, locations,
and type of lifting inserts, and details of reinforcement and joints.
2. A list of the design criteria used by the manufacturer for all manufactured,
precast items.
,
3. Design calculations, showing at least the design loads and stresses on the item,
shall be submitted. Calculations shall be signed and sealed by a Professional
Engineer registered in the State of Florida.
4. Certified reports for all lifting inserts, indicating allowable design loads.
5. Information on lifting and erection procedures.
,
1.04 QUALITY ASSURANCE
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_ ._. m"_~.._.~'_,~,_".__,_,~_,_,_, __
A.. All manufactured precast concrete units shall be produced by an. experienced
manufacturer regularly engaged in the production of such items. All manufactured.
precast concrete and site-cast units shall be free of defects, checks, and cracks. Care
shall be taken in the mixing of materials, casting, curing and Shipping to avoid any of
the above. The Engineer may elect to examine the units at the casting yard or upon
arrival of the same at the site. The Engineer shall have the option of rejecting any or
all of the precast work If it does not meet with the requirements specified herein or on
the Drawings. All rejected work shall be replaced at no additional cost to the Owner.
B. Manufacturer qualifications:
The precast concrete manufacturing plant shall be certified by the Prestressed Concrete
Institute, Plant Certification Program, prior to the start of production. Certification is only
required for plants providing prestressed structural members such as hollow core
planks, double T members, etc.
In lieu of such certification, the manufacturer shall, at his expense, meet the following
requirements:
1. Retain independent testing or consulting firm approved by the ArchitecUEngineer
and/or Owner.
2. The basis of inspection shall be the Prestressed Concrete Institute Manual for
Quality Control for Plants and Production of Precast and Prestressed Concrete
Products, MNL-116.
3. This firm shall inspect the precast plant at two-week Intervais during production
and issue a report, certified by a registered Engineer verifying that materials,
methods, products and quality control meet all the requirements of the
specifications, drawings, and MNL-116. If the report indicates to the contrary,
the Engineer, at the precaster's expense, will inspect and may reject any or all
products produced during the period of non-compliance with the above
requirements.
C. Plant production and Engineering must be under direct supervision and control of an
Engineer who possesses a minimum of five (5) years experience in precast concrete
work.
PART 2 -- PRODUCTS
2.01 CONCRETE
A. Concrete materials including portland cement, aggregates, water, and admixtures shall
conform to Section 03300 entitled "Cast-In-Place Concrete".
B. For prestressed concrete Items, minimum compressive strength of concrete at 28 days
shall be 5,000 psi unless otherwise specified. Minimum compressive strength of
concrete at transfer of prestressing force shall be 3,500 psi.
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C. . For non-prestressed concrete items. minimum compressive strength of concrete at 28
days shall be 4,000 psi unless otherwise specified.
2.02 GROUT
A. Grout for joints between panels shall be a non-shrink, non-metallic grout In
conforman.ce with Section 03315 entitled "Grout".
B. Minimum compressive strength of grout at 7 days shall be 3,000 psi.
2.03 REINFORCING STEEL
A. Reinforcing steel used for precast concrete construction shall conform to Section 03200
entitled "Concrete Reinforcement'.
2.04 PRESTRESSING STRANDS
A. Prestressing strands shall be 7-wire, stress-relieved, high-strength strands Grade 250K
or 270K.
2.05 STEEL INSERTS
A. Steel inserts shall be in accordance with Section 05500 entitled "Metal Fabrications".
B. All steel inserts protruding from or occurring at the surface of precast units shall be
Type 316 stainless steel.
2.06 WELDING
A. Welding shall conform to Section 05500 entitled "Metal Fabrications".
PART 3 -- EXECUTION
3.01 FABRICATION AND CASTING
A. All precast members shall be fabricated and cast to the shapes, dimensions and
lengths shown on the Drawings and in compliance with PCI MNL-116. Precast
members shall be straight, true and free from dimensional distortions, except for
camber and tolerances permitted later in this clause. All integral appurtenances,
reinforcing, openings, etc., shall be accurately located and secured in position with the
form work system. Form materials shall be steel and the systems free form leakage
during the casting operation.
B. All cover of reinforcing shall be the same as detailed on the Drawings.
C. Because of the critical nature of the bond development length in prestressed concrete
panel construction, if the transfer of stress is by burning of the fully tensioned strands
at the ends of the member, each strand shall first be burned at the ends of the bed
and thEm at each end of each member before proceeding to the next strand in the
burning pattern.
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-"...,_._.."~-,,,,^ -., --~-'-
.. . ~ ,...-.-....,.... -'.-...
. ._~.____..o___.___~_~..
D. The. Contractor shall coordinate the communication of all necessary information
concerning openings, sleeves, or inserts to the manufacturer of the precast members,
E, Concrete shall be finished in accordance with Section 03350 entitled "Concrete'
Finishes". All recesses due to cut tendons shall be grouted,
F. Curing of precast members shall be in accordance with Section: 03370 entitled
"Concrete Curing".
G. The manufacturer shall provide lifting inserts.
3,02 HANDLING, TRANSPORTING AND STORING
A, Precast members shall not be transported away from the casting yard until the concrete
has reached the minimum required 28 day compressive strength and a period of at
least five (5) days has elapsed since casting, unless otherwise permitted by the
Engineer.
B. No precast member shall be transported from the plant to the job site prior to approval
of that member by the plant inspector. This approval will be stamped on the member
by the plant inspector.
C. During handling, transporting, and storing, precast concrete members shall be lifted and
supported only at the lifting or supporting points as indicated on the shop drawings,
D. All precast members shall be stored on solid, unyielding, storage blocks in a manner to
prevent torsion, objectionable bending, and contact with the ground,
E. Precast concrete members shall not be used as storage areas for other materials or
equipment.
F. Precast members damaged while being handled or transported will be rejected or shall
be repaired in a manner approved by the Engineer.
3.03 ERECTION
A. Erection shall be carried out by the manufacturer or under his supervision using labor,
equipment, tools and materials required for proper execution of the work.
B. Contractor shall prepare all bearing surfaces to a true and level line prior to erection, All
supports of the precast members shall be accurately located and of required size and
bearing materials.
C. Installation of the precast members shall be made by leveling the top surface of the
assembled units keeping the units tight and at right angles to the bearing surface.
D. Connections which require welding shall be properly made in accordance with Section
05050 entitled "Metal Fastening".
E. Grouting between adjacent precast members and along the edges of the assembled'
precast members shall be accomplished as indicated on the drawings, care being
0:03400 Precast Concrete GeneraLdbc:01-15-10
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03400-4
NCWRF COMPLIANCE ASSURANCE PROJECT
PRECAST CONCRETE, GENERAL
taken to solidly pack such spaces and to prevent leakage or droppings of grout through
the assembled precast members: _ Any grout which seeps through the precast
members shall be removed before it hardens.
F. . Intlb case shall conc;entrated construction loads, or construction loads exceeding'the
design loads, be placed on the precast members. In no case shall loads be placed on
the precast members prior to the welding operations associated with erection, arid prior
to placing of topping (if required).
G. No Contractor, Subcontractor or any of his employees shall arbitrarily cut, drill, punch or
otherwise tamperwith the precast members.
,
H. Precast members damaged while being erected will be rejected or shall be repaired in a
manner approved by the Engineer.
END OF SECTION
0:03400 Precast Concrete General.doc:01-15-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
PRECAST CONCRETE, GENERAL
SECTION 03480 .
, - . .-
. PRECAST CONCRETE MANHOLES, HANDHOLES AND V AUL IS
PART 1 -. GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall construct all precast concrete items as required in the Contract
Documents, including all appurtenances necessary to make a complete installation.
1.02 QUALITY CONTROL
A. Without limiting the generality of other requirements of these specifications, all work
specified herein shall conform to or exceed the requirements of the Florida Building Code
and the applicable requirements of the following documents to the extentthatthe provisions
of such documents are not in conflict with the requirements of this section:
1. ASTM C478 Specification for Precast Reinforced Concrete Manhole Sections.
2. ACI318 Building Code Requirements for Reinforced Concrete.
3. All precast manholes shall comply with Collier County Utilities Standards Manual,
latest edition with revisions.
1.03 SUBMITTALS
A. The Contractor shall submit shop drawings for all precast concrete items. Submitted
drawings shall show all dimensions, location and type of lifting inserts, and details of
reinforcement and joints in accordance with Section 01330 entitled "Submittals",
B. For all precast items which are manufactured, the Contractor shall also submit a list of the
design criteria used by the manufacturer.
C. For all precast items which are manufactured, and which have a clear dimension, in any
direction, greater than or equal to 4 feet - 0 inches, the Contractor shall submit design
calculations showing, at least, the design loads and stresses on the item. Calculations shall
be signed and sealed by a Professional Engineer registered in the State of Florida.
D. The Contractor shall submit certified reports for all lifting inserts, showing allowable design
loads on the inserts.
PART 2 -0 PRODUCTS
2.01 MANUFACTURED ITEMS
A. Precast Concrete Manhole Sections
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03480-1 NCWRF COMPLIANCE ASSURANCE PROJECT
PRECAST CONCRETE MANHOLES, HANDHOLES AND VAULTS
. 1.. . Precast concrete sections, twenty-four inches and larger in diameter, which are used
as manhole sections, shall conform to ASTM C478 except as modified herein.
Reinforcement, if shown, shall be as shown on the Drawings. Sections shall have
rebate joints. Tapered top sections shall be supplied where they are shown on the
drawings, or where they are otherwise indicated to be necessary. The design and
manufacture of the sections shall be based on H-20 traffic loading. Reinforcement
shall conform to the requirements of the Section 03200 entitled "Concrete
Reinforcement". Minimum wall thickness shall be eight inches. Cement shall be
ASTM C150, Type II. The date and name of manufacturer shall be marked inside
each precast section,
B. Miscellaneous Precast Vaults
1, Miscellaneous precast vaults shall include, but are not limited to, electric manholes,
pull boxes and meter boxes. Vault dimensions shall be as required by the Contract
Drawings. Concrete properties shall conform to the requirements of Section 03400
entitled "Precast Concrete, General". Frames and lids of covers shall be provided by
the vault manufacturer. Covers shall have lifting handles.
2. When leveling bolts are used to set the vault top sections, the Contractor shall ensure
that the load on the vault will be transferred through the mortar to the vault, and will
not be carried by the leveling bolts.
3. Where vaults are in areas which may be subjected to vehicular traffic, they shall be
designed for H-20 traffic loading. In other areas, they shall be designed for a vertical
live load of 300 psf. Lateral loads on all vault walls shall be as follows:
a, Operating 75 x h (Ibs.) triangular equivalent fluid pressure plus surcharge of240
PSF in areas designed for vehicular traffic.
b. Where h = depth of fill
c. Piping, electrical, and other details shall be as required by the Contract
Documents.
2,02 SITE-CAST ITEMS
A. Where removable concrete slabs are required by the drawings, they shall conform to the
requirements set forth in Section 03300 entitled "Cast-in-Place Concrete." All thicknesses,
reinforcing, and edge clearances shall be as shown on the drawings.
2.03 PRE-FORMED JOINT SEALANT
A. The joint sealing compound shall preformed, cold-applied, ready to use plastic joint sealing
compound, "Ram-Neck" by K.T. Snyder Company; or equal.
2.04 MORTAR
A. Mortar used between the sections of precast concrete manhoies and vaults shall be as
recommended by the section manufacturer, subject to the requirements of Division 4.
0:4101 0-023S03480.doc07 -09-09
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03480-2 NCWRF COMPLIANCE ASSURANCE PROJECT
PRECAST CONCRETE MANHOLES, HANDHOLES AND VAULTS
'-'._~"".'-'."--'._-_.'- -.
2.05 NON-SHRINK GROUT
A. Non-shrink grout shall be as specified' In Section 03400 entitled "Precast Concrete,
General".
.
PART 3 -- EXECUTION
3,01 MANUFACTURED ITEMS
A. Precast Concrete Manhole Sections
1. Precast concrete manhole sections shall be set so as to be vertical, with sections in
true alignment. The joint of the previously set section shall be covered with mortar
and preformed joint sealant before the next section is placed. Before the mortar is
set, joints shall be pointed, and exterior joints shall be thoroughly tooled so as to be
slightly concave with a hard polished surface, free of cracks. Interior joints shall be
tooled flush in a similar manner.
B, Miscellaneous Precast Vaults
1. All pull boxes, electrical manholes, vaults, meterboxes and other miscellaneous
precast concrete boxes shall be installed in accordance with the manufacturer's
recommendations, unless otherwise required by the drawings.
3,02 SITE CAST ITEMS
A. Where removable concrete slabs are required by the drawings, they shall be fabricated in
accordance with Section 03300 entitled "Cast-in-Place Concrete".
B. Sealant, as specified in the Section 07920 entitled "Sealants and Caulking" shall be provided
all around the panels.
END OF SECTION
0:4101 0-023S034BO .doc07 -09-09
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03480-3 NCWRF COMPLIANCE ASSURANCE PROJECT
PRECAST CONCRETE MANHOLES, HAND HOLES AND VAULTS
SECTION 05010
METAL MATERIALS
PART 1 -- GENERAL
1,01 THE REQUIREMENT
A. . Metal materials not otherwise specified shall conform to the requirements of this Section.
. 1.02 RELATED WORK SPECIFIED ELSEWHERE
. A. Materials for fasteners are included in Section 05050 entitled "Metal Fastening",
B. Requirements for specific products made from the materials specified herein are included in
other sections of the Specifications. See the section for the specific item in question,
1.03 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. ASTM A36
Standard Specification for Structural Steel
-
B. ASTM A47
Standard Specification for Malleable Iron Castings
C. ASTM A48
Standard Specification for Gray Iron Castings
D. . ASTM A53
Standard Specification for Pipe, Steel, Black and Hot-Dipped,
Zinc-Coated Welded and Seamless
E. ASTM A167
Standard Specification for Stainless and. Heat-Resisting
Chromium-Nickel Steel Plate, Sheet, and Strip
F. ASTM A276
Standard Specification for Stainless and Heat-Resisting Steel
Bars and Shapes
G. ASTM A307
Standard Specification for Carbon Steel Externally Threaded
Standard Fasteners
H. ASTM A446
Standard Specification for Steel Sheet, Zinc-Coated
(Galvanized) by the Hot-Dip Process, Structural (Physical)
quality
I. ASTM A500
Standard Specification for Cold-Formed Welded and
Seamless Carbon Steel Structural Tubing in Rounds and
Shapes
J. ASTM A501
Standard Specification for Hot-Formed Welded and
Seamless Carbon Steel Structural Tubing
0:05010 Metal Materials.doc:01-15-10
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05010-1
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL MATERIALS
-~ '~-<-/_.-~~~ .'.
K. ASTM A529
Standard Specification for Structural Steel with 42 000 psi
(290 Mpa) Minimum Yield Point (1/2 in. (12.7 mm) Maximum
Thickness)
L, ASTM A536
Standard Specification for Ductile Iron Castings
M. ASTM A570
Standard Specification for Hot-Rolled Carbon Steel Sheet
and Strip, Structural Quality
N. ASTM A572/A572M-94C
Standard Specification for High Strength Low-Alloy
Columbium-Vanadium Structural Steel Grade 50
O. ASTM A666
Standard Specification for Austenitic Stainless Steel, Sheet,
Strip, Plate, and Flat Bar for Structural Applications
P. ASTM B26
Standard Specification for Aluminum-Alloy Sand Castings
Q. ASTM B85
. Standard Specification for Aluminum-Alloy Die Castings
R. ASTM B108
Standard Specification for Aluminum-Alloy Permanent Mold
Castings .
S, ASTM B138
Standard Specification for Manganese Bronze Rod, Bar, and
Shapes
T. ASTM B209
Standard Specification for Aluminum-Alloy Sheet and Plate
U. ASTM B221
Standard Specification for Aluminum-Alloy Extruded Bars,
Rods, Wire, Shapes, and Tubes
V. ASTM B308
Standard Specification for Aiuminum-Alloy Standard
Structural Shapes, Rolled or Extruded
W. ASTM B574
Standard Specification for Nickel-Molybdenum-Chromium
Alloy Rod
X. ASTM F468
Standard Specification for Nonferrous Bolts, Hex Cap
Screws, and Studs for General Use
1.04 SUBMITTALS
A. Material certifications shall be submitted along with any shop drawings for metal products
and fabrications required by other sections of the Specifications.
1.05 QUALITY ASSURANCE
A. Owner may engage the services of a testing agency to test any metal materials for
conformance with the material requirements herein. If the material is found to be in
conformance with Specifications the cost of testing will be borne by the Owner. If the
material does not conform to the Specifications, the cost of testing shall be paid by the
Contractor and all materials not in conformance as determined by the Engineer shall be
0:05010 Metal MateriaIS.doc:01-15-10
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05010-2
NCWRF COMPLIANCE ASSURANCE PROJECT:
METAL MATERIALS
replaced by the Contractor at no additional cost to the Owner. In lieu of replacing materials
the Contractor may request further testing to determine conformance, but any such testing.
shall be. paid for by the Contractor regardless of outcome of such testing.
PART 2 -- PRODUCTS
2.01 CARBON AND LOW ALLOY STEEL
A. Material types and ASTM designations shall be as listed below:
1.
2.
3.
4.
5.
6,
7,
8,
8,
Structural W Shapes
Structural S, M, C, L Shapes
Structural HP shape
Structural Tubing
Structural Pipe
Plates and Bars
Sheet Steel
Cold-Fonmed Structural Studs and Joists (18-22
gauge)
Cold-Formed Structural Studs and Joists (12-16
gauge)
2.02 STAINLESS STEEL
A 992 (50 ksi)
A 36 (36 ksi)
A 572, Grade 50 (50 ksi)
A 500, Grade B or A 501 (42 ksi)
A 53, Type E or S, Grade B (35
ksi)
A 36 U.N.O, (36 ksi)
A 570, Grade C
A 446, Grade C
A 446 Grade D
A. All stainless steel fabrications shall be Type 316, unless otherwise noted.
B, Material types and ASTM designations are listed below:
1. Plates and Sheets
2, Structural Shapes
2,03 ALUMINUM
ASTM A 167 or A666 Grade A
ASTM A276
A, All aluminum shall be alloy 6061-T6, unless otherwise noted or specified herein.
B, Material types and ASTM designations are listed below:
1. Structural Shapes
2. Castings
3. Extruded Bars
4. Extruded Rods, Shapes and Tubes
5. Plates
6. Sheets
0:05010 Metal Materials,doc:01-15-10
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05010-3
ASTM B308
ASTM B26, B85, or B1 08
ASTM B221 - Alloy 6061
ASTM B221 - Alloy 6063
ASTM B209 - Alloy 6061
ASTM B221 - Alloy 3003 .
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL MATERIALS
C. All aluminum structural members shall conform to the requirements of Section 05140 entitled
"Structural Aluminum".
D. All aluminum shall be provided with mill finish unless otherwise noted.
E. Where bolted connections are indicated, aluminum shall be fastened with Type 316
stainless steel bolts.
F. Aluminum in contact with dissimilar materials shall be insulated with an approved dielectric.
2.04 CAST IRON
A, Material types and ASTM designations are listed below:
1. Gray
2. Malleable
3. Ductile
ASTM A48 Class 30B
ASTM A47
ASTM A536 Grade 60-40-18
2.05 BRONZE
A. Material types and ASTM designations are listed below:
1. Rods, Bars and Sheets
ASTM B138 - Alloy B Soft
2.06 HASTELLOY
A. All Hastelloy shall be Alloy C-276.
PART 3 -- EXECUTION
(NOT USED)
END OF SECTION
0:05010 Metal Malenals.doc:01-15-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
METAL MATERIALS
SECTION 05035
GALVANIZING
PART 1 -- GENERAL
1.01 THE REQUIREMENT
. -
A. Where galvanizing is called for in the Contract Documents, the galvanizing shall be
performed in accordance with the provisions of this Section unless otherwise noted.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Further requirements for galvanizing specific items may be included in other Sections ofthe
Specifications. See'section for the specific item in question.
1.03 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Without limiting the generality of the other requirements of the specifications, all work herein
shall conform to the applicable requirements of the following documents. All referenced
specifications, codes, and standards refer to the most current issue available at the time of
Bid.
1. Florida Building Code.
2,
ASTM A123
Standard Specification for Zinc (Hot-Galvanized) Coatings on
Products Fabricated from Rolled, Pressed, and Forged Steel
Shapes, Plates, Bars, and Strip
3,
ASTM A153
Standard Specification for Zinc Coating (Hot-Dip) on Iron and
Steel Hardware
4.
ASTM A386
-
Standard Specification for Zinc Coating (Hot-Dip) on
Assembled Steel Products
5.
ASTM A924
Standard Specification for General Requirements for Steel
Sheet, Metallic-Coated by the Hot-Dip Process
6.
ASTM Al80
Standard Practice of Repair of Damaged Hot-Dip Galvanized
Coatings
1.04 SUBMITTALS
A. Submit the following in accordance with Section 01330 entitled "Submittals".
1. Certification that the item(s) are galvanized in accordance with the applicable ASTM
standards specified herein, This certification may be included as part of any material
certification that may be required by other Sections of the Specifications.
0:05035 Galvanizing.doc:07-09-09
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05035-1
NCWRF COMPLIANCE ASSURANCE PROJECT
GALVANIZING
~"'>.' ",~~"-_..-.,,,,-,. - --,,=....-.'''. -,,-
,._,.._----,._,..--.~~_._..,_.,._..._._.--"-,.,.-
PART 2 -- PRODUCTS
2.01 GALVANIC COATING
A. Material composition of the galvanic coating shall be in accordance with the applicable
ASTM standards specified herein.
PART 3 -- EXECUTION
3.01 FABRICATED PRODUCTS
A. Products fabricated from rolled, pressed, and forged steel shapes, plates, bars, and strips,
1/8-inch thick and heavier which are to be galvanized shall be galvanized in accordance with
ASTM A123. Products shall be fabricated into the largest unit which is practicable to
galvanize before the galvanizing is done. Fabrication shall include all operations necessary
to complete the unit such as shearing, cutting, punching, forming, drilling, milling, bending,
and welding. Components of bolted or riveted assemblies shall be galvanized separately
before assembly. When it is necessary to straighten any sections after galvanizing, such
work shall be performed without damage to the zinc coating.
B. Components with partial surfaCe finishes shall be commercial blast cleaned prior to pickling,
3.02 HARDWARE
A. Iron and steel hardware which is to be galvanized shall be galvanized in accordance with
ASTM A153,
3,03 ASSEMBLED PRODUCTS
A. Assembled steel products which are to be galvanized shall be galvanized in accordance with
ASTM A 123 or ASTM A386.AII edges of tightly contacting surfaces shall be completely
sealed by welding before galvanizing.
3.04 SHEETS
A. iron or steel sheets which are to be galvanized shall be galvanized in accordance with
ASTM A924,
3,05 REPAIR OF GALVANIZING
A. Galvanized surfaces that are abraded or damaged at any time after the application of zinc
coating shall be repaired by thoroughly wire brushing the damaged areas and removing all
loose and cracked coating, after which the cleaned areas shall be painted with 2 coats of
zinc rich paint meeting the requirements of Federal Specification DOD-P-21 035A and shall
be thoroughly mixed prior to application. Zinc rich paint shall not be tinted, The total
thickness of the 2 coats shall not be less than 6 mils, In lieu of repairing by painting with zinc
rich paint, other methods of repairing galvanized surfaces in accordance with ASTM A7S0
may be used provided the proposed method is acceptable to the Engineer,
END OF SECTION
0:05035 Galvanizing.doc:07-09-09
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05035-2
NCWRF COMPLIANCE ASSURANCE PROJECT
GALVANIZING
SECTION 05050
METAL FASTENING
PART 1 -- GENERAL
1,01 THE REQUIREMENT
A. . The Contractor shall furnish all materials, labor, and equipment required to provide all
metal welds and fasteners not otherwise specified, in accordance with the Contract
Documents.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 05010 - Metal Materials
B, Section 05035 - Galvanizing
1.03 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Without limiting the generality of the other requirements of the specifications, all work
herein shall conform to the applicable requirements of the following documents. All
referenced specifications, codes, and standards refer to the most current issue available
at the time of Bid,
1. Florida Building Code
2.
AISC
Specification for Structural Joints Using ASTM
A325 or A490 Bolts.
3,
AISC
Code of Standard Practice
4.
AWS D1.1
Structural Welding Code - Steel
5.
AWS D1.2
Structural Welding Code - Aluminum
6.
Aluminum Association
Specifications for Aluminum Structures
7,
ASTM A572/A572M-94C
Standard Specification for High Strength Low-Alloy
Columbium-Vanadium Structural Steel Grade 50
8.
ASTM A307
Standard Specification for Carbon Steel Externally
Threaded Standard Fasteners
9,
ASTM A325
Standard Specification for High-Strength Bolts for
Structural Steel Joints
Standard Specification for Eyebolts
10.
ASTM A489
0:05050 Metal Fastening.doc:01-15-10
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05050-1
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FASTENING
11.
ASTM A490
Standard
Tempered
Joints
Specification for Quenched
Alloy Steel Bolts for Structural
and
Steel
12.
ASTM A563
Standard Specifications for Carbon and Alloy Steel
Nuts
13.
ASTM F593
Standard Specification for Stainless Steel Bolts;
Hex Cap Screws, and Studs
14.
ASTM F594
Standard Specification for Stainless Steel Nuts
15.
ASTM D1785
Standard Specification for Polyvinyl Chloride (PVC)
Plastic Pipe
16.
ASTM F467
Standard Specification for Nonferrous Nuts for
General Use
1.04 SUBMITTALS
A. Submit the following items in accordance with Section 01330 entitled "Submittals":
1. Shop Drawings providing the fastener's manufacturer and type and certification
of the fastener's material and capacity.
2. Copy of valid certification for each person who is to perform field welding.
3. Certified weld inspection reports, when required.
4. Welding procedures.
1.05 QUALITY ASSURANCE
A. Fastener.s not manufactured in the United States shall be tested and certification
provided with respect to specified quality and strength standards. Certifications of origin
shall be submitted for ail U.S. fasteners supplied on the project.
B, All steel welding shall be performed by welders certified in accordance with AWS D1.1. .
All aluminum welding shall be performed by welders certified in accordance with
AWS D1.2. Certifications of field welders shall be submitted prior to performing any field
welds.
C, Welds and high strength bolts used in connections of structural steel will be visually
inspected in accordance with Article 3,04 of this Section.
D. The Owner may engage an independent testing agency to p\3rform testing of welded
connections and to prepare test reports in accordance with AWS. Inadequate welds
shall be corrected or redone and retested to the satisfaction of the Engineer and/or an
acceptable independent testing laboratory, at no additional cost to the Owner.
0:05050 Metal Fastenlng.doc:01-15-10
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05050-2
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FASTENING
E. Provide a welding procedure for each type and. thickness of weld. For welds that are not
preqt.ialified; iricludea Performance Qualification Report. The welding procedure shall
be given to each welder performing the weld. The welding procedure shall follow the
format in Annex E of AWS D1.1 with relevant information presented.
PART 2 -- PRODUCTS
2,01 ANCHOR BOLTS
A. For all conditions throughout this Contract, all anchor bolts shall be Type 316 stainless
steel'conforming to ASTM F-593. .
B. Nuts and washers shall conform to ASTM F-594, alloy 316.
C, Equipment manufacturers, fabricators, and' suppliers shall design and furnish anchor
bolts as required to install the supplied units. The anchor bolt layout shall be coordinated
with concrete work as specified herein.
D. Drilled in type anchor bolts, either adhesive types or mechanical types shall not be used
unless approved in writing by the manufacturer/fabricator of equipment or covers,
subject to acceptance by the Engineer. All operating pieces of equipment such as
pumps, generators, motors etc. shall not be anchored with wedge anchors or other
mechanical anchors. Drilled in type anchor bolts shall be Type 316 stainless steel.
Drilled in type anchor bolts are specified under Article 2.04 of this Section entitled
"COncrete Anchors",
2.02 HIGH STRENGTH BOLTS
A. High strength bolts and associated nuts and washers shall be in accordance with ASTM
A325 or ASTM A490. Bolts, nuts and washers shall meet the requirements of AISC
"Specification for Structural Joints Using ASTM A325 or A490 Bolts".
B. Where high' strength bolts are used to connect galvanized' steel or are otherwise
specified to be galvanized, bolts, nuts, and washers shall be hot-dip galvanized in
accordance with ASTM A325.
2,03 GENt=RAL FASTENERS - STAINLESS STEEL
A. All fasteners and fastener accessories shall be Type 316 stainless steel unless noted
otherwise,
B. Stainless steel bolts shall have hexagonal heads with a raised letter or symbol on the.
boltsiridicating the manufacturer, and shall be supplied with hexagonal nuts meeting the
requirements of ASTM F594. Nuts shall be of the same alloy as the bolts.
2.04 CONCRETE ANCHORS
A. Where c.oncrete anchors are called for on the Drawings, one of the types listed below
shall be used; except, where one of the types listed below is specifically called for on the
Drawings, only that type shall be used. Unless otherwise noted, all concrete anchors.
0:05050 Metal Fastening.doc:01-15~10
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05050-3
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FASTENING
which are submerged, or which are subject to vibration from equipment such as pumps
and generators, shall be adhesive anchors. The determination of anchors equivalent to
those listed below shall be on the basis of test data performed by a commercial testing
laboratory. There are two types used:
1. Expansion anchors shall be wedge, sleeve, or drop-in mechanical anchors.
2. Adhesive anchors shall be two part injection type.
B, Expansion anchors shall be Kwik Bolt II by Hilti, Inc., or Trubolt Wedge Anchor by ITW
RamseURedhead and shall be embedded to the depths shown on the Drawings. If no
embedment depth is given, the minimum embedment depth as recommended by the
manufacturer shall be used.
C, Adhesive anchors shall consist of threaded rods or bolts anchored with an epoxy
adhesive system conforming to AC308, into hardened concrete or grout-filled masonry,
The epoxy adhesive system shall use a two-component adhesive mix and shall be
injected with a static mixing nozzle following manufacturer's instructions. The
embedment depth of the rod/bolt shall provide a minimum allowable bond strength that
is equal to the allowable tensile capacity of the rod/bolt (see Table 1) unless noted
otherwise on the Drawings. The adhesive system shall be "PE1000 SD Epoxy Injection
Adhesive Anchoring System" as manufactured by Powers Fasteners, "Set-XP" as
manufactured by Simpson Strong-Tie, "HIT RE-500 SD Injection Adhesive Anchor'
System" as manufactured by Hilti, Inc., or approved equal.
D. All concrete anchors shall be Type 316 stainless steel.
TABLE 1
Allowable Tensile Capacity (Kips)
Size A36 Threaded Rod/Bolt SST Threaded Rod/Bolt
3/8 inch 2,1 1.9
1/2 inch 3.8 3.5
5/8 inch 5.9 5.6
3/4 inch 8.4 8.2
7/8 inch 11.5 11.4
1 inch 15.0 15.0
2.05 MASONRY ANCHORS
0:05050 Metal Fastening.doc:01-1S.10
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05050.4
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FASTENING
A. Anchors for fastening to solid or grout-filled. masonry shall be adhesive anchors as
. specified above for concrete anchors.
B. Anchors for fastening to hollow masonry or brick shall be adhesive anchors consisting of
threaded rods or bolts anchored with an adhesive system dispensed into a screen tube
inserted into the masonry, The adhesive system shall use a two-component adhesive
mix and shall injected into the screen tube with a static mixing nozzle. The adhesive
system shall be "Epcon System" as manufactured by ITW RamseURedhead, "HIT HY-20
System" as mC\nufactured by Hilti, Inc, or equal.
C. All masonry anchors shall be Type 316 stainless steel.
2.06 WELDS
A. Electrodes for welding structural steel and all ferrous steel shall comply with AWS Code,
using E70 series electrodes for shielded metal arc welding (S MAW) , or F7 series
electrodes for submerged arc welding (SAW),
B. Electrodes for welding aluminum shall comply with the Aluminum Association
Specifications and AWS D1,2.
- C. Electrodes for welding stainless steel and other metals shall comply with AWS code.
2.07 WELDED STUD CONNECTORS
A. Welded stud connectors shall conform to the requirements of AWS D1.1 Type C.
2,08 EYEBOLTS
A. Eyebolts shall conform to ASTM A489 unless noted otherwise.
2.09 HASTELLOY FASTENERS
A. Hastelloy fasteners and nuts shall be constructed of Hastelloy C-276.
2.10 ANTISEIZE LUBRICANT
A. Antiseize lubricant shall be Graphite 50 Anti-Seize by Loctite Corporation, 1000 Anti-
Seize Paste by Dow Corning, 3M Lube and Anti-Seize by 3M, or equal.
PART 3 -- EXECUTION
3,01 MEASUREMENTS
A. The Contractor shall verify all dimensions and review the Drawings and shall report any
discrepancies to the Engineer for clarification prior to starting fabrication,
3.02 BOLT INSTALLATION
A. Anchor Bolts, Concrete Anchors, and Masonry Anchors
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NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FASTENING
-~'_"""~","'_"-~--"'.'--"--
... "...._.....M _.'__'_'
1. . Anchor bolts shall be installed . in accordance with AISC "Code of Standard
Practice" by setting in concrete while it is being placed and positioned by means
of a rigidly held template.
2. The Contractor shall verify that all concrete and masonry anchors have been
installed in accordance with the manufacturer's recommendations and that the
capacity of the installed anchor meets or exceeds the specified safe hoiding
capacity.
3. Concrete anchors shall not be used in place of anchor bolts without Engineer's
approval.
4. All stainless steel threads shall be coated with antiseize lubricant.
B. High Strength Bolts
1. All bolted connections for structural steel shall use high strength bolts. High
strength bolts shall be installed in accordance with AISC "Specification for
Structural Joints, using A325 or A490 Bolts." All high strength bolts installed by
the "turn-of-nut" method shall have the turned portion marked with reference to
the steel being connected after the nut has been made snug and prior to final
tightening. These marks will be considered in inspection.
2. All stainless steel bolts shall be coated with antiseize lubricant.
C. Other Bolts
1. All dissimilar metal shall be connected with appropriate fasteners and shall be
insulated with a dielectric or approved equal. Unless otherwise specified, where
aluminum and steel members are connected together they shall be fastened with
Type 316 stainless steel bolts and insulated with micarta, nylon, rubber, or equal.
3,03 WELDING
A. All welding shall comply with AWS Code for procedures, appearance, quality of welds,
qualifications of welders and methods used in correcting welded work.
B. Welded stud connectors shall be installed in accordance with AWS D1.1.
3.04 INSPECTION
A. High strength bolting will be visually inspected in accordance with AISC "Specification for
Structural Joints Using A325 or A490 Bolts." Rejected bolts shall be either replaced or
retightened as required, In cases of disputed bolt Installation, the bolts in question shall
be checked by a calibrated wrench certified by an independent testing laboratory. The
certification shall be at the Contractor'.s expense.
B. Field welds will be visually inspected in accordance with AWS Codes. Inadequate welds
shall be corrected or redone as required in accordance with AWS Codes.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FASTENING
SECTION 05500
METAL FABRICATIONS
.
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, fabricate,' and install miscellaneous metalwork and
appurtenances, complete, all in accordance with the requirements of the Contract
Documents.
1.02 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Without limiting the generality of other requirem~nts of these Specifications, all work
specified herein shall conform to or exceed the requirements Of the Florida Building Code
and the applicablerequirements of the following documents to the extentthatthe provisions
of such documents are not in conflict with the requirements of this Section:
1. American Society for Testing and Materials (ASTM), specifications as referred to
herein.
2, . American Welding Society (AWS) "Structural Welding Code-Steel" (AWS D1.1) which
includes qualification procedures for welders.
3. American Institute of Steel Construction (AISC) "Specifications for the Design,
Fabrication, and Erection of Structural Steel for Buildings" and "Commentary on the
AISC Specification." .
4. American Iron and Steel Institute (AISI) "Specifications for the Design of Cold-Formed
Steel Structural Members" and "Commentary on the AISI Specification."
5. Occupational Safety and Health Administration (OSHA) Regulations.
6. Aluminum Association "Specifications for Aluminum Structures" and "Engineering
Data for Aluminum Structures."
7, National Association of Architectural Metal Manufacturers "Metal Stairs Manual."
B, References herein to "Building Code" shall mean the Florida Building Code,
1.03 SUBMITTALS
A. . Shop drawings of all miscellaneous metalwork shall be submitted to the Engineerfor review
in accordance with the Section 01330 entitled "Submittals."
B. Safe working load capacity in tension and shear for each size and type of concrete anchor
. used shall be submitt~d to the Engineer for review.
PART 2 -- PRODUCTS
0:05500 Metal Fabrieations.doc:01:"15-1Q_
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NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FABRICATIONS
2.01 METAL MATERIALS
A. Materials are specified in Section 05010 entitled "Metal Materials".
2.02 BOLTS, CONCRETE ANCHORS AND FASTENERS
A. Bolts, concrete anchors and other fasteners are specified in Section 05050 entitled "Metal
Fastening".
PART 3 -- EXECUTION
3.01 EXAMINATION
A. Verify that field conditions are acceptable and are ready to receive work,
B. Beginning of installation means erector accepts existing conditions.
3.02 PREPARATION
A. Clean and strip primed steel items to bare metals where site welding is required.
B. Supply items required to be cast into concrete with setting templates, to appropriate
sections.
3.03 INSTALLATION
A. Install items plumb and level, accurately fitted, free from distortion or defects.
B. Allow for erection loads, and for sufficient temporary bracing to maintain true alignment until
completion of erection and installation of permanent attachments.
C. Field weld components indicated on Drawings,
D. Obtain Engineer approval prior to site cutting or making adjustments not scheduled.
E. Fabrication and Erection: Except as otherwise shown, the fabrication and erection of
structural steel shall conform to the requirements of the American Institute of Steel
Construction "Manual of Steel Construction."
3,04 WELDING
A. All welding shall be by the metal-arc method or gas-shielded arc method as described in the
American Welding Society's "Welding Handbook" as supplemented by other pertinent
standards of the AWS. Qualification of welders shall be in accordance with the AWS
Standards governing same.
B, In assembly and during welding, the component parts shall be adequately clamped,
supported and restrained to minimize distortion and for control of dimensions. Weld
reinforcement shall be as specified by the AWS Code. Upon completion of welding, all weld
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NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FABRICATIONS
splatter, flux, slag, and burrs left by attachments shall be removed. Welds shall be repaired
to produce a workmanlike appearance, with uniform weld contours and dimensions. All
sharp comers of material which is to be painted or coated shall be ground to a minimum of
1/32-inch on the flat.
END OF SECTION
- 0:05500 Metal Fabrication"s.doc:01..15-10
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05500-3
NCWRF COMPLIANCE ASSURANCE PROJECT
METAL FABRICATIONS
. SECTION 05515
LAODERS - ALUMINUM
PART 1 -- GENERAL
1.01 REQUIREMENT
A. The Contractor shall furnish all materials, labor, and equipment required to provide all
ladders in accordance with the requirements of the Contract Documents.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of the Specifications, all work specified herein shall conform to
the applicable requirements of the following documents.
1. Florida Building Code
2. Aluminum Association Specifications for Aluminum Structures
3. Occupational Safety and Health Administration (OSHA) Regulations
1.03 SUBMITTALS
A. Submit the following in accordance with Section 01330, Submittals,
1, Complete fabrication and erection drawings of all metalwork specified herein.
2, Other submittals as required in accordance with Section 05500 entitled "Metal
Fabrications".
PART 2 -- PRODUCTS
2.01 METAL MATERIALS
A. Metal materials, fasteners and welds used for ladders shall conform to Section 05500
entitled "Metal Fabrications", unless noted otherwise.
2,02 VERTICAL LADDERS
A. Ladders shall be furnished with all mounting brackets, baseplates, fasteners, and necessary
appurtenances for a complete and rigid installation.
B. All ladders shall be aluminum alloy 6061- T6 or 6063- T5 with a clear, anodized finish,
Aluminum Association M12C22A41.
C, All ladders shall conform to dimensions indicated on the Drawings and shall comply with
OSHA requirements.
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COMPLIANCE ASSURANCE PROJECT
D.. Sidl;i rails shall be 2-1/2 inch x 3/8 inch runners.
,
E. Rungs shall be solid serrated 314-inch diameter, minimum.
F. All exposed connections shall be welded and ground smooth.
G. All fixed ladders terminating below a roof, floor or wall shall be provided with Bilco Model 2
Ladder Up Safety Posts, or equal. The safety post system components shall be suitable for
service in a corrosive environment. The safety posts Shall be manufactured of high strength,
hot dip galvani:?:ed steel with telescoping tubular sections that lock automatically when fully
extended, Upward and downward movement shall be controlled by a stainless steel spring.
balancing mechanism. The safety posts shall be completely assembled with fasteners for
securing to the ladder rungs in accordance with the manufacturer's recommendations.
2.03 SAFETY CAGE
A.' For ladders exceeding fifteen feet in height, provide a safety cage in accordance with OSHA
requirements,
B. Safety cages shall be fabricated of 1/4-inch aluminum plates designed to meet OSHA
requirements.
C. An operable access door with padlock shall be provided for all safety cages:
PART 3 -- EXECUTION
,
3,01 FABRICATION
A. All measurements and dimensions shall be based on field conditions and shall be verified by
the Contractor priorto fabrication, Such verification shall include coordination with adjOining
work.
B. All fabricated work shall be shop fitted together as much as practicable, and delivered to the
field, complete and ready for erection.
C, All work shall be fabricated and installed in a manner that will provide for expansion and
contraction, prevent shearing of bolts, screws, and other fastenings, ensure rigidity, and
provide a close fit of sections.
D. Finished members shall conform to the lines, angles, and curves shown on the Drawings
and shall be free from distortions of any kind.
E. All shearings shall be neat and accurate, with parts exposed to view neatly finished, Flame
cutting is allowed only when performed utilizing a machine.
F. All shop connections Shall be welded unless otherwise indicated on the Drawings or
specified herein. All fastenings shall be concealed where practicable.
. . .
G. Fabricated items shall be shop painted when specified in accordance with Section 09850
entitled "Painting".
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3.02 INSTALLATION
A. Assembly and installation of fabricated system components shall be performed in strict
accordance with manufacturer's recommendations.
B, All ladders shall be erected square, plumb and true, accurately fitted, adequately anchored
in place, and set at proper elevations and positions.
C, Metalwork shall be field painted when specified in accordance with Section 09850 entitled
"Painting".
- END OF SECTION -
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05515-3
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COMPLIANCE ASSURANCE PROJECT
SECTION 05520
HANDRAILS ANDRAIUNGS
PART 1 ~- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, fabricate, and install handrails and railings and
appurtenances, complete, all in accordance with the requirements of the Contract
Documents. Handrails and railings for the buildings shall conform to the Architectural
Drawings. All other handrails and railings shall conform to this Section and the Structural
Drawirigs.
1.02 SUBMITTALS
A. Shop drawings of all handrails and railings shall be submitted to the Engineer for review in
accordance with Section entitled "Submittals."
1.03 QUALITY ASSURANCE
A. Single-Source Responsibility: Obtain handrails and railing systems from a single
manufacturer.
PART 2 -- PRODUCTS
2,01 ALUMINUM RAILING SYSTEM
A. General: Where indicated on the Drawings, pipe hand railing shall be provided. Pipe
handrailing shall be supplied as required by the Florida Building Code and OSHA whether
indicated on the Drawings or not.
B. Vertical pipe supports shall include cast aluminum base flange or side mount bracket with
set screws as indicated on Drawings. Removable posts shall be sleeved, The joint
between upright and sleeve shall be screwed for post removal. Cast aluminum base
flanges and side mount brackets shall be as manufactured by Thompson Fabricating
Company, Inc., Hollaender Manufacturing Company, Inc., or approved equal.
C. Wall brackets for handrails shall be of designs indicated on the Drawings and shall be as
manufactured by J.G. Braun Company, Fulton Metal Products Company, or equal.
D. All connections between vertical posts and horizontal railing or between sections of
horizontal railings shall be shop welded continuous in as long of sections as practical. All
welds shall be watertight and ground smooth. Field assembly of welded sections may be
made by field welding. Railings and posts shall be removable at locations indicated.
Location and type of field connections shall be subject to the Engineer's review. Weep
holes shall be shop drilled in all vertical posts of external railing.
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05520-1 NCWRF COMPLIANCE ASSURANCE PROJECT
HANDRAILS AND RAILINGS
E. Design Load: All components of the railings and the railing system shall be adequately .
designed to resist the design loads of the Florida Building Code. In no case shall the
spacing of vertical pipe supports exceed five feet.
F. Aluminum Railing,: Exterior aluminum pipe railings and posts shall be dimensioned as
shown on plans, aluminum alloy 6061"T6 with mill finish. Posts shall be Schedule 80
minimum, horizontal railings shall be Schedule 40 minimum. Railing posts shall be
adequately reinforced to meet the specified design loads. In no case shall the spacing of
handrail posts exceed five feet on center. Stainless steel railings may be used in lieu of
aluminum railing at the Contractor's option,
G. Kickplates: Kickplates where not specifically called for in the Drawings shall be furnished
and installed typically at the edges of all metal walkways and at other handrail installations,
Kickplates shall be 1/4-inch thick, must meet OSHA requirements, shall project 4-inches
above walkway surface, may not infringe on minimum required walkway width and material
must be the same as that of handrail construction. Kickplates shall be connected to
handrail posts as detailed on the drawings.
H. Where safety.chains are required in handrails as shown on the Drawings, chains shall be
constructed of Type 304 stainless steel. Chains shall be straight link style, 3/16-inch
diameter, with at least twelve links per foot, and with snap hooks on each end. Snap hooks
shall be boat type and eye bolts for attachment of chains shall be 318-inch bolts with 314-inch
. eye diameter welded to the railing posts. Snap hooks and eye bolts shall be Type 304
stainless steel. Two (2) chains, four inches longer than the anchorage spacing shall be
supplied for each guarded area.
2.02 FASTENERS
A. Stainless steel Type 316 fasteners shall be furnished by handrail manufacturer.'
PART 3 -- EXECUTION
3.01 EXAMINATION
A. Verify that field conditions are acceptable and are ready to receive work.
B, Beginning of installation means erector accepts existing conditions,
3.02 PREPARATION
A. . Clean and strip primed items to bare metals where site welding is required,
B. Supply items required to be cast into concrete with setting templates, to appropriate
sections.
3.03 INSTALLATION
A. Install items plumb and level, accurately fitted, free from distortion or defects.
B. Provide anchors and plates required for connecting railings to structure,
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05520.2 NCWRF COMPLIANCE ASSURANCE PROJECT
HANDRAILS AND RAILINGS
C. Aluminum RailinQ~: Aluminum railing fabrication shall be performed by craftsmen
experienced in the fabrication of arcHitectural metal work, Exposed surfaces shall be free
from defects or other surface blemishes. Dimensions and conditions shall be verified in the
field, All joints, junctions, miters and butting sections shall be precision fitted With no gaps
occurring between sections, and with all surfaces flush and aligned, Electrolysis protection
of materials shall be provided. All dissimilar materials shall be isolated,
3.04 EXPANSION BOLTS
A. Expansion bolts shall be spaced a minimum of 10d apart and 5d edge distance
(d=diameter of bolt), A safety factor of four shall be provided on expansion bolt pull out
values published by the manufacturer.
3.05 ALUMINUM SURFACES
A. Aluminum surfaces in contact with concrete, grout or dissimilar metals shall be protected
with a coat of bitumastic or other approved materials.
END OF SECTION
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05520-3 NCWRF COMPLIANCE ASSURANCE PROJECT
HANDRAILS AND RAILINGS
"~"~~_V'._~~
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~...... -,
_0,__',~__'.___"
---
SECTION 05531
GRATING, FLOOR PLATES AND ACCESS HATCHES
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, fabricate, and install gratings, floor plates, access hatches and
appurtenances, complete, all in accordance with the requirements of the Contract
Documents.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 05500 - Metal Fabrications
B. Painting and protective coating of metalwork and fabricated items shall, unless otherwise
specified herein, be performed in accordance with the requirements of Section 09850
entitled "Painting."
1,03 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Specifications, codes and standards shall be as specified in Section 05500 entitled "Metal
Fabrications" and as referred to herein.
1.04 SUBMITTALS
A. Shop drawings of all miscellaneous metalwork shall be submitted to the Engineerfor review
in accordance with Section 01330 entitled "Submittals."
B. Field measurements: Field measure prior to shop drawings and fabrications to ensure
proper work fit up,
PART 2 -- PRODUCTS
2.01 MANUFACTURERS
A. Aluminum grating shall be as manufactured by IKG BORDEN, Ohio Gratings, McNicols
Company, or equal.
2.02 MATERIALS
A. Metal materials used for gratings, floor plates, and access hatches shall conform to Section
05010 entitled "Metal Materials", unless noted otherwise.
2.03 METAL FASTENING
0;05531 Grating Floor Plates and Access Hatches_doc:Ol-15-1005531-1
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A. All welos .and fasteners used for gratings, floor plates and access hatches shall conform to
Section 05050 entitled "Metal Fastening", unless noted otherwise.
2.04 ACCESSORIES
A. Grating frame, and straps to be embedded in concrete shall be Type 316 stainless steel.
Anchors, if used, shall conform with specifications in Section entitled "Metal Fabrications",
2.05 GRATING
A. . General: Grating, including support frames, fastenings, and all necessary appurtenances for
a complete installation shall be furnished as indicated on the Drawings.
1, All exposed bearing ends of grating shall be enclosed in a perimeter band of the same
dimensions and materials as the main bars, including ends at all cutouts.
2. Grating shall be fabricated into easily removable sections and shall be fastened at
each corner and as required with fasteners provided by the grating manufacturer. No
section of grating shall weigh in excess of 50 Ibs. No fasteners shall be permitted to
project above the walking surface.
3. Gratings shall be designed for a loading of 150 psf unless a depth is required by the
Drawings, Minimum grating depth shall be 1-1/2 inches, Deflection shall not exceed
L/240 or 1/4-inch. In no case shall the depth of the grating be less than 1-1/2 inches
thick.
C. Aluminum Grating
1. Aluminum grating shall consist of extruded aluminum bearing I bars positioned and
. pressure locked by cross bars with all exposed ends of bearing bars and cutouts
banded with a bar of the same depth and thickness as the main bearing bars, Each cut
bar shall be welded to the band. Gratings shall be reversible with non-skid surfaced
bearing bars. Saddle clips, clamps and bolts used for attaching the grating to
supporting members shall be stainless steel, and as recommended by the
manufacturer.
2. Grating shall be Swage Locked "I-bar" type 19SGI4 by Ohio Gratings or equal, with
bearing bars on 1-3/16 inch centers with cross bars swage locked at right angles to it
in the same plane as the top surface of bearings at 4" on center. Surface shall have a
non skid finish.
3. Grating shall be provided with a mill finish.
4. Grating Frame: Angle frame shall be extruded design by Ohio Gratings, Thompson
Fabricating Co. or approved equal. Grating frame shall be mitered and welded flush at
corners for a finish appearance, Anchor strap shall be Type 316 stainless steel or .
aluminum 6063-T6, coated with Bitumastic as a protective barrier.
D. Aluminum Plank Grating
1, Unpunched (Solid) Grating: unpunched aluminum plank grating shall be 6" wide
extruded sections, heavy duty type with 6 ribs and plain sides, fabricated in standard
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,--_. -,,--.--.------,.,....
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sections as manufactured by Ohio Gratings, McNicols Co., Thompson Fabricating Co.,
or approved equal. All planks shall be provided with extruded grating frame cast in
concrete.
2. Grating panels shall be made from 6" wide extruded sections and banded to form
standard panel widths.
3. Loading: Pedestrian loading of 100 psf over the required clear span with a deflection
not in excess of y.". Grating thickness indicated on the drawings are minimum.
4. Finish: Mill finished.
5. Fabrication and Tolerances: NAAM Metal bar grating manual.
6. Removal Sections: Removal sections shall be edge banded in sections and provided
with stainless steel flush mounted lift handles with necessary plank reinforcing and
holdown anchors.
7. Hinged Sections: Hinged plank sections shall be shop fabricated, shipped knock-down
for field installation. Panels shall be edge banded with a continuous hinge, flush
mounted lifting handles (1 section minimum), stainless steel bolts and hardware.
Grating frame shall be provided with removable temporary braces to maintain the
required opening width during casting. Provide necessary grating reinforcing for lift
handles, hinge connections, holdown anchors, etc. Hinged plank grating shall be as
manufactured by Thompson Fabricating Co., or approved equal. General details are
as indicated on the drawings.
8. Holes for Piping and Equipment: General Contractor shall coordinate location of holes
and cut outs for piping and equipment prior to shop drawing submittal. Holes and
cutouts made in field shall be provided with reinforcing recommended by the Grating
supplier.
E. Galvanized Steel Grating
1. Galvanized Steel graling shall be custom welded heavy duty steel grating per
ANSIINAMM MBG 532-000. Minimum bearing bar size shall be 2-1/4" x 1/4", All
supports, cross members, etc. shall be galvanized steel. Plank clips for grating hold
downs shall be stainless steel. Bolts shall be galvanized steel.
2. All openings shall be banded.
2.06 FLOOR PLATES
A. Floor plates shall be aluminum alloy 6061-T6, or galvanized steel as indicated on the
Drawings, with diamond pattern. Aluminum floor plates shall be prOVided in mill finish,
except when otherwise indicated on the Drawings. Floor plates shall be designed for a live
load of 150 points per square foot of the gross projected area. The allowable deflection
under the above loadings shall be L/240 but not more than 114-inch. Minimum thickness
shall be 318-inch, unless otherwise noted on the Drawings.
B. Floor plates shall be standard pattern non-slip of the thickness and sizes on the Drawings.
Stiffener angles shall be provided as required to meet the load requirements specified
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abcive.< All checkered 'plate sections shall be cut that no one section shall weigh more than
100 pounds.
C. Plates shall be fabricated as detailed on the Drawings. Lifting hooks shall be provided for
handling purposes and shall be flush to top surface without projections.
D. At locations noted, neoprene gaskets shall be provided between floor plates and frames,
Plates shall be screwed into frames when noted on the Drawings.
E. Removable Sections: Plates shall be fabricated in removable sections with weight not
exceeding 60 pounds each with flush mounted handles and removable holdown stainless
steel bolts.
2.07 ACCESS HATCHES
A. General
1. Door opening sizes, number and direction of swing of door leaves, and locations
shall be as shown on the Drawings. . The Drawings show the clear opening
requirements.
2. All doors shall be aluminum (mill finish) unless otherwise noted.
3, Openings larger than 42 inches in either direction shall have double leaf doors.
4, Doors shall be designed for flush mounting and for easy opening from both inside
and outside,
5. All doors shall be provided with an automatic hold-open arm with release handle.
6. Double leaf doors shall be provided with Type 316 stainless steel safety chains to go
across the open sides of the door, when in the open position. Brackets shall be
provided on the underside of the doors to hold the safety bars when not in use,
7. All hardware, including but not limited to, all parts of the latch and lifting mechanism
assemblies, hold open arms. and guides, brackets, hinges, springs, pins, and
fasteners shall be Type 316 stainless steel.
8. Cylinder locks with keyway protected by a cover plug shall be provided with all
hatches.
9. Door leafs shall be 1/4-inch aluminum diamond plate, minimum, stiffened and
designed for H-20 live loads at areas that could receive traffic wheel loads,
10. Door frames shall be trough-type or angle-type as indicated on the Drawings and
equipped with a built-in neoprene cushion. On trough-type frames, the drainpipe
shall be provided by the Contractor and shall extend to the nearest point of
discharge acceptable to the Engineer.
11. Access hatches shall be model K, KD, J or JD by The Bilco Company or equal
unless indicated otherwise on the Contract Drawings.
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12. Hatches shall be guaranteed against defects for a period of five years.
PART 3 -- EXECUTION
3.01 EXAMINATION
A. Verify that opening sizes and dimensional tolerances are acceptable.
B. Verify that supports and anchors are correctly positioned.
3,02 INSTALLATION
A. Install components in accordance with manufacturer's instructions.
B. Place frames in correct position, plumb and level.
C. Set perimeter closure flush with top of grating and surrounding construction.
D. Secure to prevent movement.
- END OF SECTION -
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COMPLIANCE ASSURANCE PROJECT
SECTION 05540
CASTINGS
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish all materials, labor, and equipment required to provide all
castings in accordance with the requirements of the Contract Documents,
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Without limiting the generality of the other requirements of the specifications, all work herein
shall confonm to the applicable requirements of the following documents, All referenced
specifications, codes, and standards refer to the most current issue available at the time of
Bid.
1 . Florida Building Code
1,03 SUBMITTALS
A. Submit the following in accordance with Section 01330 entitled "Submittals".
1, Complete fabrication and erection drawings of all castings specified herein.
2. Other submittals as required in accordance with Section 05010 entitled "Metal
Materials", and Section 05050 entitled "Metal Fastening",
PART 2 -- PRODUCTS
2.01 METAL MATERIALS
A. Metal materials used for castings shall conform to Section 05010 entitled "Metal Materials",
unless noted otherwise,
2.02 METAL FASTENING
A. All welds and fasteners used for castings shall conform to Section 05050 entitled "Metal
Fastening", unless noted otherwise.
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CASTINGS
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2.03 IRON CASTINGS
A. General - Iron Castings shall include, but not be limited to frames, covers, and grates for
trench drains, catch basins, and inlets; and stop log grooves.
1. Castings shall be of gray iron of uniform quality, free from defects, smooth and well
cleaned by shotblasting.
2. Catalog numbers on the Drawings are provided only to show required types and
configuration. All covers shall be cast with raised letters as designated on the
Drawings.
3. Castings shall be as manufactured by Neenah Foundry Company, US Foundry, or
equal.
B. Covers and Grates
1. Covers and grates shall be provided with matching frames, Cover shall fit flush with
the surrounding finished surface, The cover shall not rock or rattle when loading is
applied.
2. Round covers and frames shall have machined bearing surfaces.
3. Design loadings:
a. Where located within a structure, a minimum design loading of 300 psf shall
be used, unless noted otherwise.
b. At all locations not within a structure, the design loading shall be a standard
AASHTO H-20 truck loading, unless otherwise noted.
C. Watertight gasketing, bolting, locking devices, patterns, lettering, pickholes, vents, or seif-
sealing features shall be as detailed on the Drawings.
PART 3 -- EXECUTION
3.01 FABRICATION
A. All measurements and dimensions shall be based on field conditions and shall be verified by
the Contractor prior to fabrication. Such verification shall include coordination with adjoining
work.
B. All fabricated work shall be shop fitted together as much as practicable, and delivered to the
field, complete and ready for erection. All misceilaneous items such as stiffeners, fillets,
connections, brackets, and other details necessary for a complete installation shall be
provided.
C, Finished members shall conform to the lines, angles, and curves shown on the Drawings
and shall be free from distortions of any kind.
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CASTINGS
3.02 INSTALLATION
A. Assembly and installation of fabricated system components shall be performed in strict
accordance with manufacturer's recommendations,
B. All castings shall be erected square, plumb and true, accurately fitted, adequately anchored
in place, and set at proper elevations and positions.
END OF SECTION
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CASTINGS
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SECTION 06600
GLASS FIBER AND RESIN FABRICATIONS
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish and install all fiberglass items as specified herein and as shown
on the Drawings. The Contractor shall be responsible for the coordination with related work
specified elsewhere and to provide all hardware, accessories and appurtenances required
for a complete installation, including all fabrication and mounting hardware.
1.02 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Without limiting the generality of the other requirements ofthe specifications, all work herein
shall confonm to the applicable requirements of the following documents. All referenced
specifications, codes, and standards refer to the most current issue availa ble at the time of
Bid.
1, PS15 - National Bureau of Standards
2. ASTM D2996 - Specification for Filament Wound Reinforced Thermosetting Resin
Pipe.
3, ASTM D3917 - Standard Specification for Dimensional Tolerances ofThermosetting
Glass - Reinforced Plastic Pultruded Shapes
4. ASTM D3647 - Standard Practice for Classifying Reinforced Plastic Pultruded
Shapes According to Composition
5. ASTM D4385 - Standard Practice for Classifying Visual Defects in Thermosetting
Reinforced Plastic Pultruded Products
1.03 SUBMITTALS
A. The Contractor shall submit shop drawings in accordance with Section 01330 Submittals,
Shop drawings shall include fabrication details, name of FRP manufacturer, resins,
assembly and erection details, sizes of members, profiles, fasteners and their proper torque
load to be applied, supports, anchors, finishes, colors, patterns, clearances, and
con nections to other work.
B. Certification of compliance with ASTM Standards.
C. Where specifically requested, design calculations sealed by a Registered Professional
Engineer in the State of Florida.
1.05 QUALITY ASSURANCE
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GLASS FIBER ANO RESIN FABRICATIONS
A. All fibergl<lss items ofthe same type provided shall be the products of a single manufacturer
for compatibility.
B, It shaW be the Contractor's responsibility to insure that the fiberglass items and
appurtenances furnished shall be compatible and have the necessary operating clearances
with the structural elements and equipment shown on the Drawings.
C. Manufacturer shall provide a 3 year warranty on all FRP products against defect in material
and workmanship.
PART 2 -- MATERIALS
2,01 GENERAL
A. The manufacturer shall maintain a continuous quality control program and shall, upon
request, furnish the Engineer with certified test reports consisting of physical tests of
samples.
B. Ultraviolet light resistive resins shall be used for all locations.
C. All FRP resins shall be flame resistant and shall meet the requirements of ASTM D 635 and
ASTM E 84, Class 1 with a maximum flame spread rating of 25,
D. All edges shall be sealed in the mold where possible. Machined or cut edges shall be
sealed with a compatible resin system.
2.02 GRATING AND TREADS
A. Fiberglass grating and treads shall be furnished and installed in areas shown on the
Drawings including all FRP angle supports, fasteners and accessories. Gratings and treads
shall consist of pultruded bearing bars positioned and crossbars. Grating and treads shall
be installed in accordance with the manufacturer's recommendations.
B. Grating shall be fabricated into easily removable sections as large as possible up to 150 Ibs.
per section.
C. Fasteners shall not project aqove the wal!<ing surface.
.
D. Fiberglass grating and treads shall be manufactured of polyester resin except for sodium
hypochlorite applications where vinyl ester resin shall be used. Grating and treads shall be
produced by Corgrate, Fibergrate, Inc., Strongwell, or equal. .
E. Grating shall be c!esigned for a uniform loading of 100 PSF over the gross projected area
with deflection limited to 0.375" or grating span/240 whichever is less. Fiberglass or PVC
support beams shall be provided as required to meet deflection criteria,
F. The grating and tread supplier shall supply all shelf support angles, embedded angles with
anchors, concrete anchors and necessary 316 stainless steel grating clips, for a complete
system,
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GLASS FIBER AND RESIN FABRICATIONS
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--'''_._--~~-----_. .
G. Treads shall be designed for a 300 Ib: concentrated load at midspan. Treads shalf be
furnished with integral nosing.
2.03 GRATING FLOOR SYSTEM
A. Fiberglass grating floor system shall be furnished and installed in areas shown on the
Drawings and shall include all FRP angle supports, FRP adjustable pedestal supports, FRP
cross bracing, fasteners, and accessories as required for a complete system. Grating shall
consist of bidirectional molded FRP gratings. Grating and supports shall be provided by a
single manufacturer and installed in accordance with the manufacturer's recommendations
to provide a revel walking surface,
B. Grating shall be fabricated into easily removable sections as large as possible up to 150 Ibs,
per section.
C. All exposed bearing ends of grating shall be enclosed in a perimeter band of the same
dimensions and materials as the main bars, including at all cutouts.
D. Fasteners shall not project above the walking surface.
E. Fiberglass grating and supports shall be manufactured of polyester resin except for sodium
hypochlorite applications where vinyl ester resin shall be used. Grating and supports shall
be produced by Corgrate, Fibergrate, Inc., Strongwell, or equal.
F. Grating and supports shall be designed for a uniform loading of 100 pst. Grating deflection
shall be limited to 0.25".
G, Grating clips and metal fasteners shall be Type 316 stainless steel.
2,04 FIBERGLASS WEIRS AND BAFFLES (NOT USED)
2.05 FRP LADDERS
A, The Contractorshall provide fixed ladder systems with harness type safety device, safety
cages where required, mounting clips, fasteners, and necessary appurtenances for a'
complete and rigid installation.
B. The ladder systems shall be designed to meet or exceed all OSHA requirements.
C. Ladders and cages shall be fabricated from pultruded shapes conforming to Extren Series
525. except for sodium hypochlorite applications where Extren Series 625 shall be used.
Shapes shall be manufactured by Strongwell, or equal.
D. Ladder side rails shall be fabricated from channel members or 2 inch minimum square tube.
E. Side rails shall be anchored with FRP standoff clips manufactured of polyester resin except
for sodium hypochlorite applications where vinyl ester resin shall be used. Clips shall be
placed at the top and bottom of the ladder and at 6 foot maximum vertical centers.
F. Rungs
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NCWRF COMPLIANCE ASSURANCE PROJECT.
GLASS FIBER ANO RESIN FABRICATIONS
1. Rungs shall be.18 inches long, serrated and covered with a silica grit to produce and
ant-skid surface.
2. Rungs shall be uniformly spaced at 12 inches on center.
3. Rungs shall be designed to support a 1,200 pound vertical load applied at midspan.
4, Rungs shall be both mechanically attached and epoxy bonded to the side rails.
G. Fall prevention system and anti-climb guard shall be provided.
H, A retractable safety post extension constructed of Type 304 stainless steel at the top ofthe
ladder to provide support for persons exiting a tank or structure.
2,06 CONNECTIONS
A. All connections shall be non-corrosive, non-staining, and concealed where practicable, as
detailed on the Drawings or specified herein.
B. All fasteners shall be Type 316 stainless steel, except for sodium hypochlorite applications,
Hastelloy C-276 shall be used unless noted otherwise.
C. Holes for bolts and screws shall be drilled.
.
D, Joints exposed to water shall be formed to exclude water.
E. Design and installation of fiberglass items shall provide for expansion and contraction,
prevent shearing of bolts, screws and other fastenings, and provide close fitting of sections.
2.07 . STRUCTURAL SHAPES AND FLAT SHEETS
A. Shapes shall conform to sizes indicated on Drawings and shall be Extren 525 except for
sodium hypochlorite applications where Extren 625 shall be used, Shapes shall be
manufactured by Strongwell, or equal.
B. Metal bolted connections shall be made with stainless steel bolts except for sodium
hypochlorite applications where Hastelloy C bolts shail be used. Bolts shall conform to
Section 05050 entitled "Metal Fastening".
C. Adhesive bonded connections shall be made with a compatible epoxy adhesive following
manufacturer's instructions.
2.08 FRP HANDRAIL
A. Fiberglass reinforced plastic (FRP) handrail system shall be designed by the Contractor to
meet or exceed OSHA requirements with a minimum safety factor equal to 2, and shall be
furnished and installed as shown on the Contract Drawings. All rails, posts, kick plates,
base plates, fasteners, and necessary appurtenances for a complete and rigid installation
shall be provided and installed per manufacturer's recommendations. Handrail systems .
shall be manufactured by Strongwell, Bristol, VA, Fibergrate Composite Structures, Dallas,
TX, Corgrate., Dallas, TX, or equal.
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NCWRF COMPLIANCE ASSURANCE PROJECT
GLASS FIBER AND RESIN FABRICATIONS
B. The handrail system shall consist of pultruded fiberglass shapes manufactured 'with the
following minimum properties:
Properties Test Method Value
Tensile Stress ASTM 0638 30,000 psi < <
Tensile Modulus ASTM 0638 2.5 x 106 psi
Compressive Strength ASTM 0695 30,000 psi
Compressive Modulus ASTM 0695 2.5 x 106 psi
Flexural Stress ASTM 0790 30,000 psi
Flexural Modulus ASTM 0790 2.0 x 10' psi
Shear Stress ASTM 02344 4,500 psi
Oensity ASTM 0792 ,070lbs/in'
24 hr. Water Absorption ASTM 0570 0.6% max
Coeff. of Thermal Expansion ASTM 0696 6 x 10' in/in/EF
Barcol Hardness 50
C. The guardrail system shall have two (2) rails, unless otherwise noted on the Contract
Drawings, with the top rail located 42 inches above the walking surface. Rails and posts
shall be 2" square tubing with internal fittings for all connections. Kick plates shall be
provided where required by OSHA. All rail and kick plate corner joints shall be mitered at a
450 angle and securely fastened to posts. Maximum horizontal spacing between posts shall
be 4 feet.
D. Handrails shall be erected with true horizontal and vertical alignment and shall be smooth
and free of surface defects. All cut edges and holes shall be sealed with a compatible resin
system. For stair handrail, the top rail shall be not less than 34 inches nor more than 38
inches above the leading edge of the stair tread.
PART 3 -- EXECUTION
3.01 FABRICATION
A. All cut edges and holes shall be sealed with a compatible resin.
B. All FRP items shall conform to the dimensions indicated on the Drawings.
C. All fiberglass items described in this Section shall be supplied by a manufacturer that
normally fabricates such items so that appearance and quality control are first class.
3.02 HANDLING, TRANSPORTING, AND STORING
A. All FRP itemsshalj be properly packed, labeled and stored in accordance with Division 1
and where directed by the Engirieer.
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GLASS FIBER AND RESIN FABRICATIONS
B.: The ContractorshaU exercise aU precaiJtionsnecessary to protect the FRP from abuse to
prevent breakage, nicks, gouges, etc. , during fabrication, handling, and installation.
3.03 INSTALLATION
A. Installation of all items shall be accOl:d]ng to manufacturer's instructions, unless otherwise
noted:
B. Exposed threads of FRP bolts shall be sealed with a compatible resin after installation ofthe
bolts. Where bolts are attaching removable items, the exposed threads shall be sealed with
a light coat of polyurethane sprayed onto the threads.
END OF SECTION
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GLASS FIBER AND RESIN FABRICATIONS
SECTION 07190
VAPOR BARRIER
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. Furnish labor, material and equipment required for the installation of vapor barrier under all
reiriforced concrete placed against soil as specified herein and shown on the Drawings.
B, Principal items of work include: Vapor barrier below slabs on grade,
1,02 SUBMITTALS
A, In accordance with the procedures and requirements set forth In Section 01330 -
Submittals, submit the following:
1. Manufacturer's. data and installation instructions.
PART 2 -- PRODUCTS
2.01 VAPOR BARRIER
A. The vapor barrier shall be 10 mil thick polyethylene sheet meeting the requirements of
ASTM E 1745 Class A.
1. Minimum tensile strength ASTM E154: 52 Ibslin.
2. Puncture resistance ASTM D1709, Method B: 2600 g.
3, Maximum permeance ASTM E96: 0.036 U.S. perms.
B, Vapor barrier shall be Vaporblock 10 by Reven Industries, Perminator 10 mil by W.R.
Meadows, Florprufe 120 by Grace Construction Products, or approved equal.
2.02 ADHESIVE OR TAPE
A. AdhesivelTape: Type approved by the Manufacturer of the vapor material.
PART 3 -. EXECUTION
3.01 INSTALLATION
A. Vapor barrier shall be placed under all concrete contacting soil; or stone, lap edges 12
inches and seal with adhesive tape. Barrier shall be laid with seams perpendicular to and
lapped in the direction of pour. No screed supports or other items shall be allowed to
penetrate vapor barrier.
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VAPOR BARRIER
B. protect from damage until concrete is placed, Punctures and tears in vapor barrier shall be
repaired using patches of the material which overlaps puncture or tear a minimum of 12
inches; seal with tape or adhesive.
C. Fill under vapor barrier shall be compacted, clean, free of debris and protrusions.
END OF SECTION
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VAPOR BARRIER
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. SECTION 09850
PAINTING
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contract()r shall furnish all labor, tools, materials, supervision and equipment necessary
to do all the work specified herein and as required for a complete installation.
1.02 GENERAL INFORMATION AND DESCRIPTION
A. The term "paint," as used herein, includes emulsions, enamels, paints, stains, varnishes,
sealers, cement filler, cement-latex filler and other coatings, whether used as prime,
intermediate, or finish coats.
B. All paint for concrete and metal surfaces shall be especially adapted for use around
wastewater treatment plants and shall be applied in conformance with the manufacturer's
published specifications.
C. All paint for final coats shall be fume resistant, compounded with pigments suitable for
exposure to sewage gases, especially to hydrogen sulfide and to carbon dioxide. Pigments
shall be materials which do not tend to darken, discolor, or fade due to the action of sewage
gases. If a paint manufacturer proposes use of paint which is not designated "fume
resistant" in its literature, it shall furnish full information concerning the pigments used in this
paint.
D. Coatings used in conjunction with potable water supply systems shall have U.S,
Environmental Protection Agency (EPA) and FDA approval for use with potable water and
shall not impart a taste or odor to the water.
E. All building, facilities, structures, and appurtenances, as indicated on the Drawings and as
specified herein, shall be painted with not less then one shop coat and two field coats, or
one prime coat and two finish coats of the appropriate paint. Items to be painted include, but
are not limited to exterior and interior concrete, structural steel, miscellaneous metals, steel
and aluminum doors and frames, concrete block, ductwork, sluice gates, operators, pipe
fittings, valves, mechanical equipment, motors, conduit, and all other work which is obviously
required to be painted unless otherwise specified.
F. Baked-on enamel finishes and items with standard shop finishes such as graphic panels,
electrical equipment, toilet partitions, lockers, instrumentation, etc., shall not be field painted
unless the finish is damaged during shipment or installation. Aluminum, stainless steel,
fiberglass and bronze work shall not be painted unless color coding and marking is required
or otherwise specified. A list of surfaces not to be coated is included in Article 1,09 of this
Section.
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PAINTING
G, The Contractor shall obtain all permits, licenses and inspections and shjjl,1 comply with all
laws, codes, ordinances, rules and regulations promulgated by authorities having jurisdiction
which may bear on the work. This compliance will include Federal Public Law 91_596 more
commonly known as the "Occupational Safety and Health Act of 1970", .
1.03 MANUFACTURERS
A. All painting materials shall be as manufactured by Tnemec, Carboline, Ameron, or DuPont.
1.04 SUBMITTALS
A. The Contractor shall submit paint manufacturer's data sheets, application instructions, and
samples of each finish and color to the Engineer for review, before any work is started in
accordance with Section 01330 entitled, "Submittals."
,
,
B. Submitted samples of each finish and color shall be prepared so that the area of each
sample indicates the appearance of the various coats. For example, where a three-coat
system is specified, the sample shall be divided into three areas indicating one coat only,
two coats and all three coats. The Engineer will provide written authorization constituting a
standard, as to color and finish only, for each coating system.
,
C. The Contractor shall prepare a complete schedule of surfaces to be coated and shall identify
the surface preparation and paint system he proposes to use, The Paint Schedule shall be
in conformance with Article 3,03 of this Section. The schedule shall contain the name ofthe
paint manufacturer, and the name, addreSs and telephone number of the manufacturer's
. representative that will inspect the Work. The schedule shall be submitted to the Engineer
for review as soon as possible following the Notice to Proceed so that the schedule may be
used to identify colors and to specify shop painting systems on order for fabricated
equipment.
.
1.05 SERVICES OF MANUFACTURER'S REPRESENTATIVE
A. The Contractor shall purchase paint from an acceptable manufacturer. The manufacturer
shall assign a representative to inspect the application of his product both in the shop and
field, The Contractor, through the manufacturer's representative, shall submit his report to
the Engineer at the completion of his Work identifying the products used and verifying that.
said products were properly applied and that the paint systems were proper for the exposure
and service.
B. Services shall also include, but not be limited to, inspecting prior coatings of paint,
determination of best means of surface preparation, inspection of complete work, and re-
inspection of painted work to be performed six months after the job is completed.
1.06 MANUFACTURER'S INSTRUCTIONS
A. The manufacturer's published instructions for use as a guide in specifying and applying the
manufacturer's proposed paint shall be submitted to the Engineer. Paint shall not be
delivered to the job before acceptance of the manufacturer's instructions is given by the
Engineer,
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PAINTING
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B. A manufacturer's paint will not be considered for use unless that manufacturer's published
instructions meets the following requirements:
1. The instructions must have been written and published by the manufacturer for the
purpose and with the intent of giving complete instruction for the use and application
of the proposed paint in the locality and for the conditions for which the paint is
specified or shown to be applied under this Contract.
2. All limitations, precautions, and requirements that may adversely affect the paint; that
may cause unsatisfactory results after the painting application; or that may cause the
paint not to serve the purpose for which it was intended; that is, to protect the
covered material from corrosion, shall be clearly and completely stated in the
instructions. These limitations and requirements shall, if they exist, include, but not
be limited to the following:
a, Methods of application
b. Number of coats
c. Thickness of each coat
d. Total thickness
e. Drying time of each coat, including primer
f. Primer required to be used
g. Primers not permitted'
h. Use of a primer
I. Thinner and use of thinner
j. Temperature and relative humidity limitations during application and after
application
k. Time allowed between coats
I. Protection from sun
m. Physical properties of paint including solids content and ingredient analysis
n. Surface preparation
0, Touch up requirements and limitations
C. Concrete surfaces specified by the paint manufacturer to be acid etched shall be etched in
accordance with the manufacturer's instructions. The surface shall then be thoroughly
scrubbed with clean water, rinsed, and allowed to dry, The surface shall be tested with a
moisture meter to determine when dry before coating.
1.07 QUALITY ASSURANCE
A. The Contractor shall give the Engineer a minimum of three days advance notice of the start
of any field surface preparation work of coating application work,
B, All such Work shall be performed only in the presence of the Engineer, unless the Engineer
has specifically allowed the performance of such Work in his absence.
C, Review by the Engineer, or the waiver of review of any particular portion of the Work, shall
not relieve the Contractor of his responsibility to perform the Work in accordance with these
Specifications.
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PAINTING
. D. Where special coatings are to be performed by a subcontractor, the Contractor shall provide
five references which show that the painting subcontractor has previous successful
experience with the specified or comparable coating systems. Include the name, address,
and the telephone number for the Owner of each installation for which the painting
subcontractor provided the protective coating,
1.08 SAFETY AND HEALTH REQUIREMENTS
A, In accordance with requirements of OSHA Safety and Health Standards for Construction
(29CFR1926) and the applicable requirements of regulatory agencies having jurisdiction, as
well as manufacturer's printed instructions, appropriate technical bulletins, manuals, and
material safety data sheets, the Contractor shall provide and require use of personnel
protective and safety equipment for persons working in or about the project site.
B. All paints must comply with the requirements of the National Ambient Air Quality Standards.
1.09 SURFACES NOT TO BE COATED
A. The following items shall not be coated unless otherwise noted:
1, Stainless steel work.
2. Galvanized checkered plate,
3. Aluminum handrails, walkways, windows, louvers, grating and checkered plate.
4. Flexible couplings, lubricated bearing surfaces and insulation,
5. Packing glands and other adjustable parts of mechanical equipment.
6, Finish hardware.
7. Plastic switch plates and receptacle plates.
8. Signs and nameplates.
1.10 ADDITIONAL PAINT
A. At the end of the project, the Contractor shall turn over to the Owner a gallon can of each
type and color of paint, primer, thinner or other coating used in the field painting, If the
manufacturer packages the material concerned in gallon cans, then it shall be delivered in
unopened labeled cans as it comes from the factory. If the manufacturer does not package
the material in gallon cans, and in the case of special colors, the materials shall be delivered
in new gallon containers, properly closed with type labels indicating brand, type, color, etc.
The manufacturer's literature described the materials and giving directions for their use shall
be furnished in three bound copies. A type-written inventory list shall be furnished at the
time of delivery.
1.11 SHIPPING, HANDLING AND STORAGE
A. All painting materials shall be brought to the job site in the original sealed labeled containers
of the paint manufacturer and shall be subject to review by the Engineer. Where thinning is
necessary, only the product of the manufacturer furnishing the paint shall be used, All such
thinning shall be done strictly in accordance with the manufacturer's instructions, and with
the full knowledge of the Engineer.
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PAINTING
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B.' Materials and their storage sllallbe in full compliance with the requirements, of pertinent
codes and fire regulations.. Receptacles shall bep.laced outside buildings for paint gates'
and containers.. Paint Waste shall not be disposed of in plumbing fixtures, process drains or
other plant systems or process units.
PART 2 -- PRODUCTS
2.01 MATERIALS
A. Table 09850-1 depicts the coatings referenced in Article 3.03 of this Section entitled, "Paint
Schedule". Table 09850-1 lists Tnemec products as a reference. Equivalent products by the
manufacturers listed in Article 1.03 of this Section may be submitted for review.
TABLE 09850-1
PRODUCT LISTING
Ref.
No.
102
103
104
105
110
111
114
115
116
117
118
119
Description
Water Based Epoxy
Epoxy Mastic
Polyamidoamine Epoxy Primer
Polyamidoamine Epoxy
Endura Shield III
Modified Waterborne Acrylate
Waterborne Polyamide Epoxy
Aromatic Urethane, Zinc Rich
Epoxy Modified Cementitious Mortar
Modified Polyamine Epoxy Primer
Fiber Reinforced Novolac Epoxy
Polyamine Novolac Epoxy
PART 3 -- EXECUTION
3.01 SURFACE PREPARATION
MANUFACTURERS REFERENCE
Tnemec
27WB Typoxy
135 - Color
N69-1211
N69 - Color
73 - Color
157 - Envirocrete (Sand Texture)
151 - Elasto-Grip
90-97
218 MortarClad
201 Epoxoprime
275 Stranlok
282 Tneme-Glaze
A. Surfacesto be painted shall be clean and dry, and freeof dust, rust, scale and all foreign
matter. No solvent cleaning, power or hand tool cleaning shall be permitted unless
acceptable. to the Engineer or specified herein,
B. Except as otherwise provided, all preparation of metal surfaces shall be in accordance with
Specifications SP-1 through SP-1 0 ofthe Steel Structures Painting Council (SSPC). Where
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PAINTING
. ,Steel Structures Painting. Specifications are ref~rr'ed to in these Contract Documents, the
. corresponding Pictorial Surfaces. Preparation Standard shall be used to define the minimum .
final surface conditions to be supplied. Grease- and oil shall be removed and the surface.
prepared by hand tool cleaning, power tool cleaning or blast cleaning in accordance with the
appropriate Specification SP-1 through SP-10.
C. Weld flux, weld spatter and excessive rust scale shall be removed by power tool cleaning as
per SSPC-SP-3-63.
D, Threaded portions of valve and gate stems, machined surfaces which are limited for sliding
contact, surface~ which are to be assembled against gaskets, surfaces or shafting on which.
sprockets are to fit, or which are intended to fit'into bea(ings, machined surfaces of bronze
trim. on slide gates and. similar surfaces sha.1I be masked off to. protect them from the
sandblasting of adjacent surfaces. Cadmium-plated or galvanized items shall not
sandblasted unless hereinafter specified, except that cadmium-plated, zinc-plated, or
sherardized fasteners used in assembly of equipment to the sandblasted shall be
sandblasted in the same manner as the unprotected metal. All installed equipment,
mechanical drives, and adjacent painted equipment shall be protected from sandblasting.
Protection shall prevent any sand or dust from entering the mechanical drive units or
equipment where damage could be caused.
E, Hardware accessories, machined surfaces, plates, lighting fixtures, and similar items in
place prior to cleaning and painting, and not intended to be painted, shall be protected or
removed during painting operations and repositioned upon completion of painting
operations.
F. Any abraded areas of shop or field applied coating shall be touched up with the same type of
shop or field applied coating, even to the extent of applying an entire coating, if necessary.
Touch-up coating and surface preparations shall be in addition to and not considered as the
first field coat.
G. Sand from sandblasting shall be thoroughly removed, using a vacuum cleaner if necessary.
No surface which has been sandblasted shall be painted until inspected by the Engineer.
H, Exposed Pipe
1. Bituminou~ coated pipe shall not be used in exposed locations, Pipe which shall be
exposed after project completion shall be primed in accordance with the
requir~ments herein, Any bituminous coated ferrous pipe which is inadvertently
installed in exposed locations shall be sandblasted to SSPC-SP-5 White Metal
before priming and painting.
2. After installation and prior to finish painting, all exterior, exposed flanged joints shall
have the gap between adjoining flanges and gaps between the pipe wall and
threaded-on flanges sealed with a single component Thiokol caulking to prevent rust
stains.
I. Ferrous Metal Surfaces
1. All ferrous metal surfaces not required to be galvanized shall be cleaned of all oil
grease, dirt, rust and tight and loose mill scale by blasting in accordance with the
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NCWRF COMPLIANCE ASSURANCE PROJECT
PAINTING
_ <_".~_~ ._.._ '~';_._n_
following: SSPG-SP-5, White Metal Blast Cleaning and comply with the visual
standard NACE 1, for submerged metal. SSPC-SP-10 Near White Metal Blast.
Cleaning, and comply with the visual standard NACE 2 for all other locations.'
Pickling, complying with SSPC-SP-8, may. be substituted for Near White Blast in
areas as determined by the Engineer. Priming shall follow sandblasting before any
evidence of corrosion occurs, before nightfall and before any moisture is on the
surface.
2. Existing painted ferrous metal surfaces shall be cleaned of all oil, grease and dirt by
blasting with a minimum 2,500 psi high pressure blast. All rust shall be removed in
accordance with SSPC-SP-3 and spot primed with the applicable primer.
J. Field surface preparation of small, isolated areas such as field welds, repair of scratches,
abrasions or other marks to the shop prime or finish shall be cleaned by power tools in
accordance with SSPC-SP-3, or in difficult and otherwise inaccessible areas by hand
cleaning in accordance with SSPC-SP-2 and spot primed.
K. Primed or Coated Surfaces and Non-Ferrous Surfaces
1. All coated surfaces shall be cleaned prior to application of successive coats. All
non-ferrous metals not to be coated shall be cleaned. This cleaning shall be done in
accordance with SSPC-SP-1, Solvent Cleaning.
L. Shop Finished Surfaces
1. All shop-coated surfaces shall be protected from damage and corrosion before and
after installation by treating damaged areas immediately upon detection, Abraded or
corroded spots on shop-coated surfaces shall be prepared in accordance with
SSPC-SP-2, Hand Tool Cleaning and then touched up with the same materials as
the shop coat.
2. All shop coated surfaces which are faded, discolored, or which require more than
minor touch-up, in the opinion of the Engineer, shall be repainted. Cut edges of
galvanized sheets, electrical conduit, and metal pipe sleeves, not to be finish
painted, shall be cleaned in accordance with SSPC-SP.1, Solvent Cleaning and
primed with zinc dust-zinc oxide metal primer.
M. Galvanized and Copper Alloy Surfaces
1. All copper, or galvanized metal surfaces shall be brush blasted and given one coat
of epoxy primer.
N, Concrete and Masonry Surfaces
1. Concrete and masonry surfaces to be painted shall be prepared by removing
efflorescence, chalk, dust, dirt, grease, oil, form coating, tar and by roughening to
remove glaze. All surfaces shall be repaired prior to commencement of the coating
operation.
2. Concrete and masonry surfaces are to be cured for at least 28 days prior to coating'
them.
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NCWRF COMPLIANCE ASSURANCE PROJECT
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O. New concrete immersion surfaces that are to be coated shall be brush blasted per SSPC-
SP7 to produce the necessary "sandpaper texture" surface required for satisfactory
adherence of the paint. Areas of concrete, which contain blow holes or voids, shall be filled
with the manufactiJrer's approved filler material.
p, Existing Painted Concrete and Masonry Surfaces
1, Existing painted concrete and masonry surfaces requiring paint as identified herein
shall be prepared by applying a minimum 2500 psi high pressure water blast to the
existing painted surface to remove all loose paint, chalk, dust, dirt, grease, oil,
latents, and other foreign materials. Cracks, chips or voids in the existing concrete
shall be repaired in accordance with paint manufacturer recommendations,
Q. PVC Pipe Surfaces
1, All pipe surfaces shall be lightly sanded before painting.
3,02 SHOP PAINTING
A, All fabricated steel work and equipment shall receive at the factory at least one shop coat of
prime paint compatible with the paint system required by these Specifications. The
Contractor shall coordinate all shop priming to ensure compatibility with paint system
specified, Surface preparation priorto shop painting shall be as specified. Finish coats may
be applied in the shop if acceptable to the Engineer. All shop painted items shall be properly
packaged and stored until they are incorporated in the Work. Any painted surfaces that are
damaged during handling, transporting, storage or installation shall be cleaned, scraped,
and patched before field painting begins so that Work shall be equal to the original painting
received at the shop. Equipment or steel Work that is to be assembled on the site shall
likewise receive a minimum of one shop coat of paint at the factory. Surfaces of exposed
members that will be inaccessible after erection shall be prepared and painted before
erection.
B. The Contractor shall specify the shop paints to be applied when ordering equipment in order
to assure compatibility of shop paints with field paints. The paints and surface preparation
used for shop coating shall be identified on shop drawings submitted to the Engineer for'
review. Shop paint shop drawings will not be reviewed until the final project paint system
has been submitted by the Contractor and reviewed by the Engineer.
C. Shop finish coats may be the standard finish as ordinarily applied by the manufacturer if it
can be demonstrated to the Engineer that the paint system is equal to and compatible with
the paint system specified. However, all pumps, motors and other equipment shall receive
at least one field applied finish coat after installation.
3.03 PAINT SCHEDULE
A The Contractor shall adhere to this paint schedule, providing those paints named or equal.
DFT shall mean the minimum dry film thickness per application measured in mils. Products
are referenced by numbers listed in Article 2.01 of this Section entitled "Product Listing,"
The paint schedule identifies the minimum DFT required per coat. If the Contractor does not
achieve the specified DFT range in a single coat, he shall provide additional coats as
necessary at no additional cost to the Owner.
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---,----_.. --._- "-'_""""'--~'-----._~.'''-
B.. Metal Surfaces, Atmospheric (Exterior) Exposure
1 . Metal surfaces exposed to . the atmosphere that do not come into contact with
.' wastewater or corrosive atmosphere including the following types of surfaces shall
be painted as described below:
a. Pumps, motors, process equipment, machinery, etc.
b. Above ground piping, valves and pipe supports.
c. . Miscellaneous steel shapes, angles, etc.
d. . Exposed surfaces of conduit, ductwork, etc.
Ferrous Metal
wlication No. Description DFT
First -1 coat 104 Epoxoline Primer 3.0 - 5,0
Second - 1 coat 105 Hi-Build Epoxoline 2.0 - 3.0
Finish - 1 coat 110 Endura Shield 2.0 - 3.0
Min. Total 9.0 Mils
Non-Ferrous Metal
. 8Qplication No. Description DFT
First - 1 coat 105 Hi-Build Epoxoline 2.0 - 3.0
Second - 1 coat 110 Endura Shield 2.0 - 3.0
Min. Total 5.0 Mils
Galvanized
wlication No, Description DFT
First - 1 coat 115 Aromatic Urethane, Zinc-Rich 2.0 - 3.5
First - 1 coat 105 Hi-Build Epoxoline 2.0 - 3,0
Second - 1 coat 110 Endura Shield 2.0 - 3,0
Min. Total 7,5 Mils
C. Metal Surfaces, Interior Exposure
1, Interior metal surfaces (non submerged) that do not come in contact with wastewater
or the corrosive atmosphere including the following types of surfaces shall be
painted as follows:
a. Pumps, motors, process equipment, machinery, etc.
b. Piping, valves and supports,
c. Miscellaneous steel shapes, angles, rails, etc.
d, Exposed surfaces of conduit, ductwork, etc.
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NCWRF COMPLIANCE ASSURANCE PROJECT
PAINTING
. .&;wlication. No. Description DFT
First - 1 coat
. Finish - 1 coat
104
105
Epoxoline Primer
Hi-Build Epoxoline
Min. Total
3.0 - 5.0
4.0 - 6.0
9.0 Mils
D, Ductile Iron Pipe, Exterior or Interior Exposure
1. Ductile iron pipe exterior or interior exposure shall receive the following types of
paint:
tillplication
No.
Description
DFT
First - 1 coat
Finish - 1 coat
105
110
Hi-Build Epoxoline
Endura Shield
Min. Total
3.0 - 5.0
3.0 - 5,0
8.0 Mils
E. PVC Pipes, Exterior or Interior Exposure
1. PVC pipes, valves, and accessories, shall receive the following types of paint:
&;wlication
No.
Description
DFT
First - 1 coat
Finish - 1 coat
105
110
Hi-Build Epoxoline
Endura Shield
Min, Total
2.0 - 3.0
2,0 - 3.0
5.0 Mils
F. Exterior of Existing Concrete, Stucco and Masonry Surfaces requiring Touch-Up caused by
Contractor's Construction Activities:
1. Exteriors of existing structures shall be painted as identified herein, Paint colors and
c%r scheme shall match existing.
tillplication No, Description DFT
First - 1 coat 114 Waterborne Polyamide Epoxy 1.0 - 2.5
Brush - 1 coat' 111 Modified Waterborne Acrylate 4,0 - 6.0
Finish - 1 coat 111 Modified Waterborne Acrylate 6.0 - 9.0
Min, Total 12.0 Mils
,
(Apply a brush coat ofTNEMEC Series 157 Enviro-Crete into all exposed cracks
prior to application of finish coat.)
.
G, Interior of Existing Painted Concrete and Masonry Surfaces requiring touch-up caused by
Contractor's construction activities.
1. Interior exposed masonry and concrete surfaces shall be painted as described
below:
tillplication
First - 1 coat
No.
103
Description .
Epoxy - Mastic
DFT
3.0 - 5,0
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NCWRF COMPLIANCE ASSURANCE PROJECT
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Finish - 1 coat
105
Hi-Build Epoxoline
Min. Total
4,0 - 6.0
9.0 Mils
H. Existing Painted Exterior and Interior Pumps, Equipment, Piping, Valves, Fittings and
Supports Requiring Touch-Up Caused by Contractor's Construction Activities,
Existing painted exterior and interior piping, pumps, valves, fittings, supports, shall be
painted as described below:
6/wlication
No.
Description
DFT
Min. Total
3.0 - 5.0
2.0 - 3.0
8,0 Mils
First - 1 coat
Fin ish - 1 coat
103
110
Epoxy Mastic
Endura Shield
I. Containment Areas:
1. Concrete surfaces (walls, floors, and trenches) of containment areas shall be painted
as identified herein.
6/wlication No. Description DFT
Surfacer' 116 Epoxy Modified Mortar 1/16 inch
Fi rst - 1 coat 117 Epoxy Primer 6.0- 10.0
Brush - 1 coat 118 Fiber Reinforced Novolac Epoxy 25.0 - 40.0
Finish - 1 coat 119 Novolac Epoxy 6.0 - 10.0
Min. Total 48.0 Mils
,
Surfacer shall be applied on vertical surfaces.
3.04 PAINTING
A. All paint shall be applied by experienced painters with brushes or other applicators
acceptable to the Engineer.
B. Paint shall be applied without runs, sags, thin spots, or unacceptable marks, Paints shall be
applied at the rate specified by the manufacturer to achieve the minimum dry mil thickness
required, Additional coats of paint shall be applied, if necessary, to obtain thickness
specified,
C. Paint shall be applied with spraying equipment only on those surfaces approved by the
Engineer. ifthe material has thickened or must bediluted for application by spray gun, each
coat shall be built up to the same film thickness achieved with undiluted brushed-on
material. Where thinning is necessary, only the products of the particular manufacturer
furnishing the paint shall be used; and all such thinning shall be done in strict accordance
with the manufacturer's instructions, as well as with the full knowledge of the Engineer.
D. Surfaces not accessible to brushes or rollers may be painted by spray by dauber or
sheepskins and paint mitt. If any of these methods is to be used, it shall be done in strict
accordance with the manufacturer's instructions, as well as with the full knowledge of the
Engineer.
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NCWRF COMPLIANCE ASSURANCE PROJECT
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E. Drying Time
1. A minimum of twenty-four hours drying time shall elapse between application of any
two coats of paint on a particular surface unless shorter time periods are a
. requirement of the manufac~Lirer or specified herein. Longer drying times shall be
required for abnormal conditions as defined by the manufacturer.
F. Weather Restrictions
1, No painting whatsoever shall be accomplished in rainy or excessively damp weather
when the relative humidity exceeds 85 percent, or when the general air temperature
cannot be maintained at 50 degrees Fahrenheit or above throughout the entire
drying period. No paint shall be applied when it is expected that the relative humidity
will exceed 85 percent or that the air temperature will drop below 50 degrees
Fahrenheit within 18 hours after the application of the paint.
2. Dew or moisture condensation should be anticipated; and if such conditions are
prevalent, painting shall be delayed until midmorning to be certain the surfaces are
dry. The day's painting shall be completed well in advance of the probable
time-of-day when condensation will occur.
G. Inspection of Surfaces
1. Each and every field coat of priming and finishing paint shall be inspected by the
Engineer or his authorized representative before the succeeding coat is applied.
The Contractor shall follow a system of tinting successive paint coats so that no two
coats for a given surface are exactly the same color. Areas to receive black
protective coatings shall in such cases be tick-marked with white or actually gauged
as to thickness when finished.
H, Before application of the prime coat and each succeeding coat, any defects or deficiencies
in the prime coat or succeeding coat shall be corrected by the Contractor before application
of any subsequent coating.
I. Samples of surface preparation and of painting systems shall be furnished by the Contractor
to be used as a standard throughout the job, unless omitted by the Engineer.
J, When any appreciable time has elapsed between coatings, previously coated areas shall be
carefully inspected by the Engineer, and where, in his opinion, surfaces are damaged or
contaminated, they shall be cleaned and recoated at the Contractor's expense. Recoating .
times of manufacturer's printed instructions shall be adhered to.
K. Coating thickness shall be determined by. the use of a properly calibrated "Nordson-
Mikrotest" (or equal) dry mil thickness gauge.
L. The Contractor shall provide free of charge to the Engineer two new "Nordson-Mikrotest" dry
film gauges to be used to inspect coating by Engineer and Contractor. One gauge may be
used by Contractor and returned each day to the Engineer. Engineer will return gauges to
Contractor at completion of job, .
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NCWRF COMPLIANCE ASSURANCE PROJECT
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'._.._k~"..m.'k"..."'__'" ..,.,,~'_ __,._"'_._.. ~"'
M, Special Areas
1: Allsurfaces which are to be installed against concrete, masonry etc., and will not be
accessible Jor field priming and/or painting shall be back primed and painted as .
specified herein, before erection. Anchor bolts shall be painted before the erection
of equipment and then the accessible surfaces repainted when the equipment is
painted.
N, Special attention shall be given to insure that edges, corners, crevices, welds and rivets
receive a film thickness equivalent to that of the adjacent painted surfaces.
O. Safety
1. Respirators shall be worn by persons engaged or assisting in spray painting. The
Contractor shall provide ventilating equipment and all necessary safety equipment
for the protection of the workmen and the Work.
P. Quality Workmanship
1 . The Contractor shall be responsible for the cleanliness of his painting operations and
shall use covers and masking tape to protect the Work whenever such covering is
necessary, or if so requested by the Owner. Any unwanted paint shall be carefully
removed without damage to any finished paint or surface. If damage does occur, the
entire surface, adjacent to and including the damaged area, shall be repainted
without visible lap marks and without additional cost to the Owner.
Q. Painting found defective shall be scraped or sandblasted off and repainted as the Engineer
may direct. Before final acceptance of the Work, damaged surfaces of paint shall be
cleaned and repainted as directed by the Engineer,
R. Any pipe scheduled to be painted and having received a coating of a tar or asphalt
compound shall be painted with two coats or "Intertol Tar Stop", "Tnemec Tar Bar" or equal
before successive coats are applied in accordance with the paint schedule.
3.05 SCHEDULE OF COLORS
A. All colors shall be as designated by the Engineer at the shop drawing review. The
Contractor shall submit color samples including custom color choices as required to the
Engineer as specified in Article 1.04 of this Section. The Contractor shall submit suitable
samples of all colors and finishes for the surfaces to be painted, or on portable surfaces
when required by the Engineer. The Engineer shall decide upon the choice of colors and
other finishes when alternates exist. No variation shall be made in colors without the
acceptance from the Owner. Color names and/or numbers shall be identified according to
the appropriate color chart issued by the manufacturer of the particular product in question,
3.06 COLOR CODING AND LETTERING OF PIPING
A. The Contractor shall paint all piping, valves, equipment, exposed conduits and all
appurtenances which are integral to a complete functional mechanical pipe and electrical
conduit system, in accordance with Table 09850-1 entitled "Pipe Color Coding Schedule".
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January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
PAINTING
Where colors are not designated for piping an(!conduit systems they will be selected during
the shop drawing review from the paint manufacturer's standard color charts.
B.ln general, the pumps and equipment shall be painted the same color as the piping system
to which it is connected unless otherwise directed by the Engineer. Where colors are not
designated for piping and conduit systems they will be selected during the shop drawing
review from the paint manufacturer's standard color charts,
C. Lettering of Piping
1, The Contractor shall apply identification titles and arrows indicating the direction of
flow of liquids to all types and sections of all new and existing plant piping. Titles
shall be as directed by the Engineer. Identification titles shall be located midway
between color coding bands where possible. Identification lettering and arrows shall
be placed as directed by the Engineer, but shall generally be located each fifteen
feet in pipe length and shall be properly inclined to the pipe axis to facilitate easy
reading. Titles shall also appear directly adjacent to each side of any wall or slab the
pipeline passes through.
D. The titles shall be painted by use of stencils and shall identify the contents by complete
names at least once in each area through which it passes and thereafter be abbreviated,
Stencils shall be provided for titles and abbreviations listed in Table 09850-2,
E, Title color shall be black or white as directed and shall have an overall height in inches in
accordance with Table 09850-3. Letter type shall be Helvetica Medium upper case. The
manufacturer's instructions shall be followed in respect to storage, surface preparation and
application. For piping less than 314-inch diameter (as identified in Table 09850-2), the
Contractor shall furnish and attach corrosion resistant color tags with the required lettering.
F. Banding
1. Where bands are indicated. in the Pipe Color Coding Schedule, the pipe is to be
painted for its full circumference with a band of the color indicated. The bands shall
be six inches wide, neatly made by masking, and spaced eight feet apart. The
Contractor may substitute precut prefinished bands on piping subject to acceptance
by the Engineer. Where banded pipes are running concurrently in a space, bands
shall be located so that on adjacently located pipes, bands will be grouped beside
each other.
3,07 FLOW ARROWS
The Contractor shaH install self-sticking directional flow arrows on all exposed piping. The
arrows shall be designed for exterior use in direct sunlight and shall be sized for the pipe.
The arrows Shall be installed on maximum of 5 foot intervals and at changes in direction.
The Contractor shall submit manufacturer's information and schedule for flow arrows to
Engineer for approval.
3.08 OSHA SAFETY COLORS
A. items listed in ANSI Z53.1-1971, Section 2.1 shaH be painted ANSI Red. In general, these
items shaH include fire protection equipment and apparatus; wall mounted breathing
0:09850 PAINTING.DOC:09-23-09
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
PAINTING
apparatus, danger signs and locations; and stop bars, buttons or switches. In addition all
hose valves and riser pipes, fire protection piping and sprinkler systems, and electrical stop
switches shall be painted ANSI Red,
B, Items listed in.ANSI Z53,1-1971, Section 2.3 shall be painted ANSI Yellow. Yellow shall be
the basic color for designating caution and for marking physical hazards such as striking
against, stumbling, falling, tripping, and "caught in between". In addition, an 8-inch wide strip
on the top and bottom tread of stairways shall be coated.
3.09 WORK IN CONFINED SPACES
A. The Contractor shall provide and maintain safe working conditions for all employees, Fresh
air shall be supplied continuously to confined spaces through the combined use of existing
openings, forced-draft fans, or by direct air supply to individual workers. Paint fumes shall
be exhausted to the outside from the lowest level in the contained space.
B. Electrical fan motors shall be explosion proof if in contact with fumes. No smoking or open
fires will be permitted in, or near, confined spaces where painting is being done.
3.10 CLEANING
A. The buildings and all other Work area shall be at all times kept free from accumulation of
waste material and rubbish caused by the Work. At the completion of the painting, all tools,
equipment, scaffolding, surplus materials, and all rubbish around the inside the buildings
shall be removed and the Work left broom clean unless otherwise specified.
TABLE 09850-1
PIPE COLOR CODING SCHEDULE
EQUIPMENT/PIPING
SUGGESTED COLOR
Reclaimed Water
Pantone 522C
Potable Water
Safe blue, BR 18
Safet Yellow, BV57
San ita and Process Drains
Fossil, BG12
Sodium H ochlorite
Safet Yellow, BV57
Seconda Effluent
Color to Match Existin
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NCWRF COMPLIANCE ASSURANCE PROJECT
PAINTING
TABLE 09850-2
PIPE IDENTIFICATION SCHEDULE'
PIPE TITLE . PIPE ABBREVIATION
DRAIN DR
DRAIN VENT VENT
POTABLE WATER PW
RECLAIMED WATER RW
.
.
SODIUM HYPOCHLORITE CLS
SECONDARY EFFLUENT SE
. Refer to Section 15000, Pipe Schedule for additional pipe titles
TABLE 09850-3
HEIGHT OF PIPING LETTERING
3/4 to 1-1/4 inches
1-1/2 to 2 inches
2-1/2 to 6 inches
8 to 10 inches
Over 10 inches
Heiqht of Letterinq
1/2 inch
3/4 inch
1-1/4 inches
2-1/2 inches
3-1/2 inches
Diameter of Pipe or Pipe Covering
Notes:
1. Letter type shall be Helvetica Medium upper case. The manufacturer's instructions shall be
followed in respect to storage, surface preparation and application.
2.' For piping less than 3/4-inch diameter (as identified in Table 09850-2), the Contractor shall
furnish and attach corrosion resistant color tags with the required lettering.
- END OF SECTION -
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SECTION 10400
SIGNAGE
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. Furnish all labor, materials, equipment and appliances required forthe complete execution
of the Work as specified herein.
B. Principal items of work include:
1. Aluminum outdoor signs
2. Self-adhesive safety labels
3. Plaque
1.02 SUBMITTALS
A. In accordance with the procedures and requirements set forth In Section entitled
"Submittals," submit the following:
1. Color and finish samples for all nameplates, and signs.
2. Shop Drawings shall include, but not be limited to:
a, Complete details for all signs giving sizes and styles of lettering and colors.
b. Complete schedules for signs giving location, message, letter, size, color, and
method of attachment.
c, Details of fabrication and attachment of all items.
1.03 DELIVERY, STORAGE AND HANDLING
A. Deliver all materials in unopened, unbroken and undamaged original packaging bearing the
manufacturer's label and identification for installation.
B. Handle all materials with care to prevent defacement of any nature.
1.04 ACCEPTABLE MANUFACTURERS
A. Subject to compliance with the Specifications, provide aluminum sign products from one of
the following manufacturers:
1. Andco Industries Corporation
2. Interface Architectural Signage Incorporated
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NCWRF COMPLIANCE ASSURANCE PROJECT
SIGNAGE
3. Environmental Sign Systems
4. Lab Safety Supply
PART 2 -- PRODUCTS
2.01 ALUMINUM SIGNS
A. Signs shall be fabricated from aluminum and suitable for outdoor use.
B. All safety signs shall comply with the most recent versions of ANSI Z535.2 - Environmental
and Facility Safety Signs and 29 Cf=R 1910.145 - Specification for Accident Prevention
Signs and Tags.
2.02 ACCESSORIES
A. Mounting Hardware: Stainless steel fasteners, aluminum hardware.
2.03 AMERICANS WITH DISABILITIES ACT COMPLIANCE
A. All exterior room name signs, interior room name signs, storage signs, temporary signs,
emergency escape signs, capacity signs, exit route signs, and toilet room handicapped signs
shall comply with the American With Disabilities Act, including but not limited to the
character proportion, height, finish, contrast, mounting height and location, symbols Braille,
pictograms and raised characters.
2.04 FIRE EXTINGUISHER SIGNS
A. CONTRACTOR shall provide and install signs on exterior side of rooms having fire
extinguishers in the room. Sign shall have white raised letters chemically fused to 18" red
acrylic plastic background. Signs shall be 11/2" high x length required reading "FIRE
EXTINGHISHER INSIDE". Doors with these signs shall remain unlocked at all times the'
facility is occupied including nighttime uses.
2.05 SIGN SCHEDULE FOR CHEMICAL AREAS
A. In addition to the signs previously specified, the CONTRACTOR shall provide and install
signs according to the sign and label schedule summarized in Table 10400-1 for the
chemical areas. The CONTRACTOR shall provide the signs and labels as listed by Lab
Safety Supply product number, or equal. CONTRACTOR shall prepare submittals of all
custom signs for ENGINEER's review.
0:10400 SIGNAGEDOC:07-09-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
SIGNAGE
_'__~'~"__""Nm.~._____..~_ , ,__._'n_'_"_,_"~""_ ___
- -- -~,. ',- ""-'-'~-~~- ."".,
Table 10400-1
Sign and Label Schedule - Chemical Areas
Lab Safety
Minimum Supply
Size (in.) Reference
Sign Wording or T}'pe of Sign HxW Type No. Quantity Locations
Safety Si!l.ill!,
EMERGENCY SHOWER AND 14X 10 Aluminum 9S-42021-AL 18 At each
EYEWASH (Spanish and English) Sign emergency
shower and
eyewash
Information Si~ms
SODIUM HYDROXIDE STORAGE 7X7 Aluminum Custom 2 At entrances
Sign to sodium
hydroxide
areas
SODIUM HYDROXIDE BULK FILL 4X4 Aluminum Custom 1 At sodium
Sign hydroxide fill
station
SODIUM HYDROXIDE SUMP 4X4 Aluminum Custom 1 At sodium
PUMP-OUT Sign hydroxide fill
station
SODIUM HYPOCHLORITE 7X7 Aluminum Custom 2 At entrances
STORAGE Sign to sodium
hypochlorite
areas
SODIUM HYPO BULK FILL 4X4 Aluminum Custom 1 At sodium
Sign hypochlorite
fill station
SODIUM HYPO SUMP PUMP-OUT 4X4 Aluminum Custom 1 At sodium
Sign hypochlorite
fill station
Safety Labels
DANGER 3.5X5 Adhesive 61684 4 At entrances
CORROSIVE AvoiD CONTACT Labei to sodium
WITH EYES AND SKIN hydroxide,
and sodium
hypochlorite
areas
SAFETY FIRST 3.5X 5 Adhesive 61761 18 At entrances
REMEMBER WEAR YOUR Labei to all
SAFETY EQUIPMENT chemical
storage areas
NFPA DIAMOND for Sodium 6X6 Adhesive Custom 6 On bulk tank,
Hydroxide Label or fill station,
Aluminum and
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NCWRF COMPLIANCE ASSURANCE PROJECT
SIGNAGE
Sign Wording or Type of Sign
Table 10400-1
Sign and Label Schedule - Chemical Areas
Lab Safety
Supply
Reference
No.
Minimum
Size (in.)
H x W
Type
Sign
Quantity Locations
entrances to
storage areas
6 On bulk tank,
fill station,
and
entrances to
storage areas
2 At Chemical
Vaults
NFPA DIAMOND for Sodium
Hypochlorite
6 X 6 Adhesive Custom
Label or
Aluminum
Sign'
DANGER "CONFINED SPACE
ENTER BY PERMIT ONLY"
6 X 6 Adhesive 61681
Label or
Aluminum
Sign
WARNING "NON-POTABLE
WATER DO NOT DRINK"
6 X 6 Adhesive Custom
Label or
Aluminum
Sign
18
All hose bibs
and sample
sinks
CONTRACTOR shall provide additional signage in addition to signage indicated on Schedule as
required to meet all regulatory and building department requirements.
PART 3 -- EXECUTION
3.01 INSTALLATION
A. All . materials specified herein shall be installed in compliance with the approved
manufacturer's printed specifications. Mounting devices, bolts, screws, nuts and the like
shall be of high strength aluminum or stainless steel. The final location of each sign shall
be as determined by the ENGINEER. Installation shall comply with the applicable handicap
accessibility requirements and heights.
3.02 ADJUSTMENT AND CLEANING
A. After completion of project, remove all protective devices, touch up as necessary and clean
all exposed surfaces with a mild solution of detergent and warm water. Leave all surfaces
in a neat and clean condition.
END OF SECTION
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SIGNAGE
-- -,-.- ,--
SECTION 10524
EMERGENCY SHOWER/EYEWASH STATIONS
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. Furnish and install emergency shower/eyewash stations as shown on the Drawings and as
specified herein. Coordinate work in this Section with painting and marking as specified in
Section 09850, Painting. Certain equipment items will be field located by Owner, if not
otherwise shown on the Drawings.
1.02 SUBMITTALS
A. Submit Shop Drawings, Performance Affidavit, Operation and Maintenance Instructions and
other information as specified for all items of equipment in this Section in accordance with
Section 11000, Equipment General Provisions and Section 01330, Submittals. Shop
Drawings shall also include complete erection, installation, and adjustment instructions and
recommendations.
1.03 MANUFACTURERS
A. The materials covered by these Specifications are intended to be standard equipment of
proven reliability and as manufactured by reputable manufacturers having experience in the
production of such equipment. The equipment furnished shall be designed, constructed,
and installed in accordance with the best practices and methods and shall operate
satisfactorily when installed as shown on the Drawings and operated per manufacturers'
recommendations.
PART 2 -- PRODUCTS
,
2.01 EMERGENCY SHOWER/EYEWASH STATIONS
A. Emergency showers, eyewash, and combination shower/eyewash stations shall be installed
where shown on the Contract Drawings.
B. For exterior shower/eyewash units, the drench shower and the eyewash shall be operated
independently by hand actuated flag type handles or push down plates that remain open
until manually closed. All exterior shower/eyewash stations shall be Model S19-31 ONNSS
as manufactured by Bradley, or equal as manufactured by Haws_ Dual automatic pressure
compensation devices shall provide steady water flow under pressures varying from 30 to 75
pSI.
C. Provide flow switch(es), alarm horn, and strobe light which shall be energized when flow is
initiated to either the eyewash or shower.
1. Alarm horn panel shall have Type 316 stainless steel NEMA 4X enclosure.
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NCWRF COMPLIANCE ASSURANCE PROJECT
EMERGENCY SHOWER/EYEWASH STATIONS
2. . Light and alarm horn shall remain energized until RESET pushbutton on alarm horn
enclosure is pressed.
3. Alarm horn panel shall operate on 120 VAC line power.
4. Provide a "SAFETY SHOWER RESET" plaque at the RESET pushbutton.
5. Flow switches shall be selected to trigger on minimum eyewash flow. Flow switches
shall located such that when either the eyewash is activated or the shower is activated,
the flow alarm shall be activated.
-
6. Panel components shall be in compliance with the requirements of Section 17500 and
referenced sections.
7. Alarm horn and light shall be in compliance with the requirements of Section 17698.
8. Provide form-C dry contact outputs for remote alarm to plant SCADA.
PART 3 -- EXECUTION
3.01 INSTALLATION
A. Emergency shower/eyewash stations shall be installed where shown on the Drawings oras
directed by the Engineer. Where required by OSHA regulations, the background of the
mounting location shall be painted the appropriate color.
B. Emergency shower/eyewash stations shall be installed per manufacturer's installation
instructions.
END OF SECTION
0:41010-02381 0524.doc07 -10-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
EMERGENCY SHOWER/EYEWASH STATIONS
SECTION 11000
EQUIPMENT - GENERAL
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. Provide all tools, supplies, materials, equipment, and all labor necessary for the furnishing,
construction, installation, testing, and operation of all equipment and appurtenant work,
complete and operable, all in accordance with the requirements ofthe Contract Documents.
B. The provisions oflhis Section shall apply to all equipment supplied, except where othelWise
specified or shown.
1.02 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Codes: All codes, as referenced herein, are specified in Section entitled "Reference
Standards. "
B. Commercial Standards: All equipment, products, and their installation shall be in
accordance with the following standards, as applicable, and as specified in each Section of
these specifications:
1. American Society for Testing and Materials (ASTM).
2. American Public Health Association (APHA).
3. American National Standards Institute (ANSI).
4. American Society of Mechanical Engineers (ASME).
5. American Water Works Association (AWWA).
6. American Society of Heating, Refrigerating, and Air Conditioning Engineers
(ASHRAE).
7. American Welding Society (AWS).
8. National Fire Protection Association (NFPA).
9. Federal Specifications (PS).
10. National Electrical Manufacturers Association (NEMA).
11. Manufacturer's published recommendations and specifications.
12. General Industry Safety Orders (OSHA).
13. American Gear Manufacturers Association (AGMA).
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EQUIPMENT - GENERAL
14. American Hot Dip Galvanizers Association (AHDGA).
15. American Standards Association (ASA).
16. National Association of Corrosion Engineers (NACE).
17. Anti-Friction Bearing Manufacturers Association, Inc. (AFMBA).
18. Underwriters' Laboratories, Inc. (UL).
B. The following standards have been referred to in this Section.
ANSI B16.1
Cast .Iron Pipe Flanges and Flanged Fittings Class
25, 125, 250, and 800.
. ANSI B16.5
Pipe Flanges and Flanged Fittings, Steel, Nickel
Alloy, and Other Special Alloys.
ANSI B46.1
Surface Texture.
ANSI S12.6
Method for the Measurement of the Real-Ear
Attenuation of Hearing Protectors.
ANSIIASME BI.20.1
General Purpose Pipe Threads (Inch).
ANSI/ASME B31.1
Power Piping.
ANSIIAWWA D100
Welded Steel Tanks for Water Storage.
AWWAC206
Field Welding of Steel Water Pipe.
ASTM A 48
Specification for Gray Iron Castings.
ASTMA 108
Specification for Steel Bars, Carbon, Cold-Finished,
Standard Quality.
1.04 SUBMITTALS
A. Shop Drawinq~: Submit under provision of Section 01330.
.
B. ,gpare Parts, SpecialTools and Lubricants Lists: Submit, in the form of shop drawings, under
provisions of Section 01330.
C. Test Procedures: Submit under Provision of Section 01750.
D. Qperation and Maintenance Manuals: Submit under provision of Section 01850.
E. Other Documents or Materials: Submit any other document or material called for in this.
Section or the Sections pertaining to the individual equipment items.
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EQUIPMENT - GENERAL
1.05 QUALITY ASSURANCE
A. Manufacturer's Experience: Unless otherwise specified or directed by the Engineer,
furnished equipment shall be the product of a manufacturer with a record of at least 5 years
of successful applications.
B. Performance Affidavits
1. When required in the appropriate Equipment Specifications, the Contractor shall
submit manufacturer's Performance Affidavits for equipment to be furnished.
2. The Contractor must transmit to the Engineer three (3) copies of the Affidavit given
him by the manufacturer or supplier along with the initial Shop Drawing submittals.
Shop Drawings will not be reviewed prior to receipt of an acceptable Performance
Affidavit, if required.
3. By the Performance Affidavits, each manufacturer must certify to the Contractor and
the Owner, jointly, that:
a. the manufacturer has examined the Contract Documents;
b. the equipment, apparatus or process the manufacturer offers to furnish will
meet in every way the performance requirements set forth or implied in the
Contract Documents.
4. The Performance Affidavit must be signed by an officer of the basic corporation,
partnership or company manufacturing the equipment and witnessed by a notary
public.
5. The Performance Affidavit shall have the following format:
Addressed to: (Contractor) and (Collier County)
Reference: Collier County, Florida
North County Water Reclamation Facility
Compliance Assurance Project
Text: (Manufacturer's Name) has examined the Contract Documents and
hereby states that the (Product) meets in every way the performance
requirements set forth or implied in Section of the Contract
Documents.
Signature:
Corporate Officers shall be Vice President, or higher. (Unless
statement authorizing signature is attached.)
C. Shop Tests
1. All equipment so noted in the detailed equipment Contract Specifications, shall be
tested in the shop of the manufacturer in a manner which shall conclusively prove
that its characteristics comply fully with the requirements of the Contract Documents
and that it will operate in the manner specified or implied.
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EOUIPMENT - GENERAL
2. No such equipment shall be shipped to the project until the Engineer has been
furnished a'certified copyoftestresults and has notified the Contractor, in writing,
that the results of such. tests are acceptable.
3. When called for in the equipment Contract Specifications, arrangements shall be
made for the Engineer to witness performance tests in the manufacturer's shop.
4. Give timely notice, ten working days minimum, of readiness for testing.
5. Equipment test data must be submitted to the Owner\Engineer seven days prior to
the actual test date.
6. Engineer's expenses to be paid by Owner.
7. Five (5) certified copies of the manufacturer's actual test data and interpreted results
thereof, shall be forwarded to the Engineer for review.
8. When called for in the equipment Contract Specifications, all pump shop tests shall
be performed in accordance with the Hydraulic Institute Test Standards for Pumps.
Test points shall be taken in increments of three feet and shall clearly define the
operating range. Further readings shall be take!! at the specified operating points.
D. Services of Manufacturer's Representative
1. The contract prices for equipment shall include the cost of furnishing a competent
and experienced engineer or technician who shall be an employee or a contract
representative of the manufacturer and provide the services listed herein.
2. Duration of the Visits: Requirements for these services including duration of visits,
shall be as called for in other Sections of the Specifications. The times specified are
exclusive oflraveltime to and from the facility, are a minimum requirement, and shall
not be construed as to relieve the manufacturer of any additional visits to provide
sufficient service to place the equipment in satisfactory operation.
3. Installation and Field Testinq: Provide necessary assistance and instruction for
installation and adjustment. Ensure presence of manufacturer's representative
under provision of Section 01750.
4. Certification of Eq!Jjpment Compliance: Submit written certification jointly to the
Owner, the Engineer, and the Contractor that the equipment supplied or
manufactured by their organization has been installed and tested to their satisfaction,
and that all final adjustments thereto have been made. Certification shall include
date of final acceptance field test, as well as a listing of all persons present during
tests. Refer to Section 01750 for additional information and requirements.
5. Instruction: Instruct the Owner's designated operating personnel in operation and
maintenance of equipment, under provision of Section 01750.
6.. The manufacturer's representative shall sign in and out atthe office of the Engineer
on each day he is at the project.
0:11000 EOUIPMENT - GENERALDOC:07-09-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
EQUIPMENT - GENERAL
---- ----~----~- ,. "-~,.__,_--_",~-_,_,__",,^,'._,-"._'-
~_,_',--"~~-"'-'-'" .".-
1.06 PUBLIC PERMITS AND INSPECTIONS
A. It shall be the responsibility of the Contractor to inform the local authorities, such as building
and plumbing inspectors, fire marshall, OSHA inspectors, and others, to witness allrequired
tests for piping, plumbing, fire protection systems, pressure vessels, safety systems, etc., to
obtain all required permits and certificates, and pay all fees.
1.07 GUARANTEES, WARRANTIES
A. Provide guarantees and warranties under provisions of the "General Conditions", and as
specified in the Sections pertaining to the individual equipment items.
PART 2 -- PRODUCTS
2.01 GENERAL REQUIREMENTS
A. ment Desi n
1. Equipment and appurtenances shall be designed in conformity with ASTM, ASME,
AlEE, NEMA, and other generally accepted applicable standards and shall be of
rugged construction and of sufficient strength to withstand all stresses which may
occur during fabrication, testing, transportation, installation and all conditions of
operation.
2. All equipment in this Contract shall conform to the applicable sections ofDivision 16,
Electrical.
3. Details shail be designed for appearance as well as utility. Protruding members,
joints, corners, gear covers, etc., shall be finished in appearance. All exposed welds
on machinery shall be ground smooth and the corners of structural shapes shall be
rounded or chamfered.
4. Machinery parts shall conform within allowable tolerances to the dimensions shown
on the working drawings.
5. The corresponding parts of identical machines shall be made interchangeable.
6. All bearings and moving parts shall be adequately protected by bushings or other
approved means against wear, and provision shall be made for adequate lubrication
by readily accessible devices.
7. All machinery and equipment shall be safeguarded in accordance with the safety
codes of the USA and the State of Florida.
8. All rotating shafts, couplings or other moving pieces of equipment shall be provided
with suitable protective guards of sheet metal or wire mesh neatly and rigidly
supported. Guards shall be removable as required to provide access for repairs.
9. All equipment greater than 100 pounds shall have lifting lugs, eyebolts, etc., for ease
of lifting, without damage or undue stress exerted on its components.
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EOUIPMENT - GENERAL
B. Tolerances: Tolerances and clearances shall be as shown on the shop drawings and shall
be closely adhered to. Machine work shall in all cases be of high-grade workmanship and
finish, with due consideration to the special nature or function oflhe parts. Memberswithout
milled ends and which are to be framed to other steel parts of the structure may have a.
variation in the detailed length of not greater than 1/16 of an inch for members 30 feet or
less in length, and not greater than 1/8 of an inch for members over 30 feet in.length.
C. For service factors of electric motors, see Section 16150 entitled "Motors". Where load
classifications are not specified, best modern practice shall be used.
D. Vibration Isolators: All equipment subject to vibration shall be provided with vibration
isolators in accordance with the requirements of the Sections pertaining to the specific
equipment, or pads per manufacturer's wrillen recommendations.
E. Shop Fabrication: Shop fabrication shall be performed in accordance with the drawings and
the final reviewed and approved shop drawings.
F. Shop Paintinq
1. Cleaning: Before exposure to weather and prior to shop painting, all surfaces'shall
be thoroughly cleaned, dry and free from all mill/scale, r(Jst, grease, dirt and other
foreign matter.
2. Primin\l:AII equipment, motors and drives, with exception of stainless steel casings
drives, shall be shop primed, with a primer compatible with field painting as specified
in Section 09850.
3. Other Protection: Gears, bearing surfaces, and other similar surfaces obviously not
to be painted, shall be given a heavy shop coat of grease or other suitable rust-
resistant coating. This coating shall be maintained as necessary to prevent
corrosion during periods of storage and erection and shall be satisfactory to the
Engineer up to the time of the final acceptance.
2.02 EQUIPMENT SUPPORTS AND FOUNDATIONS
A. SgillpmentSugports: Equipment supports, anchors and restraints shall be designed for
static and dynamic loads.
B. Sgillpment Foundations
1. Provide equipment foundations as per manufacturer's written recommendations.
2. Mount all mechanical equipment, tanks, control cabinets, etc., on concrete pads
minimum 4-inch thick and extending six inches beyond the supported equipment, as
shown on standard structural details, unles.s otherwise shown or specified.
3. Provide templates, anchor bolts and accessories for mounting and anchoring
equipment.
4. Submit foundation drawings under provisions of Section 01330.
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EQUIPMENT - GENERAL
2.03 PIPE HANGERS, SUPPORTS, AND GUIDES
A. Provide under provisions of Division 15.
.,.-
2.04 FLANGES AND PIPE THREADS
A. All flanges on equipment and appurtenances provided under this Section shall confqrm to
ANSI B16.1 ,Class 125; orB16.5, Class150, unless otherwise shown. All pipe threads shall
be in accordance with requirements of Division 15.
2.05 INSULATING CONNECTIONS
A. General: Insulating bushings, unions, couplings, or flanges, as appropriate, shall be used in
accordance with the requirements of Division 15.
2.06 GASKETS AND PACKINGS
A. Gaskets shall be in accordance with the requirements of Division 15.
B. Packing around valve stems and reciprocating shafts shall be of compressible material,
compatible with the fluid being used. Chevron-type "V" packing shall be Garlock No. 432,
John Crane "Everseal," or equal.
C. Packing around rotating shafts (other than valve stems) shall be "O"-rings or similar seals, or
mechanical seals, as recommended by the manufacturer and accepted by the Engineer
2.07 STANDARDIZATION OF GREASE FITTINGS
A. The grease fittings on all mechanical equipment shall be such that they can be serviced with
a single type of grease gun. Fittings shall be hydraulic type, Alemite.
2.08 SAFETY REQUIREMENTS
A. Where work areas are located within a flammable or toxic gas environment, suitable gas
detection, ventilating, and oxygen deficiency equipment shall be provided. Workers shall be
equipped with acceptable breathing apparatus.
2.09 OVERLOAD PROTECTION
A. General: Unless otherwise specified in individual equipment Sections, aU major equipment
drives shall be providedwith mechanical or electrical overload protection device as specified
in the following paragraphs.
B. Mechanical Svstem: The overload protection shall be a mechanical device to provide for
reliable protection in the event of excessive overload. It shall be a ball detent type designed
for long term repeatability and life. It shall be infinitely adjustable by a single adjusting nul.
Once set it shall be tamperproof, and incorporate a torque monitoring and control system. It
shall activate an alarm set for 85 percent, and a motor cutout switch set for 100 percent of
maximum continuous running torque. A visual torque indication shall be provided and
oriented so that it may be read from the walkway. The dial shall be calibrated from 0 to 100
0:11000 EQUIPMENT - GENERAL.DOC:07-09-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
EQUIPMENT - GENERAL
percent of maximum continuous running torque. The design of the torque limiter should.
. initiate the. me.chanical disengagement of the: drive upon overload. Each unit shall be
suitable for outdoor/corrosive environments with a protective finish, corrosion inhibiting
lubricants and a stainless steel cover.
C. Electronic System: As an alternative to the mechanical system, the overload protection may
be an Electronic Torque Monitoring Control System capable of displaying torque, rpm's, one
level of overload and two levels of overload of the drive system. It shall incorporate a
time-delay for start-up and a voltage monitoring and compensation circuit for up to +/" 15
percentl/'ariatioh.
D. The overload device shall have an enclosure suitable for outdoor installation at temperatures
of 0-70 degrees C, and relative humidity up to 100%, unless unit is in an air conditioned
. environment where 95 percent shall be acceptable. A visual torque dial shall beprovided
and oriented so that it can be easily read from the walkway.
E. The torque monitoring system shall be calibrated to: alarm and shut down the system in the
event the torque drops to 50 percent of normal running; alarm at 85 percent of maximum
contin'uous running torque arid shut down the motor at maximum continuous running torque
of the equipment. The system shall be calibrated at the factory of the equipment
manufacturer and it shall be capable of monitoring twice the maximum continuous running
torque of the equipment.
F. Manufacturers, or EQ.!,@[:
1. American Autogard Corporation
2_ . Ferguson Machine Company.
2.10 SPARE PARTS, SPECIAL TOOLS AND LUBRICANTS
A. ~pare Parts
1. The Contractor shall obtain and submit from the manufacturer a list of suggested
spare parts for each piece of equipment: After review by the Engineer, Contractor
shall furnish such spare parts suitably packaged, identified with the equipment
number, and labeled. Contractor shall also fumish' the name, address, and
telephone number of the nearest distributor for each piece of equipment. All spare
parts are intended for use by the Owner, only after expiration of the guaranty period.
2. Spare parts shall be identical and interchangeable with original parts.
3. Parts shall be supplied in clearly identified containers, except that large or bulky
items may be wrapped in polyethylene.
4. Submit spare parts list containing following data:
a. Parts identification numbers;
b. Quantities offurnished items: terms such as "one lot of packing material" will
not be accepted;.
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EQUIPMENT - GENERAL
"-_.'._--'~--",~,--"-""-
_ "_.d..O_..,,'~_,_,_,_,... ,~~_
, ... ._."H"
c. Sizes and/or other applicable technical data;
d. Name(s), address(es) and Telephone number(s) of nearest parts
distributor(s).
5. Identify spare with numerical system:
a. Identify each part with a separate number;
b. Parts that are identical for equipment of different sizes shall have same part
numbers.
6. Painting requirements for spare parts shall be identical to those for original, installed
parts.
7. Spare Parts shall be stored under provisions of Section 01600, separately in a
locked area, maintained by the Contractor, and shall be turned over to the Owner in
a group prior to substantial completion.
B. ~ecial Tools
1. When indicated on the Contract Specifications, furnish one complete set of suitably
marked special tools and appliances which may be needed to adjust, operate,
maintain, or repair the equipment.
2. Special tools shall be supplied in a suitable Tool Chest, in steel, complete with a lock
and duplicate keys.
3. Submit a list of special tools supplied.
C. Non-Standard Tools: Hardware requiring non-standard tools shall not be used.
D. Lubricants
1. Provide one year supply of all recommended lubricating oils and greases;
2. Submit a list of lubricants providing following data:
a. Names of at least two manufacturers of standard oils and greases which may
be used interchangeably.
b. Grades of oils and greases shall be in accordance with the manufacturer's
recommendations.
c. Names, addresses, and telephone numbers of nearest distributors.
PART 3 -- EXECUTION
3.01 DELIVERY
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EQUIPMENT - GENERAL
A.. Time of Delivery: The Contractor shall notify manufacturers or suppliers that they will be
required to state and guarantee a firm delivery date for all equipment which they offer to
furnish. Delivery dates shall be as required by the Contractor to meellhe approved progress
schedule.
B. Factory assembled parts and components shall not be dismantled for shipment unless
permission is received in writing from the Engineer.
3.02 PROTECTION OF EQUIPMENT
A General: All equipment shall be boxed, crated, or otherwise protected from damage and
moisture during shipment, handling, and storage.
B. Corrosive Fumes and Humidity: All equipment shall be protected from exposure to corrosive
fumes and shall be kept thoroughly dry at all times.
C. Finished surfaces of all exposed equipment openings shall be protected by wooden blanks,
strongly built and securely attached thereto.
D. Finished iron or steel surfaces not painted shall be properly protected to prevent rust and
corrosion.
E. . After factory tests, all entralled water shall be drained prior to shipment and proper care shall
be taken to protect parts from the entrance of water during shipment, storage and handling.
F. Each box orpackage shall be properly marked to show its net weight in addition to its
content.
G. Storaqe of Eqyjpment and materials
1. Contractor shall store his equipment and materials at the job site in accordance with
the manufacturer's recommendations and as directed by the Owner or Engineer, and
in conformity to applicable statutes, ordinances, regulations and rulings of the public
authority having jurisdiction.
2. Material or Equipment stored on the job site is stored at the Contractor's risk. Any
damage sustained of whatever nature shall be repaired to the Engineer's satisfaction
at no expense to the Owner.
3. Contractor shall not store unnecessary materials or equipment on the job site and
shall take care to prevent any structure from being loaded with a weight which will
endanger its security or the safety of persons.
4. Contractor shall enforce the instructions of the Owner and Engineer regarding the
posting of regulatory signs for loadings on structures, fire safety, and smoking areas.
5. Contractor shall not store materials or encroach upon private property without the
written consent of the owners of such private property.
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~.~--~-_.._,
.. -~- -~,~".~.._.. "_.
,'"__ ..~__ 'U' _.~~u.,_.~.,~._"..._..'_'
6. Interior Storag~: Equipment having moving parts such as gears, electric motors, etc.
and/or instruments, control panels, switchgear shall be stored in a temperature and
humidity controlled building until such time as the equipment is to be installed.
7. Exterior Storag~: For exterior storage of fabricated products, the items shall be
placed on sloped supports above ground. Products subject to deterioration shall be
covered with impervious sheet covering; ventilation shall be provided to avoid
condensation.
8 Motor Space Heaters: Equipment with electric motors having space heaters shall
have the space heaters energized unless stored in a temperature and humidity
controlled building. Space heaters shall be energized at the time of delivery and
maintained until acceptance of the equipment.
3.03 INSTALLATION
A. General
1. All equipment shall be installed in accordance with acceptable procedures submitted
with the shop drawings and as indicated on the Drawings, unless otherwise accepted
by the Engineer.
2. The Contractor shall obtain written installation manuals from the equipment
manufacturer prior to installation. Equipment shall be installed strictly in accordance
with recommendations of the manufacturer. A copy of all installation instructions
shall be furnished the Engineer's field representative one week prior to installation.
3. The Contractor shall have on hand sufficient personnel, proper construction
equipment and machinery of ample capacity to facilitate the work and to handle all
emergencies normally encountered in work of this character. To minimize field
erection problems, mechanical units shall be factory-assembled insofar as practical.
4. Equipment shall be erected in a neat and workmanlike manner on the foundations at
the locations and elevations shown on the Contract Drawings.
5. For equipment such as pumping units, which require field alignment and
connections, the Contractor shall provide the services of the manufacturer's qualified
mechanic, millwright or machinist, to align the pump and motor prior to making piping
connections or anchoring the pump base.
B. Anchors and SUQports
1. The Contractor shall install and protect all necessary guides, bearing plates, anchor
and attachment bolts, and all other appurtenances required for the installation of the
devices included in the equipment specified.
2. Suitable templates shall be used by the Contractor when required in the detailed
Equipment Specifications or necessary for proper installation.
3. All equipment pedestals shall be doweled.
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4. . Pipe. sleeves or other means of adjusting anchor bolts shall be provided where
indiCated or required.
C. Levelinq: Equipment shall be leveled by first using sitting nuts on the anchor bolts and then
filling the space between the equipment base and concrete pedestal with non-shrink grout
unless alternate methods are recommended by the manufacturer and approved by the
Engineer (such as shim leveling pumps). Non-shrink grout shall be used.
D. Aliqnmenl: Equipment shall be field tested to verify proper alignment, operation as
specified, and freedom from binding, scraping, vibration, shaft runout, or other defects.
Drive shafts shall be measured just prior to assembly to ensure correct alignment without
forcing. Equipment shall be secure in position and neat in appearance.
E. Flushinq: All bearings, gear housing, etc.,. shall be flushed in accordance with the
manufacturer's recommendations to remove any foreign matter accumulated during
shipment, storage or installation.
F. Lubricants: The installation work shall include fumishing the necessary oil and grease for
initial operation. Lubricants shall be added in strict conformance with the manufacturer's
recommendation.
G. Couplinllll; The Contractor shall install the equipment in accordance with the equipment
manufacturer's printed recommendations.
H. Insulatinq Connections: All insulating connections shall be installed in accordance with the
manufacturer's printed recommendations.
I. eiPe Hanqers, SU!1Ports and Guides: Hangers shall be spaced in accordance with Division
15.
3.04 FIELD TESTING
A. Provide as specified, under provisions of Section 01750.
3.05 PAINTING
A. All exposed materials, except corrosion-resistant metals which have not been shop painted
shall be field coated as specified in Section 09850. Shop painted items which suffered
damage to the shop coating shall be touched up as specified in said Section.
3.06 START-UP SERVICES AND TRAINING
A. Provide under provisions of Section 01750.
3.07 FINAL CLEANING
A. Provide under provisions of Section 01740.
END OF SECTION
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EQUIPMENT - GENERAL
,~,.._-_.._-,.~._--,---
_.~..__.,_......"
SECTION 11100
PUMPS, GENERAL
PART 1 -. GENERAL
1.01 THE REQUIREMENT
A. Furnish and install all tools, supplies, materials, equipment and labor necessary for the
installation, testing, and placing into operation of all pumps and pumping appurtehances,
complete and operable, all in accordance with the requirements ofthe Contract Documents.
B. The provisions of this Section shall apply to all pumps and pumping equipment specified,
except where otherwise specified in the Contract Documents.
C. The Contractor, through a single Supplier, shall have unit responsibility for the furnishing and
functional operation of a given type of complete pump systems including the pumps, drives,
drive motors, speed control equipment (where variable speed drives are required) and
accessories. The designated single Supplier, however, need not manufacture more than
one part of the unit (pump, or motor and drive), but shall coordinate the design, assembly,
testing, and erection of the unit(s) as specified herein. Reference the Section entitled
"Variable Frequency Drives" for Single Supplier requirements (Article 1.03) and drive testing
at the pump manufacturer's facilities (Article 3.02). In addition, reference individual pump
sections for unit responsibility requirements for combined pump, motor and drive installation.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. Codes:
The Building Code, as referenced herein, shall be the Florida Building Code, as specified in
Section entitled "Reference Standards."
ANSIINFPA 70 National Electric Code
B. Commercial Standards:
ANSI B16.1
Cast Iron Pipe Flanges and Flanged Fittings, Class 25,125,
250 and 800.
ANSI 816.5
Pipe Flanges and Flanged Fittings, Steel Nickel Alloy and
Other Special Alloys.
ANSIIASME B31.1
Power Piping.
ANSIIASME B73.1 M
Specifications for Horizontal End Suction Centrifugal Pumps
for Chemical Process.
ANSIIASME B73.2M
Specifications for Vertical In-Line Centrifugal Pumps for
Chemical Process.
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NCWRF COMPLIANCE ASSURANCE PROJECT
PUMPS, GENERAL
ANSI/AWWAE101
Deep Well Vertical Turbine Pumps - Line Shaft. and.
Submersible Types.
ANSI/IEEE 112
Test Procedure for Polyphase Induction Motors and
Generators.
ANSI/IEEE 115
Test Procedure for Synchronous Machines.
ASTM A 48
Specification for Gray I ron Castings.
ASTM A 470
Specification for Vacuum- Treated Carbon and Alloy F'orgings
for Turbine Rotors and Shafts.
ASTM A 536
Specification for Ductile Iron Castings.
ASTM E 448
Recommended Practice for Scleroscope Hardness Testing of
Metallic Materials.
ASTM B 62
Specification for Composition Bronze or Ounce Metal
Castings.
Hydraulic Institute
Standards for Centrifugal, Rotary, and Reciprocating Pumps.
1.03 CONTRACTOR SUBMITTALS
A. Shop DrawinQ.2;, Shop drawings of all pumps shall be submitted to the Engineer in
accordance with Section entitled "Submittals." Shop drawings shall contain the following
information:
1. Pump name, identification number and specification number.
2. Performance curve and pump data.
3; Pump hydraulic characteristic curves, efficiencies, required NPSH, and horsepower
curves at pump rotative speeds corresponding to the conditions specified. For
variable speed driven pumps, curves shall be submitted at minimum, intermediate
and maximum operating speed as well as for operation with the variable speed
drive bypassed (across the line). Require the manufacturer to indicate points on the
H/Q curves, and the limits recommended for stable operation between which the
pumps may be operated without surge, cavitation and vibration. The stable
operating range shall be as wide as possible based on actual hydraulic and.
mechanical tests. Motors and drives shall be furnished so that they are non-
overloaded throughout the entire stable operating range of the pump. The use of
service factors in this determination will not be allowed.
4. General cutaway sections, materials, dimension of shaft projections, shaft and
. keyway dimensions, shaft diameter, dimension between bearings, general
dimensions of pump, suction head bolt orientation, design or baseplate, and anchor
bolt locations and forces.
5. Electrical data including control and wiring diagrams.
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6. Pump.drive and motor data in accordance with Section entitled "Electric Motors."
7. Calculations for B-10 bearing life, shaft size, coupling size and anchor bolt size.
8. Uncrated weight of the pump, weight of heaviest part of pump.
9. . Foundiy certificates and results of Brinnell hardness testing showing compliance to
ASTM A 532. Each individual casting shall be Brinnelltested in a minimum of two
places, in an area of representative casting thickness to ASTM Method E-10.
Results shall be certified by a registered professional engineer. Test results shall
verify the satisfaction of the required Brinnefl hardness of the finished product as
specified in respective subsections.
10. Where pump and motor speeds are to be regulated by variable speed drives, the
Contractor shall coordinate, furnish and exchange all necessary requirements with
the respective equipment manufacturers to ensure compatibility and shall submit
pump, motor and variable speed drive shop drawings together as a complete
system.
B. Certification: Obtain written certification from the pump manufacturer, stating that the
equipment will efficiently and thoroughly perform the required functions in accordance with
these Specifications and as indicated on the Drawings, Contractor shall have unit
responsibility for coordination of all equipment, including motors, variable speed drives,
controls, and services required for proper installation and operation of the completely
assembled and installed pumps. Submit all such certificates to the Engineer.
C. 0 & M Manuals: Prior to start-up, furnish complete operations and maintenance manuals in
accordance with Section 01830.
D. ~pare Parts: Obtain from the pump manufacturer a set of the specified herein spare parts of
all items of each pump, motor, and drive, subject to wear, such as seals, packing, gaskets,
nuts, bolts, washers, wear rings, etc., as well as a set of spare bearings. All parts shall be
suitably packaged and labeled in a box as described above for tools. Required spare parts
shall be as specified in individual section of the specification.
E. Maintenance: Printed instructions relating to proper maintenance, including lubrication, and
parts lists indicating the various parts by name, number, and diagram where necessary, shall
be furnished in duplicate with each unit or set of identical units in each pumping station. A
recommended spare parts list shall be included.
F. Field Procedures: Instructions for field procedures forerection, adjustments, inspection, and
testing shall be provided with the shop drawings.
1.04 QUALITY ASSURANCE
A. Performance Curves: All centrifugal pumps shall have a continuously rising curve. In no
case shall the required horsepower at any point on the performance curve exceed the rated
horsepower of the motor or drive. Safety factors will not be considered in determining
compliance with this requirement. Impellers shall be selected to allow for future increase by
head or capacity of 15% of impeller.
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B. fu!!jpment T estihQ: The Contractor shall be responsible for the coordination of the following
tests of each pump, drive, and motor. Pump tests shall utilize the actual motors and.
pump-motor bases to be-.furnished with the. pumping equipment. Use of the pump
manufacturers standard test motors is not acceptable.
1. General: Tests shall be performed in accordance with the Standards of the
Hydrauliclnstitute, Inc. Tests shall be performed on the actual assembled unilfrom
shut-off head condition to 25 percent above the required design capacity. Prototype
model tests will not be acceptable. Pump shop tests shall be made by the
manufacturer and certified curves shall be submitted prior to witnessed tests. The
shop tests shall consist of standard IEEE tests of motors, operation of the pumps
and motors installed on the actual pump and motor bases to be furnished for proper
balance of equipment and all other requirements as specified under this section.
Pumps motors and drives shall be factory witness-tested, as defined herein. All
electronic transducers, meters, gauges, and test instruments shall be calibrated
within 30 days prior to the scheduled test and certified calibration data shall be
provided. Differential pressure type flow meters, such as venturis are preferred and
shall have been calibrated, and their accuracy certified within the past 12 months. In
case offailure of any unit to meet the test requirements, the manufacturer shall make
such alterations as are necessary, and the tests shall be repeated without additional
cost to the Owner until the equipment test is passed.
2. Factory Witnessed Tests: All pumps, variable speed drives, and motors, 150
horsepower and larger shall be factory-tested as complete, assembled units, as
specified above, and witnessed by a representative of the Engineer. The Contractor
Shall give the Engineer a minimum of two weeks notification prior to the test. Test
results shall be submitted to the Engineer in accordance with the Section entitled
"Submittals". No equipment shall be shipped until the test data is acceptable to the
Engineer.
3. Field Tests: All pumping units shall be field tested after installation, in accordance
with the Contract Documents, to demonstrate satisfactory operation, without causing
excessive noise, vibration, cavitation, and overheating of the bearings. The field
testing shall be performed in the presence of an experienced field representative of
the manufacturer of each major item of equipment, who shall supervise the following
tasks and shall certify in writing that the equipment and controls have been properly
installed, aligned, lubricated, adjusted, and readied for operation:
a. Start-up, check, and operate the equipment over the entire speed range.
The vibration shall be within the amplitude limits recommended in the
Hydraulic Institute Standards and it shall be recorded at a minimum of four
pumping conditions defined by the Engineer. Check pump/motor coupling
alignment.
b. Pump performance shall be documented by obtaining concurrent readings,
showing motor voltage, amperage, pump suction head, and pump discharge
head, for at least four pumping conditions at each pump rpm. Each power
lead to the motor shall be checked for proper current balance.
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_'."d"_""___
. c. Bearing temperatures shall be determined by a contact-type thermometer. A
running time of at least 20 minutes shall be maintained for this test, unless
liquid volume available is insufficient for a complete test.
d. Electrical and instrumentation testing shall conform to applicable sections of
these Specifications.
e. The field testing shall be witnessed by the Owner or its representative. In the
event any of the pumping equipment fails to meet the above test
requirements, it shall be modified and retested in accordance with the
requirements of these Specifications. The Contractor shall then certify in
writing that the equipment has been satisfactorily tested, and that all final
adjustments thereto have been made. Certification shall include date offinal
acceptance test, as well as a listing of all persons present during tests, and
resulting test data. The costs of all Work performed in this Paragraph by
factory-trained representatives shall be borne by the Contractor.
4. Acceptance: In the event of failure of any pump to meet any of the above
requirements or efficiencies, make all. necessary modifications, repairs, or
replacements to conform to the requirements of the Contract Documents and the
pump shall be re-tested at no additional compensation, until found satisfactory.
1.05 SERVICES OF MANUFACTURER'S REPRESENTATIVE
A.. The Contractor shall provide the services of a qualified manufacturer's technical
representative who shall adequately supervise the installation and testing of all equipment
furnished under this Contract and instruct the Contractor's personnel and the Owner's
operating personnel in its maintenance and operation as outlined in the General Conditions.
and Division 1. As a minimum the services of the manufacturer's representative shall be
provided for periods stated in the following schedule unless additional time and/or
requirements are identified in specific Sections:
INSTALLATION/OPERATION TRIP (DAYS)
2 Trips, 2 Days
B. Any additional time required to achieve successful installation and operation shall beatthe
expense of the contractor. The manufacturer's representative shall sign in and out at the
office of the Resident representative on each day present at the project.
C. Owner Furnished Equipment: The contractor shall coordinate work with the services of a
qualified manufacturer's technical representative which will be provided under a separate
Contract. This manufacturer's representative will supervise the installation and testing of all
equipment furnished under a separate Contract and instruct the Contractor's personnel and
the Owner's operating personnel in its maintenance and operation.
1.06 CLEANUP
A. After completion of the installation and testing, remove all debris from the site, clean all the
pumping equipment and controls, and hand over its work in perfect operating condition. .
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PUMPS, GENERAL
1.07 GUARANTEES, WARRANTIES
A. After. completion, furnish to the Owner the manufacturer's written guarantees, that the
pumping equipment will operate with the published efficiencies, heads, and flow ranges and
meetlhese Specifications. Also furnish the manufacturer's warranties as published in its
literature and as specified.
PART 2 --PRODUCTS
2.01 GENERAL
A. Wherever it is specified that a single Supplier shall be responsible for the compatible and .
successful operation of the various components of any pumping equipment, it shall be
understood to mean that the. Contractor shall furnish and install only such' pumping
equipment as the designated single Supplier will certify is suitable for use with its equipment
and with the further understanding that this in no way constitutes a waiver of any specified
requirements.
B. All manufactured items provided under this Section shall be new, of current manufacture,
and shall be the products of reputable rhanufacturers specializing in the manufacture of such
products: Such manufacturers shall have had previous experience in such manufacture and
the Contractor shall, upon request of the Engineer, furnish the names of not less than 5
successful installations of the manufacturer's equipment of comparable nature to that
offered under this contract.
C. All combinations of manufactured equipment which are provided under these Specifications
shall be entirely compatible, and the Contractor shall be responsible for the compatible and
successful operation of the various components of the units conforming to specified
requirements. Each unit of pumping equipment shall incorporate all basic mechanisms,
coupling, electric motor or engine drive and unit mounting. All necessary mountings and
appurtenances shall be included.
D. Where two or more units of the same type and/or size of pumping equipment are required,
such units shall all be produced by the same manufacturer.
2.02 MATERIALS
A. All rnaterials employed in the pumping equipment shall be suitable for the intended
application; material not specifically called for shall be high-grade, standard comme.rcial
quality, free from all defects and imperfection .that might affect the serviceability of the
product for the purpose for whicn it' is intended, and shall conform to the following
requirements unless otherwise specified in individual pumping equipment Specifications:
1. Cast iron pump casings and bowls shall be of close-grained gray cast iron,
conforming to ASTM A 48, or equal.
2. Bronze pump impellers shall conform to ASTM B 584.
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3. Stainless steel pump shafts shall be of Type 400, Series. Miscellaneous stainless
steel parts shall be of Type 304 except in septic environment where they shall be
Type 316.
4. All anchor bolts, shims, nuts and washers shall be type 316 stainless steel, unless
otherwise specified in individual pumping equipment Specifications.
2.03 PUMP APPURTENANCES
A. Nameplates: Each pump shall be equipped with a stainless steel nameplate indicating rated
head and flow, pump size and type, impeller size, pump speed, and manufacturer's name
and model and serial number.
B. Solenoid Valves: Where required, the pump manufacturer shall furnish and install solenoid
valves on the water or oil lubrication lines. Solenoid valve electrical rating shall be
compatible with the motor control voltage and shall be furnished complete with all necessary
conduit and wiring installation from control panel to solenoid.
C. Pressure Ga~ All pumps (except sump pumps) shall be equipped with pressure gages
installed on the discharge lines. Pressure gages shall be located in a representative
location, where not subject to shock or vibrations, in order to achieve true and accurate
readings. Pressure gages shall be furnished in conformance with Division 17 of these
documents.
D. Variable Speed Drives: Variable speed drives, drive motors, speed control equipment, and
accessories shall be furnished in accordance with Division 16 of these documents.
2.04 PUMP REQUIREMENTS - GENERAL (DRY PIT)
A. Flanqes: Suction and discharge flanges shall conform to ANSI standard B16.1 or B16.5
dimensions.
B. Handholes: Handholes on pump casings shall be shaped to follow the contours of the
casing to avoid any obstructions in the water passage.
C. Drains: All gland seals, air valves, and drains shall be piped to the nearest fioor sink or drain
with galvanized steel pipe or copper tube, properly supported with brackets.
D. Mechanical Seals: Mechanical seal designs shall be selected for highest reliability and for
rugged service. Mechanical seals shall be provided where required by the Specifications.
Unless the pump manufacturer recommends better seal for a specific application,
mechanical seals shall be furnished as specified in individual pumping equipment sections.
E. For all seal arrangements, a buffer fluid must be circulated a minimum 20 psi above suction
pressure, or as required by manufacturer, in order to maintain reliable seal performance.
F. Preferred seals for all services other than chemicals and corrosives should be equipped with
nonclogging, single coil springs and nonsliding, internal, secondary elastomers. Metal parts
are to be of 300 series, stainless steel.
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G. Drive CouplinQs and ShaftinQ; Flexible couplings for direct driven pumps shall be as
manufactured by Falk, Dodge or equal and shall be furnished with guards in accordance
with OSHA Rules and Regulations. Spacer couplings shall be provided where necessary to
allow removal of the pump rotating element without disturbing the driver.
H. Where so indicated on the Drawings or specified, pumps shall be driven with drive shafting
consisting of one or more shaft connected with universal joints, steady bearings as required,
splined slip joints, and coupling flanges. The drive shafts shall be types WL, WV-A, WV-B,
orWV-C as manufactured by H.S. Watson Company, equivalent models by Parrish Power
Products, or equal.
I. Drive shaft assemblies shall be sized for AFBMA B-10 bearing lifetimes of not less than
60,000 hours unless otherwise specified hereinafter in the individual pump Specifications. In
addition, shafting length and stiffness shall be such that critical speed conforms to the
following requirements:
1. For constant speed pumps, operating speed shall not be more than 75 percent of
critical speed, nor within the range of 44 percent to 56 percent of critical speed.
2. For variable speed pumps, full speed shall not be more than 44 percent of critical
speed. This may require a heavier shaft than is required to achieve the above stated
lifetime requirements.
J. All shafting shall be dynamically balanced in accordance with the recommendations of the
shafting manufacturer.
K. Drive shaft dimensions and, where applicable, the location of steady bearing supports are
shown approximately to scale on the drawings. Exact dimensions and support
arrangements will depend on the motor and pump which the Contractor proposed to install.
Submit complete shop drawings and Specifications to the Engineer for review of the drive
shaft arrangement proposed.
L. The drive shaft manufacturer shall furnish to the Contractor complete installation instructions
for the equipment furnished. The Contractor shall install the drive shaft assemblies per the
manufacturer's instructions. The shafts shall be installed with a minimum of one degree
offset and a maximum of five degrees offset at each universal joint.
M. Furnish and install a heavy-duty shaft guard for all drive shafting which is less than seven
feet aboVe floor or platform level in accordance with the provisions of Paragraph 1910.210 of
OSHA Rules and Regulations. Provision shall be made in the guard as necessaryJor
lubrication and inspection access of the joints and bearings without the necessity of
removing the entire guard assembly.
N. All drives and shafting shall comply with the requirements of Section entitled "Materials and
Equipment" of the Specification.
O. The bearing life for all pump, motor and drive bearings shall be B-1 0-60,000 hours.
P. Grout holes shall be provided in baseplates.
0:11100 Pumps - GeneraLdoc:07-Q9-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
PUMPS, GENERAL
~ _______._.. .~_....__, , ,'_."_"" .._"...,_....,.,..".mn...'_.._...._.._,~_._
_ _ .__..._,.'._,._K"~__~..,_._~...~_______.~
PART 3 --EXECUTION
3.01 INSTALLATION
A. General: Pumping equipment shall be installed in accordance with the manufacturer's
recommendations, acceptable procedures submitted with the shop drawings. and as
indicated on the Drawings, unless otherwise accepted by the Engineer.
B. Pumps shall be set upon level, fully grouted baseplates.
C. AIiQnmenl: Equipment shall be field tested to verify proper alignment, operation as
specified, and freedom from binding, scraping, vibration, shaft runout, or other defects.
Pump drive shafts shall be measured just prior to assembly to ensure correct alignment
without forcing. Equipment shall be secure in position and neat in appearance.
D. Lubricants: The installation work shall include furnishing the necessary oil and grease for
initial operation.
E. Connections: All motors shall be connected to the conduit system by means of a short
section (18-inch minimum) of weatherproof flexible conduit, unless otherwise indicated. For
connections for NO.6 AWG and smaller wire size, the Contractor shall furnish flexible
conduit with an acceptable grounding conductor inside the flexible section. For connections
of NO.4 AWG or larger wire size, the Contractor shall install a grounding conduction in the
conduit and terminate at the motor control center with an acceptable grounding clamp.
3.02 PROTECTIVE COATING
A. All pumps and motors shall be shop primed, with a primer compatible with field painting as
specified herein. Shop painted items which suffered damage to the shop coating shall be
touched up as specified in Section entitled "Painting."
B. Gears, bearing surfaces, and other similar surfaces obviously not to be painted shall be
given a heavy shop coat of grease or other suitable rust-resistant coating. This coating shall
be maintained as necessary to prevent corrosion during periods of storage and erection and
shall be satisfactory to the Engineer up to the time of the final acceptance.
END OF SECTION
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PUMPS, GENERAL
SECTION 11180
CHEMICAL RESISTANT SUMP PUMPS
PART 1 -" GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, install, test, and. place in satisfactory operation one
chemical resistant sump pump as shown on the Drawings, specified in this Section, and
required for a complete installation.
B. The Contractor shall furnish and deliver to the Owner, at the project site, one spare
chemical resistant sump pump, as specified in this Section.
C. All equipment specified in this Section shall be designed and furnished by the pump
manufacturer, who shall be responsible for the suitability and compatibility of all included
equipment.
1.02 GENERAL INFORMATION AND DESCRIPTION
A. General
1. Furnish two chemical resistant sump pumps as specified in this Section.
2. Install one chem.ical resistant sump pump as shown on the Drawings. Deliver
one chemical resistant sump pump to the Owner, at the project site.
B. Chemical Resistant Sump Pumps
1. . Pump Type: Submersible
2. Liquid Pumped: Rain water and drainage from effluent piping.
3. Liquid Temperature: 750F to 110oF.
4. Design Conditions for Chemical Resistant Sump Pumps
a. Design Total Head: 20 feet
b. Design Discharge Rate: 45 to 55 gpm
5. Chemical Resistant Sump Pump Motor
a. Type: Submersible
b. Service: Constant speed
c. Motor Horsepower: 3/4
d. Motor Electrical Characteristics: 115/230 volts, single phase, 60 Hertz
0:11180 Chemical Resistant Sump Pumps.doc:07-10-09 11180-1
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CHEMICAL RESISTANT SUMP PUMPS
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6. Connections
a. Type: NPT.
b. Discharge: 1-114-inch
7. Controls: Built-in level controls.
1.03 SUBMITTALS
A. The Contractor shall submit shop drawings in accordance with the procedures and
requirements set forth in the Section titled "Submittals". The Contractor shall also
submit the following information:
1. Material and Equipment Specifications, including complete parts list and all
warranties and guarantees.
2. Pump curve.
3. Identification, description, and envelope dimensions for each separately installed
subassembly or piece of equipment, and the associated connection dimensions.
4. Field and installation information, including mounting requirements, anchor bolt
pattern, access, and approximate total weight of each piece of equipment.
B. Each submittal shall be identified by the applicable Equipment Identification Number and
Specification Section.
C. The Manufacturer shall also submit a listing of components which are considered to be
normal wear items and shall state their estimated replacement interval and current price.
1.04 OPERATION AND MAINTENANCE MANUALS
A. Furnish Operation and Maintenance manuals, shop drawings, and other material
required as specified in Section tilled "Submittals".
PART 2 -- PRODUCTS
2.01 MANUFACTURERS AND MODELS
A. Stancor Pumps, Model U6K-ES CHEM-RESIST;
B. Or equal chemical resistant sump pumps.
2.02 CHEMICAL RESISTANT SUMP PUMPS, GENERAL
A. Each chemical resistant sump pump shall include submersible pump and direct
connected submersible motor.
B. Pumps and motors shall be furnished by the pump manufacturer.
2.03 CHEMICAL RESISTANT SUMP PUMPS
0:11180 Chemical Resistant Sump Pumps.doc:07-10-09
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CHEMICAL RESISTANT SUMP PUMPS
A. Pumps: Vertical centrifugal type, single stage, for submerged operation, with strainer
base, open impeller (10 mm solids handling capacity) 1-1/4-inch male pipe thread (MPT)
horizontal discharge branch.
B. Bearings: Combined shaft for motor and pump, two grease lubricated ball bearings.
C. Shaft Seals
1. Pump end: Silicon carbide mechanical seal, unaffected by "dry" running.
2. Motor end: Radial lip seal.
D. Motors: Fully encapsulated submersible motor with built-in overloadllhermal cut-out,
watertight enclosure, Class B insulation, 3600 RPM supplied with separate level control
type NElND. Suitable for continuous operation at a maximum water temperature of
400C (1 040F) with partly immersed motor, or 600C max. (1400F) if fully immersed.
E. Materials: High impact, corrosion resistant plastic pump body, top cover, impeller,
stainless steel encapsulated motor, stainless steel rotor shaft, and fasteners.
2.04 NAMEPLATES
A. Equipment nameplates. shall be stainless steel. Nameplates shall be engraved or
stamped. Fasten nameplates to equipment in an accessible location with NO.4 or larger
oval head stainless steel screws or drive pins.
B. Nameplates shall contain the manufacturer's name, model, serial number, size,
characteristics, and appropriate data describing the machine performance ratings.
2.05 CLEANING AND PACKING
A. Thoroughly clean equipment, components, and subassemblies of water, sand, dirt, grit,
weld splatter, grease, oil, and other foreign materials before preparation for shipment..
Protect machined surfaces against physical damage and exposure to the elements
during shipping, unloading, and storage at the jobsite.
B. Pack equipment to prOVide ample protection from damage during shipment, handling,
and storage. Coat gears, bearing surfaces, and other surfaces not to be painted with
grease or other suitable rust-resistant coating.
C. Cap and seal openings.
PART 3 -- EXECUTION
3.01 INSTALLATION
A. Inspection
1. Examine sumps and piping.
2. Correct irregularities prior to pump installation.
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NCWRF COMPLIANCE ASSURANCE PROJECT.
CHEMICAL RESISTANT SUMP PUMPS
B. Installation
.-..
1. Install pumps in accordance with the Drawings, in accordance with pump
manufacturer's written instructions, and as specified in this Section.
2. Make sure that connections are tight.
3. Install pumps so that pumps are uniformly supported and plumb.
3.03 TESTING
A. Pumps and Motors
1. Test pumps and motors after pumping units are installed.
2. Perform field tests in the presence of the following:
a. Engineer; and
b. Pump manufacturer's field representative.
3. Field tests performed when Engineer is not present shall be repeated at no
additional cost to the Owner.
4. Failed tests shall be repeated at no additional cost to the Owner.
5. Test pumping units in accordance with pump manufacturer's written instructions.
As a minimum, start-up, check, and operate pumps.
B. Correction of Defects
1. If any defects are detected during testing, correct defects by adjustment, repair,
modification, or replacement.
2. Re-test equipment following correction of defects.
3. Re-test equipment at no additional cost to Owner.
3.04 CLEANING
A. Clean grease, oil, or any other debris from exposed exterior surfaces of equipment.
END OF SECTION
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CHEMICAL RESISTANT SUMP PUMPS
SECTION 11300
. . DIFFUSERS, FINE BUBBLE, FULL FLOOR
PART 1 7- G.ENERAL
1.01 SCOPE
A. The Contractor shall furnish, shop witness test, install, adjust, field test, protect and place in
satisfactory operation the diffuser system as described below and as shown on the Contract
Drawings.
B. The Contractor shall cap some of the existing membrane diffuser elements so as to provide
a new diff\lser distribution throughout the aeration basins. The existing and proposed
diffuser distribution is provided in Table 11300-1.
C. The equipment for the proposed new diffusers shall be furnished complete with all
accessories, special tools, spare parts, base attachments, mountings, anchor bolls and
other appurtenances as specified or as may be required for a satisfactory installation.
1.02 GENERAL INFORMATION AND DESCRIPTION
A. The flexible membrane diffuser elements and in-basin piping shall be designed to transfer
oxygen from the air into an activated sludge mixed liquor in an aeration tank and to create
adequate mixing to keep the mixed liquor solids in suspension. The mixed liquor
characteristics and physical features of the aeration tanks are described below:
Design Criteria
Average
Equalized
MMADF'
Aeration Tanks:
Flow in MGD
Suspended Solids Cone. m9/1
Wastewater Temperature OF
13.3
3,000
70
18.5
4,000
80
1. Equalized MMADF = Maximum Monthly Average Daily Flow x Peak Factor of 1.15 Controlled By Equalization
Basins
Tank Physical Features:
Number of Tanks
Tank Size, Each
Aeration ZonelTank
Sidewater Depth (MMADF)
Diffuser Submergence
(MMADF)
12 modified existing
20 feet by 240 feet
20 feet by 190 feet
20.11 feet
19.11 feet
B. The Contractor shall cap some oflhe existing membrane diffusers by installing orifice plugs
on individual diffuser orifices in accordance with manufacturer's recommendations. Some of
the existing membrane diffuser elements shall be capped so as to provide a new diffuser
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NCWRF COMPLIANCE ASSURANCE PROJECT
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-",~"^-,-,,.._~,<,~---~'-"".~"--'---"
distribution throughout the aeration basins as described below:
Grid
Table 11300c1
Current Process Air Diffuser Distributiol1
Grid Len9th Diffusers Total Diffuser % ofTotal
(ft) per Basin Diffusers Density 1 Diffusers
50 340 4,080 0.150 46.
50 264 3,168 0.117 36
40 132 .1,584 0.073 18
190 736 8,832 " 100
Grid 3
Grid 2
Grid 1
Total
Proposed Process Air Diffuser Distribution
Grid 4 (new) 50 351 4,212 0.144 39
.
Grid 3 (modified) 50 252 3,024 0.103 28
Grid 2 (modified) 50 189 2,268 0.078 21
Grid 1 (modified) 40 108 1,296 0.055 12
Total 190 900 16,200 " 100
1.Area diffusers / Area Tank
C. The aeration tank air diffusers shalf not exceed the maximum head losses specified in this
Section under Paragraph 2.07, Performance Requirements.
D. When aeration tanks are drained and the existinq diffusers are not submerqed for extended
periods of time, it shall be required to protect the diffusers from sunli9.h!. Protection from
sunlight exposure shall be accomplished by the manufacturer's suggested method of
opening fixed joints and loosening support band clamps, then rolling each air distributor
section over 1800. Care shalf be taken not to damage diffuser heads or membranes during
this process. The air distributor sections shall remain in such a position until aeration tank is
brought back online. New diffusers exposed to sunlight for extended periods of time shall
also be protected using said method. The Enqineer, in consultation with the manufacturer,
shall determine the maximum amount of time that new or existinq diffusers may be exposed
to sunli!lht without beinq submerq~.
1.03 MANUFACTURER'S RESPONSIBiLITY
A. The fine bubble diffuser system shown on the drawings is for illustrations purposes only.
The aeration equipment manufacturer shall be responsible for system layout. It is the intent
of these specifications that the aeration equipment Supplier/Manufacturer (hereinafter
called the manufacturer) shall furnish completely engineered systems suitable for the
operating conditions outlined in these specifications. Fine bubble air diffuser equipment
such as air manifold sizes, air header sizes and spacing, air manifold header supports and
spacing, diffuser spacing, etc., required to comply with all of the requirements of this
specification shall be defined by the manufacturer and be furnished and installed complete.
B. The materials covered by these Specifications are intended to be standard equipment of
proven reliability manufactured by reputable manufacturers having experience in the
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production of such equipment. The equipment furnished shall be designed,constructed,
and installed in accordance with the best practices and methods and shall operate
satisfactorily when installed as shown on the Contract Drawings and operated per the
manufacturer's recommendations.
C. All material shall be new and both workmanship and materials shall be of the very best
quality, totally suitable for use with compressed air for the service conditions indicated in the
Contract Documents. All components of the fine bubble diffuser system shall have been
used successfully by the manufacturer on previous installations. The manufacturer shall
note any new or changed component on the submittal drawings for Engineer acceptance.
D. Design of support systems, system for expansion and contraction, and diffuser assemblies
shall be the full undivided responsibility of the equipment manufacturer. The system for
expansion and contraction and all diffuser system components shall be designed for a
temperature range of a minimum of 10 degrees Fahrenheit (diffuser headers out of service
and exposed) to amaximum of 130 degreeS Fahrenheit (diffuser in operation with limited
submergence of the diffusers).
,
E. The fine bubble aeration system shall be supplied as complete systems from a single
manufacturer with a minimum of 10 years experience in supplying complete diffused air
systems and 5 years experience supplying fine bubble diffusers. The fine bubble system
manufacturer shall supply all system components downstream of the butterfly valves on
the air pipe serving each diffuser grid. The system shall include flexible membrane fine
bubble diffusers and all submerged piping, supports, anchors, etc. as specified herein or as
otherwise required for a complete system. Fine bubble aeration system shall be as
manufactured by Sanitaire -ITT Corp., or Aquarius Technologies Inc. No substitutions shall
be allowed.
1.04 CONTRACTOR'S RESPONSIBILITY
A. The Contractor shall arrange for the manufacturers to furnish the services of a qualified
manufacturer's technical representative with at least three years of experience, who is
regularly involved in the inspection,' installation, start-up, testing, operation, and
maintenance of fine bubble systems.
B. The service person(s) shall:
1. Witness installation procedures and check installation.
2. Witness and check operation at start-up.
3. Assist the Contractor in performing field testing and prepare a written report as
specified below.
4. Troubleshoot and correct any equipment problems which are noted during initial
operation.
5. Submit written certification signed by the service person and a corporate officer, Vice
President or higher, that the system has been properly installed, tested, and adjusted
and that the system operates as required, including dates of field tests and a listing
of all persons present during the tests.
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. .
6. . Investigate and correct any equipment problems which may arise. during the
guarantee period of the equipment.
7. Instruct the Owner's personnel in proper operation and maintenance of the
equipment.
C. Such services shall be furnished at no additional cost to the Owner and shall entail a period
of not less than the following:
Fine Bubble Aeration Equipment
3 days and a minimum of 2 site visits
D. Any additional time required to achieve successful installation and operation shall be at the
expense of the Contractor. The manufacturer's representative shall sign in and out at the
office of the Engineer's Resident Project Representative on each day at the project. A
written report covering the representative's findings and installation approval shall be mailed
directly to the Engineer covering all inspection and outlining in detail any deficiencies noted.
E. The times specified are exclusive of traveltime to and from the facility and shall not be
construed as to relieve the manufacturer of any additional visits to provide sufficient service
to place the equipment in satisfactory operation.
.
1.05 SUBMITTALS
A. The Contractor shall submit Shop Drawings, Op~ration and Maintenance Instructions and
other information as specified in accordance with the Specifications. Shop Drawings shall
also include complete erection, installation, and adjustment instructions and
recommendations.
B. Complete description of the fine bubble diffused aeration equipment which shall include the
elbow and flange at the top of the drop pipes, the drop pipes, connections to the air
manifolds, air distribution headers, air balancing orifices, diffusers, drain lines, supports,
anchorage details, gaskets, bolts, nuts and washers and all materials used.
C. A list of the operating installations for aeration equipment of the size and application as
proposed by the manufacturer to meet these specifications. Names and telephone numbers
of individuals to contact at the above installations shall be included.
D. A detailed drawing of the proposed aeration equipment layout for each basin as shown on
the Drawings, showing all air line sizes and lengths, distances between air distribution
headers, and the location of all diffusers, supports, and expansion joints.
E. Diffusers, diffuser connector, balancing orifices, and system head loss curves covering the
range of airflow rates specified under PERFORMANCE REQUIREMENTS.
F. Calculations showing the distribution and balancing of air within each basin for the minimum
and maximum airflow rates specified under PERFORMANCE REQUIREMENTS.
.
G. The manufacturershall guarantee the oxygen transfer efficiency oflhe equipment. Certified
oxygen transfer efficiency and head loss curves shall be submitted based on previous
testing conducted in accordance with the latest revision of ASCE Standards for the design
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submergence and range of operating airflows specified herein. The diffuser manufacturer
. shall submit performance and operational guarantees fully warranting all system
components fOfmaterial and workmanship for a period of 2 years from the date of
substantial completion and not to exceed 30 months after equipment delivery. Warranty
shall include providing all labor for any repair or replacement required.
H. A shop oxygen transfer test shall be performed in accordance with ASCE test methods on
one representative grid of diffusers. The testing shall be conducted by an independent
testing laboratory in a test tank with a minimum area of 200 square feet.
I. Installation instructions shall be complete including anchoring, leveling, fastening, inspection,
provisions for expansion/contraction, etc. The manufacturer's installation instructions shall
be submitted prior to shipment of the diffuser equipment.
J. The Contractor shall submit a copy of its invoice from the manufacturer which clearly
delineates the total price paid by the Contractor for the equipment and services specified
herein. This submittal shall be included with the equipment shop drawing submitted per
Section 01300 entitled, "Submittals."
1.06 OPERATIONS AND MAINTENANCE MANUALS
A. The Contractor shall submit operation and maintenance manuals in accordance with the
procedures and requirements set forth in Section entitled "Submittals."
B. Two copies of a preliminary O&M Manual shall be included in the shop drawing submittal.
Without inclusion of these manuals, the submittal will be considered incomplete and will be
returned without review.
1.07 TOOLS, SUPPLIES AND SPARE PARTS
A. The equipment manufacturer shall furnish all special tools to disassemble, service, and
adjust the equipment and shall also furnish the following spare parts for the aeration tank
Diffuser System.
1. Ten percent of the total flexible membrane diffusers being supplied, including
gaskets.
2. Sufficient material including O-rings or gaskets to repack 10 percent of all expansion
joints.
3. Matching number of orifice plugs (sufficient to blank out capped diffusers as shown
on the plans) depending on type of diffusers used.
4. One percent of the total number of air feed and distribution main supports, including
required nuts and boits to be apportioned over the respective diameters furnished.
5. One hundred (100) hold-down bolts, washers, bolts/washer assemblies or rings.
B. All spare parts and diffusers shall be suitably package and stored where directed by the
Engineer.
C. Spare parts lists, included with the shop drawing submittal, shall indicate specific sizes,
quantities, and part numbers of the items to be furnished. Terms such as "1 Lot of packing
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~,_..,~------~,... ..-......_"",>_.~,..._'",.........
_._ ,__ ._,~._."-._._.. _ "."__,~__,,.__...."___mM_' _~_
material" are not acceptable.
D. Parts shall be completely identified with a numerical system to facilitate parts inventory
control and stocking. Each part shall be properly identified by a separate number. Those.
parts which are identical for more than one size shall have the same parts number.
1.08 SHIPPING AND HANDLING
A. All piping oflhe aeration system shall be handled during shipping and storage on-site, so as
to prevent and eliminate any softening, flexing, cracking, or other deformation of pipe lengths
or diameter than may be caused by stack loads or exposure to the heat of the day, or
sunlight.
B. The Contractor shall submit to the Engineer a detailed plan for shipping, storing and
protecting all aeration system piping as part of the shop drawings submittal prior to
shipment. At a minimum the Contractor shall be required to provide cover, ventilation and
proper stacking to prevent warping of all aeration system piping stored on-site.
1.09 GUARANTEE
A. The flexible membrane diffuser manufacturer shall guarantee that
1. Each diffuser at19.11 feet of submergence shall be capable ofa clear water oxygen
transfer efficiency from the air of not less than those specified in this Section under
Paragraph 2.07, Performance Requirements, at standard conditions. The standard
conditions shall be defined as operation at a liquid temperature of 20oC, standard
atmospheric pressure at mean sea level elevation, an oxygen saturation value and
oxygen transfer characteristic (KL,) equal to that of clean tap water at the same
temperature, an average dissolved oxygen concentration of 0 mgll, an alpha factor
of 1.0, a beta factor of 1.0, and temperature correction factor (@theta) of 1.024.
PART 2 -- PRODUCTS
2.01 GENERAL
A. The fine bubble diffusion system specified herein and designated as a disk type flexible
membrane system shall be supplied by Sanitaire -ITT Corp., or Aquarius Technologies Inc.
No Substitutions.
B. All stainless steel piping associated with the fine bubble diffusion system shall comply with
the requirements of Section set forth in Division 15 of the Specifications.
2.02 MATERIALS OF CONSTRUCTION
A. Stainless steel pipe and hardware shall conform to requirements in applicable portions of the
Specifications.
B. All PVC pipe and fittings shall be manufactured from PVC compound with a tensile strength
of 7000 psi. PVC resins shall be blended with fillers to achieve a minimum "K" value of 58
for fillings and a minimum "K" value of 64 for pipe.
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C. Two parts by weight of titanium dioxide per 100 partsofPVC resin shall be prov'idedin PVC
material for air distribution .piping, diffuser element holders, and retainer rings to resist
ultraviolet light degradation,
,. --
D. All PVC pipe shall perform satisfactorily when sUbjected to 130 degrees Fahrenheit mean
wall temperatures on a long term continuous basis.
E. All solvent welding shall be completed prior to shipment to the site; no field solventwelding
will be allowed except for moisture blowoff piping and for routing 4-inch PVC distribution
piping around unforeseen obstructions. Layout of piping around obstructions and means of
connection shall be submitted for Engineer review. Solvent welds shall be factory assembled
in accordance with ASTM 2855 and tested prior to shipment.
.
F. Solvent welds shall be accomplished with solvent cements specifically formulated for use
. with PVC.
2.03 DOWNCOMERS (DROP PIPES) AND SUBMERGED MANIFOLDS
A. Downcomer piping shall be Type 304L stainless steel in accordance with applicable
requirements in the Specifications.
B. Downcomer piping shall be supported from its upper flange connection to the air main and
with a minimum of two wall supports as required to make the piping secure and stable under
all conditions.
C. A stainless steel sleeve coupling Depend-O-Lok FXE coupling, or equal shall be provided on
the drop pipe upstream of the distribution manifold.
D. Air manifold piping shall be Type 304L stainless steel. Manifolds shall be fabricated in
nominal lengths up to 40'-0". Manifold sections shall be joined with drilled flanges and
gaskets. Ends of the manifolds shall be welded end caps or plates. Stainless steel supports
shall be provided for air manifold piping at a spacing of not more than 7-1/2 feet. Manifold
pipe supports shall be made of minimum 1/2-inch diameter threaded anchor rods, washers,
hex nuts, and 118-inch by 2-inch pipe clamps. Material for supports shall be
304L stainless steel. The Contractor shall furnish concrete pedestals for manifold pipe
supports in accordance with manufacturer's recommendations. Concrete pedestals shall be'
attached to the tank floor in .accordance with manufacturer's recommendations. Manifold
supports with a pipe centerline of 22-inches or higher shall require a diagonal stainless steel
support strut for added support rigidity. Manifold supports shall provide for plus or minus two
inches vertical adjustment. The 4-inch nozzle connections shall be 4.5-inches O.D. and
shall be minimum Schedule 10 wall thickness (0.120 inches). Nozzles shall be true ahd
round and shall be fabricated of seamless tubing in accordance with ASTM A-312. The
nozzles shall extend at least 5-inches beyond the outside diameter of the manifold and shall
have an angular variation of not more than plus or minus 1.0 degree. The invert elevation of
. the submerged air manifolds shall be the same throughout the tanks. Each diffuser header
tee shall be anchored to the floor at the manifold.
E. As an alternative to the stainless steel manifold, a PVC manifold may be provided,'The
transitioh from the stainless steel downcomer to the PVC manifold shall be within 12 inches'
of the manifold. Provide PVC manifolds as shown on the drawings perpendicular to andat
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the same centerline elevation as the air distribution headers. Fabricate PVC manifolds in
sections up to 20 feet in length. Join manifold sections with drilled flanges and gaskets.
Support manifold with stainless steel supports; Maximum spacing between supports shall
not exceed 8 feel. Design manifold, connections and supports to resist thrust generated by
expansion or contraction of the air distribution headers. Provide supports as described in
Section 2.03, paragraph D. Fabricate manifolds with one 4" diameter fixed joint connection
to each air distribution header. Furnish manifolds with minimum Schedule 40 dimensions
when stub to manifold connection is reinforced with a solvent welded saddle tee. Furnish
manifolds with Schedule 80 dimem:;ions when stub connection is unreinforced.
F. Air manifold tees shall have the same nominal diameter as their corresponding downcomers.
The fine bubble diffuser manufacturer shall furnish sizes of downcomer and manifold piping
as shown on the Contract Drawings. The equipment supplier shall supply all manifold
flange bolts, nuts, washers, and gaskets. All flanges and connection hardware shall be
minimum 304 stainless steel.
2.04 DIFFUSER HEADER SYSTEM
A. The diffuser header system shall include the header piping, support stands and provisions
for expansion/contraction of piping, factory installed diffuser element saddles (holders),
anchor bolts, and all necessary connectors.
B. Diffuser headers, diffuser holders, and retainer rings shall be manufactured of PVC with
minimum 2% Ti02 added for ultraviolet protection.
C. The diffuser headers shall connect to the bottom or side centerline ofthe manifold as shown
on the Drawings.
D. The headers shall be fabricated in sections not exceeding 23-feet in length with sections
joined by fixed joints and/or anchored by guide (sliding) supports.
E. Headers shall conform to ASTM D 3915 and ASTM D 2241 or ASTM D 3034 and shall have
a maximum standard dimensional ratio of 33.5 and shall be perpendicular to the air
manifold. Schedule 40 PVC shall also be allowed. Diffuser headers shall have a minimum
wall thickness of 0.125 inches. Diffuser holders and retainer rings shall have a minimum
wall thickness of 0.12 inches.
F. The pipe and piping grid design and installation shall withstand the normal system operating
pressures and temperatures as well as all surges during start-up periods.
G. Corners and ends of the grid shall be equipped with easily removable caps or plugs for clean
out of the grid piping interior.
H. The header system shall consist of fixed joints between header pipes and guide supports
which allow movement of the pipe with changes in temperature.
I. The fixed joint shall consist of a spigot section with grooves solvent welded to one end of a
header, a threaded socket section with splines solvent welded to the mating header, an
O-ring gasket, and a threaded screw-on retaining ring. The fixed joint shall provide a rigid
connection petween headers and shall prevent rotation of either of the pipes. In lieu of the
fixed joint described above, flanges shall be used. to connect header pipes in accordance
with ASTM standards for the specified header pipe.
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J. Diffuser header guide supports shall allow longitudinal movement of the header section to
prevent stress build-up in the header due to thermal expansion/contraction forces.
K. Intermediate guide supports shall consist of a hold-down and sliding mechanism which shall
provide a 1-1/2-in. wide contoured bearing surface with chamfered leading edges to
minimize binding of the air header piping. The sliding mechanism shall provide minimum
resistance to movement of the header pipe.
L. Supports shall be fabricated ofType 304L stainless steel. The supports shall be designed to
provide plus or minus 11/2 inches vertical adjustment of the header. Adjustment shall be
continuous and possible without removing the air piping from the support.
M. The Contractor shall furnish all materials to compensate for any variations in floor slab
elevations where fine bubble diffusers are installed.
N. Header piping supports shall be Type 304 stainless steel. Each support shall be secured to
the tank floor by means of a Type 316 stainless steel anchor bolt. The support system shall
be designed to withstand a force at least equal to 4 times the buoyant force.
O. Supports shall be attached to the tank floor with stainless steel adhesive type anchor(s).
Anchor bolts shall be Type 316 stainless steel, minimum size 3/8-inch diameter. Anchor
bolts shall be at least 3-1/2 inches long. The Contractor and/or manufacturer shall be fully
responsible for adhesive-type anchors used to provide zero pull-out of header support of
anchor bolts.
P. The entire system shall be designed, manufactured, and installed in such a manner that all
the diffuser elements are within + 1/8-inch of a common horizontal plane. Air distribution
shall be uniform throughout the entire system and shall be uniform over the entire horizontal
projected surface of each diffuser element.
Q. All air manifolds, diffuser headers, and diffusers shall be capable of being installed precisely
at level and of remaining level under all conditions of operation whether the aeration basins
. are full, partially full, or empty.
2.05 AIR DIFFUSER ASSEMBLY
A. Air diffusers shall be of the fine bubble disk type with a flexible perforated air release
membrane.
B. The diffusers shall have a backflow preventer feature to prevent liquid from passing into the
aeration header. the diffuser shall require no special tools for attaching the diffusers to the
diffuser connectors.
C. The diffuser membrane shall be constructed of ethylene propylene diene monomer (EPDM)
suitable for application to continuous aeration of activated sludge mixed liquor without
significant increase in head loss. The membrane shall be replaceable without the use of any
special tools. The membrane exterior surface shall be smooth to prevent exterior biological
film growth: The membrane shall inflate during aeration and deflate when the airflow is
discontinued, further restricting biological filrn growth. The membrane shall be cleanable in
place with water froma hose stream. Acid or other chemical cleaning methods shall not be
required to restore the diffuser to like-new performance conditions. The membrane shall be
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"_."_._..._._~_..._._. "_____.'A_______~._~__.~._~,,__. ._.._. ,..._
_'"''"m',_,'''_.._.~~''' .. ._'.__'.'._0."__
."..,....-,."...- "',._,.._"....~-, --
perforated over the entire surface to release fine bubbles uniformly.
D. The maximum allowable airflow per diffuser shall be 2.5 SCFM per diffuser membrane
available for airflow.
E. The diffusers shall be warranted to be free from defects in material and workmanship for a
period of 5 years following substantial completion, not to exceed 66 months after equipment
delivery. In addition, the diffuser membranes shall be warranted for a period of 3 years
fOllowing substantial completion. .
F. The diffuser saddle shall be suitably'solvent welded to the diffuser header allhe factory to
strict tolerances. The diffuser element holders shall be attached to the header to resist
applied torques of 150 foot pounds about the polar axis of the holder and 100 foot pounds
aboullhe longitudinal axis of the holder. The diffuser saddle shall be PVC and shall provide
for horizontal mounting of the flexible membrane diffuser. The bottom rim and top surface
of the diffuser and diffuser saddle shall be horizontal. Diffuser tilt shall be field verified by
the Contractor as required by the Engineer by use of a level and scale, and witnessed by
the Engineer.. All diffuser saddles and associated piping with tilt in excess of + 1/8-inch
shall be removed by the Contractor and replaced by the manufacturer without additional
cost to the Owner.
G. Aeration zones shall have 20 percent spare diffuser connections evenly spaced. Diffuser
connections not provided with diffusers shall be capped and plugged for future use.
H. The diffuser connections shall be warranted to be free from defects in material and
workmanship for a period of 5 years following substantial completion, not to exceed 66
months after equipment delivery.
I. The Contractor shall replace any diffusers which are damaged in shipment or during
installation at no additional cost to the Owner.
2.06 SUPPORTS
A. All fasteners, anchor bolts, and appurtenances shall be of Type 316L Stainless Steel
construction and all welded parts shall be Type 316 Stainless Steel. Supports shall be 304L
Stainless Steel. The completed installation shall include an expansion-contraction system
consisting of fixed supports, intermediate supports and expansion joints. Supports shall be
designed to:
1. Provide proper bracing and means for accurate field alignment and adjustment of air
feed and distribution grid pipes, vertically, laterally and longitudinally. Each pipe section
shall have at least two supports and spacing. Each support shall be anchored to the
tank floor by a Type 316L Stainless Steel anchor bolt designed for 10 times the
calculated maximum uplift force.
2. Provide for any expansion or contraction of the drop pipe, air manifold, and distribution.
grid pipes resulting from temperature change. Each expansion joint shall provide for
longitudinal expansion and contraction within the joint. Each system shall allow for
expansion and contraction over a range of 120 degrees Fahrenheit.
B. All air manifolds and distribution grid pipes and diffusers shall be capable of being installed
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. precisely at level and of remaining level under all conditions of operation. whether the.
aeration tanks are full, partially full or empty. Features which allow possible deviation from
level shall be cause for rejection.
C. The design of all support systems, including provisions for expansion and contraction of air'
manifold'and distribution grid pipes, as described hereinabove and as shown on the
Drawings shall be the full responsibility of the Equipment Manufacturer. The manufacturer
shall furnish and submit design calculations and shop drawings oflhe support system to the
Engineer for acceptance prior to fabrication.
2.07 PERFORMANCE REQUIREMENTS
A. The fine bubble diffuser system shall be used in the activated sludge process to transfer .
oxygen into mixed liquor. The aeration tanks are preceded by anoxic zones immediately
. upstream of the aeration tanks.
B. Each aeration grid shall be designed and orifices sized so that at minimum and maximum
airfiowsthe airfiow rate output of any two diffusers in the grid shall not differ by more than 10
percent (based oh the diffuser with the lower flowrate). The manufacturer shall furnish
calculations (including all assumptions) to verify this requirement The distribution and
balancing of air shall be controlled by the use of orifices and proper header size and
selection only. The use of flow distribution control devices requiring automatic and/or
manual operation will not be permitted.
C. In addition to the above requirement, the grids shall be designed to provide tapered aeration
(four stages) while providing adequate mixing throughout the length oflhe basin. Adequate
mixing shall be defined as a variation in mixed liquor suspended solids concentration (total
residue) of less than 15 percent between the mean value of all samples collected in the
tank (as specified hereinafter) and the mean value of three samples collected at any single
point in the tank. Adequate mixing shall be achieved in the basin at mixed liquor suspended
solids concentrations of 1 ,000 to 5,000 mg/I at the stated average available airflow rate. The
distribution and balancing of air shall be sufficient to maintain the mixed liquor suspended
solids in a state of suspension.
D. The diffused aeration equipment shall be capable of meeting all performance requirements
specified below:
Number of Aeration Basins 12 existing modified
Tank Sidewater Depth (feet): 20.11
Allowable diffuser mounting
distance .above floor (inch): 12
Available air pressure at the drop pipe top (psig): 9.4
Maximum SOTR per Basin, (Ib Oxygen/day) 18,350
Maximum Air Demand per Basin at Maximum SOTR (scfm)
Average SOTR per Basin (Ib Oxygen/day)
2,050
7,090
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"""~'.,.... u_".~,_._..._'''__. ,< _
Maximum Air Demand pet Basin at Average SOTR(scfm) 720
E. The following diffused air system arrangement is intended to establish minimum'
performance conditions for the tapered aeration system in each of the aeration basins.
Alternate diffuser sizes and arrangements may be proposed with supporting documentation
that demonstrates the ability to meet the specified system performance.
Number of Grids (per basin): 4 (Spacing as shown on the drawings)
Number of Diffusers Per Grid (Based on 9-inch dia. Discs)
Grid 4 (new):
Grid 3 (existing to be modified):
Grid 2 (existing to be modified):
Grid 1 (existing to be modified):
351
252
189
108
Minimum Flow per Diffuser (scfm) 0.5
Maximum Flow per Diffuser (scfm) 2.5
Minimum Air Distribution per Grid (per each basin):
Grid No.
Minimum Flow (SCFM)
4
3
2
1
175
126
120
96
Note: Minimum fiow is based upon mixing requirements of 0.5 scfm per diffuser or 0.12
scfm/ft>, whichever is greater
F. Oxygen transfer efficiency shall be determined in accordance with Paragraph 3.03 of this
section. Airflow per diffuser shall be determined as the total airflow divided by the total
number of diffusers installed for the type of diffuser furnished as indicated in Paragraph
2.06 of this Section. Maximum Head loss shall be the total combined loss measured
through the associated control orifice and the flexible membrane diffuser element.
2.08 MOISTURE BLOW-OFF SYSTEM
A. The moisture blow-off piping shall be located as indicated on the Plans. A minimum of two
moisture blow-off systems shall be provided per grid. The moisture blow-off piping shall
include all required pipe, fittings, valves, supports shall operate on the airlift principle and
shall be designed to remove any liquid that has entered the piping system.
B. All moisture blow-off pipe shall be Schedule 80 PVC. All fittings shall employ a "cross"
fitting to facilitate drainage. The moisture blow-off piping shall be located in an easily
accessible location above the water surface adjacent to the wall and just above the grid
system as shown on the Drawings. The valve shall be a socket and type, PVC ball valve.
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C. Solvent welds may be used to join fittings to PVC pipe. A union shall be required in each
blow-off line. The systems shall be properly, supported and shall be provided with all
expansion joints necessary to allow expansion and contraction of the piping over a
temperature range of 120 degrees Fahrenheit with no stress buildup in the piping. Flexible,
reinforced hose shall be used in each blow-off line from the diffuser lateral grid piping to the
point of anchorage at the aeration tank wall. Stainless steel hose clamps shall be provided
at each end of the flexible hose.
PART 3 -- EXECUTION
3.01 INSTALLATION
A. The installation of equipment shall not begin until after the successful completion of tank
structure leakage tests. The Contractor shall install the number of flexible membrane
diffusers required by the diffuser system manufacturer to achieve the oxygen transfer
efficiencies and head losses at the specified airflows. The flexible membrane diffusers shall
be installed as shown on the drawings. The equipment shall be erected by the Contractor in
accordance with the manufacturer's instructions.
B. Invert elevations of air manifolds and distribution grid pipes shall be constant. All diffusers
shall be installed within 1/8-inch of a horizontal plate. This shall be verified by the level test
described elsewhere in this section.
C. The Contractor shall replace any diffusers which are broken in shipment or during
installation at no additional cost to the Owner. The Contractor shall also be responsible for
providing proper storage at no additional cost to the Owner. Those diffusers to be stored by
the Owner at the end of construction shall be inspected by the Engineer for integrity prior to
acceptance for storage. All rejected diffusers shall be replaced at no cost to the Owner.
D. The Contractor shall ensure that all expansion joints are installed at the midpoint oflheir
range such the joints will neither overcompress nor pull out at the extremes of the design
temperature range. All aeration pipe supports shall allow for pipe expansion and
compression within the expansion joints.
3.02 SHOP QUALITY CONTROL TESTING FOR FINE BUBBLE DIFFUSERS
A. Prior to the start of production of fine-bubble diffusers, the Contractor shall submit with the
shop drawings a testing and sampling plan to insure consistently good quality and uniformity
. of the diffusers. All diffusers that are tested shall be suitably marked with their test results.
B. All work of testing and inspecting shall be done at the point of manufacture. Imperfect or
defective diffusers and those not meeting the requirements specified herein, shall be
rejected. If any diffuser fails to meet the requirements of the individual tests stated below,
additional tests shall be made on 5 percent of all the assembled diffusers. If these
additional tests indicate thilt1 0 percent or more of the assembled diffusers do not meet the
requirements, the entire batch of assembled diffusers shall be tested and the additional cost
shall be borne by the Contractor. Alternative test procedures shall be required as directed '
by the Engineer if more than 10 percent of assembled diffusers do not meet test
requirements. Assembled diffusers which fail to meet the requirements shall be discarded.
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_'_'_" '_~..'''_"_''''",_''''''''_'_''__'___ , - __,___ -"_.".0"'_-
The expense of testing shall be borne by the Contractor and manufacturer.
C. One percent of all diffusers shall be tested for uniformity. Uniformity shall be defined as
substantially even distribution of air bubbles when the diffuser is submerged and operating
at1 scfm.
D. Details of the test procedure shall include, as a minimum, the above requirements and shall
be submitted to the Engineer for approval. Ail costs incurred for performing the tests shall
be considered as included in the price bid.
3.03 FIELD TESTS
A. The Contractor shall conduct the installation and performance tests for the diffuser systems
specified herein. Detailed procedures for all field testing shall be submitted with the shop
drawings.
B. Mounting tests shall be conducted for all diffuser system piping supports and tie-downs to
insure that all supports and tie-downs have a margin of safety of 4 against calculated
buoyant forces. The wall-mounted supports for the single drop diffusers shall be subjected
to the same pull-out force applied to the fine bubble diffuser pipe supports. All mounting
tests shall be witnessed by the Engineer. Each support shall be attached to a lever which
shall be placed on a fulcrum. A static load shall be applied to the opposite end producing a
vertical (or horizontal for wall mounted supports) extracting force on the support tie-down
equal to 4 times the calculated maximum buoyant force to which the support tie-downs will
be subjected in normal operation.
C. Field leakage tests shall be performed for all submerged air piping, The procedure shall
consist of operating the system under clear non potable water for visual identification of all
leaks. All field leakage tests shall be witnessed by the Engineer. All submerged piping shall
be installed free of any leaks.
D. Air distribution tests shall be conducted in each aeration tank, and influent and effluent
Channels. Basins shall be filled with non potable water to a depth above the diffusers as
directed by the Engineer. The system shall be operated over the full range of operating
conditions. Uniform air distribution to all individual diffusers within the basin shall be verified
by visual inspection. If in the opinion of the Engineer there are areas of consistent low or
high airflows, then the Contractor shall make all necessary adjustments to correct these
deficiencies.
E. Level measurements shall be made for each diffuser during installation to insure that all
diffusers are installed to within + 1/8-inch of a common horizontal plane in all basins
including the existing basins. Field surveying equipment used shall be as approved by the
Engineer. A final level check shall be made during air distribution tests. During filling, visual
inspection shall be made when the water level is at the top of the diffuser elements to
confirm that air diffusers are installed to within + 1/8-inch of a common horizontal plane.
F. A single diffuser in each basin shall be randomly selected for field testing of pressure drop
across the orifice and diffuser. All required gauges, manometers, taps, pressure measuring
devices, etc. shall be provided by the respective equipment manufacturer.
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3.04 CLEANING OF AIR PIPING
A. The Contractor shall thoroughly clean all new air piping immediately prior to installation.
After installation, all surfaces shall be protected. from contamination by dust, dirt,
construction debris, and moisture, including atmospheric moisture, in a manner satisfactory
to the Engineer. Whether or not the pipe upstream has been cleaned, all openings in
partially completed Work shall be temporarily sealed off at the end of each day's Work,.or
whenever the Work is temporarily stopped for any reason. Work shall be suspended
whenever inclement weather, including high wind, dust storms etc., is imminenl.Any
surfaces which become contaminated prior to acceptance shall be thoroughly cleaned by the
Contractor to the satisfaction of the Engineer.
PART 4 -- WARRANTY
4.01 WARRANTY
A. The manufacturer shall warrant all parts, with the exception of the diffusers, diffuser
membranes, and diffuser connectors, free from defective material and workmanship for a
period of 1 year after installation, and furnish and install for the owner any such items found
to be defective within the 1-year period. The diffusers and diffuser connectors shall be
warranted for a period of 5 years as specified. The diffuser membranes shall be warranted
for a period of 3 years. The manufacturer shall provide a written guarantee between the
manufacturer and the Owner for the remaining warranty period.
END OF SECTION
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DIFFUSERS, FINE BUBBLE, FULL FLOOR
^~_..m~_~'n_"~,,,__"__"''''_'''_'_'_''_'N _ _'n"_""___~_' .__
SECTION 11400
BLOWERS, CENTRIFUGAL, MULTI-STAGE
PART 1 -" GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, install, test, and place in satisfactory operation one (1) electric
motor driven, multi-stage centrifugal blower unit including the electric motor, steel base, inlet
filter silencer, expansion joints, valves, inlet throttling valve with actuator, and all necessary
auxiliary equipment, appurtenances and accessories, spare parts, panels, controls, cables
and wiring from vibration monitoring transducers and RTDs to control panels, all as shown,
specified or required for a complete installation.
B. The proposed blower shall replace an existing smaller blower. The Contractor shall remove
blower and appurtenance without damaging any components. The removed blower shall be
turned over to the Owner.
C. All equipment specified in this section shall be designed and furnished by the blower
manufacturer who shall be responsible for the suitability and compatibility of all included
equipment.
1.02 GENERAL INFORMATION AND DESCRIPTION
A. One (1) new blower, in addition to four (4) existing blowers, will be used for supplying air to
the aeration tanks through fine bubble flexible membrane diffusers.
B. All materials shall be new and both workmanship and materials shall be of the very best
quality, entirely suitable for the service to which the units are to be subjected and shall
conform to all applicable sections of these specifications. All parts of duplicate machines
shall be interchangeable without modification. The construction of the blower shall be
rugged so that the blower will not be damaged during continuous operation and will not have
undue vibration above the blower's surge limit. The design and construction of the blower
shall not cause any unbalanced floor loadings. Sizes and capacities of equipment
components specified shall be understood to establish minimum requirements only, and do
not relieve the Contractor of responsibility for providing a properly functioning system.
C. The blower manufacturer shall furnish all piping, fittings and valves which are an integral part
of, or are customarily supplied as standard appurtenances for the equipment furnished in
addition to those designated under Section 2.02 A and B. All piping, fittings, expansion
joints and valves shall be as specified in Division 15000.
1.03 MANUFACTURERS
A. The materials covered by the Specifications are intended to be standard equipment of
proven reliability and as manufactured by reputable manufacturers having experience in the
production of such equipment. The equipment furnished shall be designed, constructed,
and installed in accordance with the best practices and methods and shall operate
satisfactorily when installed as shown on the Drawings and operated per manufacturers
recommendations.
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BLOWERS, CENTRIFUGAL. MULTI.STAGE
B. The blower equipment shall be as manufactured by Gardner Denver. . NO
SUBSTITUTIONS.
1.04 TESTING
A. Before tne centrifugal blower, motor and panel are shipped, shop running acceptance tests
shall be run by the manufacturer and certified curves and reports shall be submitted to the
Owner and Engineer for acceptance prior to shipment. In its shop drawings submittal, the
manufacturer shall submit information which fully describes the manufacturer's testing
facilities. The Engineer and Owner reserve the right to inspect the manufacturer's testing
facilities and witness the shop test.
B. The manufacturer shall provide at least fifteen days notice, in writing, of such test and the
Owner reserves the rigntto have a representative present when the shop acceptance tests
are run. In case of failure of any unit to meet the test requirements, the manufacturer, at its
own expense, shall make such alterations as are necessary and the tests shall be repeated
without additional cost to the Owner until the equipment is satisfactory.
C. Each blower shall be tested in accordance with the PCT-10 test code of the American
Society of Mechanical Engineers. Test information shall include:
1. Relative humidity
2. Inlet pressure and temperature
3. Discharge pressure and temperature
4. Capacity
5. Speed
6. Power impact (line voltage and current)
7. Efficiency
8. Surge point
9. Bearing inspection
10. Vibration check
11. Noise level
D. Sufficient data shall be obtained to plot the blower characteristic curve including the
specified operating conditions. Characteristic curves shall be provided for the blower alinlet
temperatures of 100 Degrees Fahrenheit, 80 degrees Fahrenheit, 68 degrees Fahrenheit,
50 degrees Fahrenheit and 40 degrees Fahrenheit.
E. For the blower tests, the blower manufacturer shall use the actual control panel, motor and
base to be furnished for each blower. If the actual control panel is not used in testing, then a
test report of the actual control panel(s) to be used from the controls vendor must be
supplied.
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-
F. Certified copies of the test reports shall be furnished in accordance with Division 1 of the
specifications. These reports shall include an air blower and motor speed torque curve for
zero to 100 percent full load speed.
1.05 SUBMITTALS
A. The Contractor shall submit shop drawings in accordance with the procedures and
requirements set forth in the section entitled "Submittals". The Contractor shall also submit
the following information, defining the interface between the systems specified herein and
the remainder of the plant facilities:
1. Materials and Equipment Specifications including complete parts list and all
warranties and guarantees.
2. Blower performance curves, showing airflow, discharge pressure, relative humidity,
temperature and horsepower, for the constant speed.
3. Identification, description and envelope dimensions for each separately installed
subassembly or piece of equipment, and the associated connection dimensions.
4. Field and installation information, including mounting requirements, anchor bolt
pattern, access, amI approximate total weight of each piece of equipment.
5. A detailed description of the instrumentation and control system proposed, including
a list of all functions monitored, controlled, and/or alarmed. Describe all automatic
shutdown features and interfaces with the plant instrumentation and control systems.
The instrumentation and control system interface shall be described in both word
and schematic form. Standard Instrument Society of America symbols shall be used
on the schematics.
6. Complete electric motor control schematics. Include type of control, locations of
control elements (panels, field etc.), and any special controls that are not provided as
part of this system. All diagrams shall be in accordance with NEMA ICA 1-101.
7. Control panel envelope dimensions, mounting requirements and access
requirements (doors, conduit entry, tubing bulkheads, etc.)
8. A complete list of additional spare parts beyond those specified herein, which the
manufacturer recommends for the Owner to keep on hand.
B. Each submittal shall be identified by the applicable Equipment Identification Number and
Specification Section.
C. The Manufacturer shall also submit a listing of components which are considered to be
normal wear items and shall state their estimated replacement interval and current price.
1.06 OPERATIONS AND MAINTENANCE MANUALS
A. Furnish Operation and Maintenance manuals, shop drawings and other material required as
specified in Sections 01330 and 01830.
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B. Two copies of a preliminary O&M manual shall be included in the Shop Drawing submittal.
. Without inclusion of.these manuals the submittals will be considered incomplete and will be .
returned without review.
1.07 TOOLS, SUPPLIES AND SPARE PARTS
A. Furnish all special tools and appliances necessary to disassemble, service, repair and adjust
the equipment and appurtenances. The following spare parts shall be furnished:
1. One complete set of blower and motor bearings for each blower.
2. One complete set of seals for each blower.
3. One complete set of blower bearing lock nuts and washers for each blower.
4. . One complete set of blower impeller lock nuts and washers for each blower.
B. Other spare parts shall be furnished as recommended by the equipment manufacturer.
C. All spare parts shall be painted or coated as required. Where no painting or protective
coatings are specified, suitable provisions shall be made to protect against corrosion.
D. All materials shall be properly packed, labeled and stored where directed by the Engineer.
1.08 SERVICES OF MANUFACTURER'S REPRESENTATIVE
A. The Contractor shall proVide th.e services of a qualified manufacturer's technical
representative who shall supervise the installation and testing of all process blowers
furnished under this Contract and instruct the Owner's operating personnel in its
maintenance and operation. The services of the manufacturer's representative shall be
provided for a period of not less than six days as follows:
1. At least one trip of up to three days during installation of the equipment.
2. At least two trip of up to four days for start up purposes, testing and training.
B. Any additional time required to achieve successful installation and operation shall be at the
expense of the Contractor.
PART 2 -- PRODUCTS
2.01 GENERAL
A. The aeration blower shall be multi-stage, centrifugal type as manufactured by Gardner
Denver (to match existing blowers within Blower Building Nal), no substitutions. The blower
shall be driven at the inlet end by direct coupled electric motors with flexible couplings and
. guards as speCified herein.
B. The Contractor shall make all alterations required to structures, equipmeht, piping, controls,
or other work shown in the Contract Drawings which may be required for the blower systems
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BLOWERS. CENTRIFUGAL, MUL TI.STAGE
ultimately furnished: The alterations shalt be submitted to the Engineer for review, comment
and acceptance.
2.02 OPERATING REQUIREMENTS
A. The primary operating requirements of the blower system shall be to provide adequate air
flow at the specified conditions.
B. Operating Data
Proposed 300 HP Blower (to match existing 300 HP Lamson blowers described below)
Amount 1
Proposed Location Blower Building NO.1
Design Discharge 4,200 SCFM
Design Pressure @ Blower Discharge 9.8 psi
Ambient Inlet Air Temperature 103 deg F
Ambient Inlet Pressure 14.7 PSI
Pressure at Inlet Following SilencerlThrottled Damper 14.5 PSI
Ambient Inlet Relative Humidity 40%
Elevation 15 feet amsl
Expected Operating Range 2,100 -4,200 scfm @ 103 deg F, 40% RH
Minimum Rise to Surge 0.5 psi
Maximum Motor Power 300 HP
Maximum Blower Speed 3,600 RPM
Inlet Throttling Valve Diameter 12in
Inlet Filter/Silencer Diameter 12in
Maximum No. of Stages 8
InleVOutlet Flanged Connection Diameters 12 in/12 in
Basis of Design Gardner Denver 1260 (8 x 1004 - to match
existing 300 HP blowers)
10 Numbers PAB 25040
Proposed Location Blower Building NO.1
Existing 300 HP Lamson Blower- Model 1260 (8x1004) (to Remain in Service)
Amount 3
10 Numbers PAB25010
PAB25020
PAB25030
Proposed Location Remain in Blower Building NO.1
Existing 150 HP Lamson Blowers - Model 870 (9xA5) (to Remain in Service)
Amount 1
10 Numbers PAN25040 (to be replaced)
PAB25050 Ito remain in service)
Proposed Location Remain in Blower Building No.1
----- --,_.~._---
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. C. Blower performance shall be corrected for actual environmental operation conditions to be
encountered in Collier County, Florida, i.e., air temperature ranging from 35 degrees
Fahrenheit to 103 degrees Fahrenheit, and corresponding' relative humidity based off of
ASHRAE pychrometric charts.
D. Surge volume of each blower shall be less than 2,100 icfm under the entire range of
environmental conditions listed above. Surge volume is defined herein as the airflow rate at
which the unthrollled blower exhibits the first indication of pressure pulsations or flow
reversal.
E. The aeration blower shall be designed to deliver varying air flow rates by throttling the blower
. inlet line inside the blower building. Manual and automatic control of the minimum air flow
rate delivery shall be based on blower line current draw.
F. Surge pressure for the blower shall not be less than 11.0 psig at standard inlet conditions.
2.03 BASES
A. A welded steel fabricated base shall be provided for mounting the blower, electric drive and
driver base. The base shall be of a rigid box section shape. The box section shall be
properly ribbed for stiffness and present large bearing areas for carrying the load 0 n the
foundation. The base shall be furnished with a drip lip. Rubbervibration isolation pads shall
be provided between the concrete mounting and the base of the blower unit.
2.04 HOUSING AND HEADS
A. The housing, inlet and outlet heads shall be constructed of close grained cast iron sections,
ASTM A48, fitted with babbit joints held securely by steeltierods and able to withstand the
operating pressures. Approved eye bolts or lugs shall be provided for lifting. Where the
blower shaft passes through both the inlet and outlet heads, non contact labyrinth seals with
babbit inserts or carbon ring seals shall be provided to prevent air leakage and to assure
noncontamination of the bearing lubricant. Internal seals between stages shall be of the
labyrinth type to restrict interstage leakage. Inlet and outlet flange connections shall be
ANSI Standard 125-pound drilled through bolt pattern, and will be an integral part of the
heads.
B. Air passage shall be finished by hand or other means to obtain smooth surfaces and
minimize friction losses. Casing shall be accurately machined to gauge, where necessary,
to ensure interchangeability of all parts.
C. Joints shall be heavily flanged and boited and shall be provided with gaskets if required by
the design.
2.05 IMPELLERS AND SHAFTS
A. The impellers shall be one piece composite, with high strength cast aluminum alloy hubs,
keyed to the shaft and held by a lock nut. Hubs of the impellers shall butt against each other
. directly or through one piece metal spacers.. There shall be ample clearance and tip speed
shall not exceed 387 FPS. Impellers shall be individually precisely machine balanced.
Impellers shall be individually replaceable without requiring dynamic rebalancing of the entire
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- - -- --,' '..__.._,-" ....., ,-,~-_.,---_.._.._~_.-
rotating assembly to maintain factory vibration specifications. Vibration shall not exceed 2.0
mils in the vertical plane measured at the blower bearing housing. Air from impeller shall be
vented towards the suction side. Diffusing vanes shall be an integral part of the section
housing.
B. Shaft shall be of sufficient diameter to operate below the first critical speed and be made of
high grade hot-rolled steel. Shaft speed shall not exceed 3600 rpm.
2.06 BEARINGS
A. Each blower shall have two anti-friction bearings which can be lubricated, inspected or
replaced without disconnecting piping or disassembling the blower. Bearings shall be sized
for a minimum expected life of 10 years in accordance with AFBMA B10 standards. Inlet
and outlet bearings shall be identical in all respects. The bearings shall be contained in
outboard bearing housings designed to isolate the bearings from blower temperature. A
balance piston will be integrally shaft mounted on the discharge end of the blower. The
balance piston will reduce the thrust load on the thrust bearing by 75 percent. Lubrication
shall be accomplished by means of an oil slinger which circulates lubrication oil from an
inner reservoir through the bearing and returns the oil to the outer reservoir. Oil recirculation
shall be at the rate of at least 1.5 pints per minute. The oil level in the bearings housings
shall be maintained automatically by means of a constant level oiler mounted on each
bearing housing. Vibration and resistance temperature detectors and thermowells shall be
furnished at each blower bearing for connection to the associated blower control panel
temperature monitor.
2.07 COUPLINGS
A. Flexible, forged steel spacer couplings of an approved type, with guard shall be furnished for
connecting the blower and motor. The coupling design shall take care of inaccuracies of
alignment and permit axial adjustment. The construction of the couplings shall be such that
either shaft of a unit may be removed without disturbing adjustment of the other. The.
coupling shall have a minimum service factor of 1.5.
B. The manufacturer shall provide a suitable steel guard for the coupling between blower and
motor. The guard shall have a sheet metal top covering and expanded metal fronland be
designed to meet current OSHA requirements.
2.08 ELECTRIC MOTORS
A. The motor required for each blower shall be a horizontal, squirrel cage induction motor in
accordance with Section entitled "Electric Motors" in these Specifications, and the following
additional requirements. Overload protection, starters, disconnect switches, etc., shall be
furnished and installed for the actual motor sizes furnished, at no additional cost to the
Owner. All electric motors shali have a 1.15 service factor at jobsite conditions.
B. Each motor shall be designed for 460 volt, 3 phase 60 Hz AC power and 3600 rpm. All
motors shall operate without any undue noise or vibrations and show no signs of phase
imbalance.
C. Each motor shall be factory mounted by the blower manufacturer to insure compatibility.
The blower manufacturer shall be responsible for proper motor application.
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,:,
D. Motor enclosure shei!l be'TEFC design willy space heaters providedtoprevenlmoistlJre
buildcup' in the motor windings. and with a motor temperature switch. Circuitry shall be_
provided to energize the space heaters whenever the motors are not running.. .
E. Motor construction shall provide for ball or roller type oil lubricated bearings. Split bearing .
housings shall be used such that bearings can be inspected or replaced without disturbing
alignment. Oil shall be distributed uniformly over the bearing and shaft journal regardless of
(jirection of rotation. Seals and vents shall be provided to minimize oil leakage. Oil leakage
in excess of industry standard for sleeve type oil lubricated bearings shall not be-allowed..
. Motors shall be supplied with constant level'oilers to maintain oil level in the bearing housing
and provide a clear indication to the operator when oil addition is required.' Oil level switChes
shall befurnished with the motor for alarm and shut down to prevent potential damage from
insufficient oil. .' Vibration and resistance temperature detectors and thermowells shall be
furnished at each motor bearing for connection to the associated blower control panel
specified herein.
F. For protection of motor windings from overheating, six resistance temperature detection
elements shall be imbedded in the motor windings for connection to the associated blower
control panel.
G. Motor insulation shall be NEMA Class F. Motor shall be NEMA Design B, normal torque
(minimum 165 percent at L.R.) with a maximum starting code F (maximum 5.59 F.L.C. at
L.R.). Motor selection shall be compatible with electrical design.
H. Motors shall be of high efficiency design with a nominal full load efficiency of 95.5 percent at
90 percent P.F.
2.09 INLET FILTER/SILENCER
A. Intake filter/silencers shall be of the free standing, flanged, removable cartridge filter type
with attached silencing section capable of a minimum 12 dBA noise attenuation on the mid
range octave band (500 -1000 Hz). Filter/silencers shall be 304 stainless steel construction.
Outlet flange diameter shall be as specified in Section 2.02 A and B. Intake filter/silencer
capacity shall be 120 percent of blower maximum flow capacity; clean filter/silencer pressure'
drop 'shall not exceed seven (7) inches of water column at the specified conditions.
Removable weatherhoods shall be provided with each unit.
B. Intake filler/silencers shall be designed for removal/replacement of ind ividual filter panel
elements without disassembly.
.. .
C. Filters shall consistof high quality industrial grade paper filter media to provide a minimum
particle removal efficiency of 90.0 percent on particles one (1) microns in size and larger:
D. Filter materials shall be as follows:
Filter Media
Seal
Frame
Paper
Plastisol
Carbon Steel
. .
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'_.'m..-..._<._.__..'___..___.__... .
E. One complete set of spare filter elements shall be furnished for each blower intake/silencer
assembly.
F. Filter/silencers shall be as manufactured by Universal Silencer, Burgess-Manning, Stoddard,
or equal.
2.10 CHECK VALVES (AIR SERVICE)
A. Provide each blower with a wafer type discharge check valve of the dual flat-plate type with
center hinge, cast iron body and electro less nickel coated ductile iron plates, silicone or
Viton seal and rated for temperatures of up to 250 degrees Fahrenheit.
2.11 BUTTERFLY VALVES (AIR SERVICE)
A. The motorized operator forthe inlet valve (MOV25240) shall be for modulating service. The
operators shall be furnished in accordance with Division 15 of the Specifications.
2.12 CONTROLS
A. The blower manufacturer shall be responsible for furnishing and coordinating all
instrumentation and controls as specified herein and as required for a complete monitoring
and control system. All ancillary equipment, parts, devices, wiring, and hardware necessary
to meet system functional requirements shall be provided by the blower manufacturer.
B. The blower manufacturer shall furnish a blower control panel for the new blower installed as
indicated in the Contract Drawings. The control panel shall be a Multigard II Panel to match
Multigard II control panel recently provided to the County at Blower Building No.1 under
direct purchase by the County. All instrumentation, controls, and appurtenant equipment
associated with each of the blower control panels shall be furnished by the blower
manufacturer as specified herein.
C. All components, assemblies, and wiring shall conform to the requirements of the national
Electric Code, all local electrical codes, and shall be labeled "Approved" by Underwriters
Laboratories.
D. Electrical control schematic diagrams for the blower panels and all associated control
equipment and instrumentation shall be submitted in accordance with Section 1.06. The
blower manufacturer shall be responsible for proper interfacing with instruments and controls.
provided under other sections of the Specifications.
E. The blower control panels shall provide the following general monitoring and control
functions:
1. Manual start-stop of the blower from pushbuttons on the blower panel, and
instrumentation for monitoring the horsepower and annunciating alarms for
temperature, vibration, etc. as indicated on the Drawings.
2. Protective shutdown of the blower under abnormal operating conditions.
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3. Remote start/stop command from the plant's distributed control system for automatic .
mode. The blower manufacturer shall coordinate blower control panel I/O signals
with the plant's distributed control system. .
F. Blower Control Panels: Each blower is to be supplied with its own local control panel. The
control panel shall be supplied in a NEMA 12 enclosure. The panel shall be installed per
contract drawings. Finish shall be manufacturer's standard ANSI 61 gray polyester powder
paint with white interior and white subpanel.
G. Junction Box: A skid mounted stainless steel NEMA 4 junction box is to be supplied
mounted on blower base. Terminal blocks are to be supplied and prewired to blower and
motor mounted sensors. Flexible "Sealtite" conduit is acceptable. Wiring from the junction
boxes to local control panels shall be by the Contractor..
H. . Panels shall include the following monitoring and control functions:
1. Local/Remote Control
The panels will contain a LOCAL-OFF-REMOTE selector switch. The command
signal to the inlet throttling valve will be provided by the plant's distributed control
system when the switch is in REMOTE and by a local control station when the switch
is in LOCAL. Blowers may be started and stopped from push buttons at the panel.
When the switch is in REMOTE, the blower will be started and stopped by
momentary contacts from the plant's distributed control system. The throllling valve
shall not close below a minimum position to prevent surge conditions. The controls
shall include a coast down time delay interlocked with the blower start permissive.
The coast down tirne delay shall prevent the blower from starting until the coast
down timer has timed out. The panel will also contain a pilot light for Control Power
ON, Blower RUNNING, and Blower FAIL. All lights will be Push-to-Test.
2. Motor Protection
Each motor will be supplied with one winding temperature switch, which will shut
down the motor upon high temperature.
3. Blower Protection
The bJowefwill be supplied with meters to provide the following:
a. Surge/Overload protection - A dual display digital meter will be supplied. It
will display Amps and CFM simultaneously. Amps in upper display and CFM
in lower display. The meter will have (4) front mount LED's to indicate alarms
and shutdowns. It will also have four setpoints. Two relays will transmit
Impending Surge and Impending Overload alarms to the plant's distributed
control system and two relays will stop the blower on shutdown setpoints.
Meter shall receive a 4-20 ma signal from current transformer mounted in
motor conduit box. Motor current will also be retransmitted to the plant's
distributed control system with a 4-20 ma transmitter. Shutdown alarms will
be tied into a common blower fail circuit. Setpoints are field adjustable from
front mounted keypad.
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BLOWERS, CENTRIFUGAL, MULTI-STAGE
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-
b. Bearing Temperature protection (as shown on the Drawings) - A dual display
digital meter will be supplied. It will display Inlet Bearing Temperature and
Outlet Bearing Temperature simultaneously. The meter will have (2) front
mount LED's to indicate the shutdowns. It will also have two setpoints. Two
relays will stop the blower on shutdown setpoints. 100 OHM platinum RTD's
to be supplied in the blower bearing housings. Shutdown alarms will be tied
into a common blower fail circuit. Setpoints are field adjustable from front
mounted keypad.
c. Bearing Vibration protection (as shown on the Drawings) - A dual display
digital meter will be supplied. It will display Inlet Bearing Vibration and Outlet
Bearing Vibration simultaneously. The meter will have (2) front mount LED's
to indicate the shutdowns. It will also have two setpoints. Two relays will
stop the blower on shutdown setpoints. Piezoelectric accelerometers will be
supplied on the bearing housings. They will transmit a 4-20ma signal to the
monitor. The transmitter shall be stainless steel, water tight and have
provisions for 1/2-inch conduit and terminal blocks for connection. Shutdown
alarms will be tied into common blower fail circuit. Setpoints are field
adjustable from front mounted keypad.
4. Resets
A manual reset is required by operator to acknowledge any alarm prior to restarting
blower. All meters will be Smartmeters.
2.13 MISCELLANEOUS EQUIPMENT REQUIREMENTS
A. Pressure gauges shall comply with the requirements of Division 17 of the specifications.
B. All blower mounted instrumentation/controls shall be wired to a termination panel mounted
on the blower base, which shall serve as a common termination point between the blower
and the blower control panel.
C. Terminal strips shall be provided in the panel for all interconnecting wiring.
D. A 16 gauge Type Stainless Steel identification plate shall be securely mounted on each
piece of equipment in a readily visible location. The plate shall bear the 1/4-inch
die-stamped equipment identification numbers indicated in this Specification and/or as
shown on the shop drawings.
E. Miscellaneous hardware, including fastening bolts, nuts, washers, and fasteners clips shall
be of ASTM A 320, Type 316 Stainless Steel.
F. All equipment furnished shall be manufactured to comply with the most recent safety
standards of the Federal Occupational Safety and Health Act, and other applicable safety
codes.
G. All components provided under this section, both field and panel mounted, shall be provided
with permanently mounted name tags. Panel mounted tags shall be plastic; field mounted
tags shall be stamped stainless steel, inscriptions as directed by the Engineer.
H. Panel mounted nameplates shall be engraved, laminated plastic type with adhesive back.
The nameplates shall be of black lamicoid with white filled engraved legends.
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NCWRF COMPLIANCE ASSURANCE PROJECT
BLOWERS, CENTRIFUGAL, MULTI-STAGE
I.. Field;mounted tags shall be.16 gauge,. Type 304 Stainless Steel with 3/16-inch high
. characters.
PART 3 --INSTALLATION
3.01 INSTALLATION AND FIELD TESTS
A. The Contractor shall follow the recommendations of the equipment manufacturer in properly
selling blowers and drives on a flat arid level area. '. A grout, of the thickness as
recommended by the blower manufacturer between base plate and concrete pad shall be
installed by the Contractor. The Contractor shall also check and, if necessary, adjust the
alignment of the couplings and drive units. Checking and adjustments shall be done in
accordance with the instructions shipped with the blowers and to within a tolerance of +/- 2
mils, or better, as required by the blower manufacturer.
B. After each blower unit and its accessories have been completely installed and the electrical
connections have been made, it shall be subjected to field tests conducted by the ContraCtor
and witnessed by the Engineer to determine if it is free from all objectionable vibration,
bearing heating or other defects and if there is any overloading of the motors under actual
field operation.
C. Each blower and the drive shall be subjected to running tests under actual operating
conditioning for a period of 12 hours during the field test.
D. The Contractor shall be responsible for providingall material, labor, equipment, instruments
and meters required for running the field tests including calibration of all measurement
instruments. Actual operating conditions shall include filter units in service, all air diffusers
installed and aeration tanks filled with clean water above their discharge weirs, and the
balancing of air flows by the butterfly valves on the air lines to each aeration tank grid.
During the 12-hour period, each blower shall be operated at maximum and minimum flow
rates and in combination with other units.
E. The following data shall be recorded by the Contractor and provided to the Engineer for
each complete unit field-tested:
1. .Inlet and discharge air temperature
2. Inlet and discharge pressure
3. Operating speeds
4. .Oilterhperature
5. Oil pressure
6. Power consumption
7. Functional check of all accessory devices
8. Airflow readings
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BLOWERS. CENTRIFUGAL, MULTI-STAGE
9. Blower start/stop time
10. Barometric pressure
11. Relative humidity
12. Vibration readings
F. The controls and control panel features shall be tested to demonstrate SCADA operation,
local operation and proper operation of all alarms, monitors and controls.
3.02 PAINTING
A. The blower and accessories shall be sandblasted to SP-10 near white in the shop and
primed within six hours, using the primer for the system adopted by the Contractor as set out
in the painting section of Division 9. Motor control panels shall be shop painted with
manufacturer's standard finishes. Panels shall be field touched-up with original paint.
B. All Work under this section. except panels, shall be field painted in conformity with the
requirements of the painting section of Division 9.
3.03 INSULATION - INTERIOR
A. The blower discharge piping shall be insulated as shown on the Plans and as specified
herein. The insulation shall consist of fiberglass material applied to the piping with an
aluminum shield applied outside to protect the fiberglass.
B. Fiberglass material shall be applied two inches thick, shall have a density of three pounds
per cubic foot, and shall be furnished and applied in as large a sheet as convenient for the
particular pipe being insulated. Fiberglass material shall be as manufactured by
Owens-Corning, Manville, Corp., or equal.
C. Metal cladding shall be applied over the fiberglass and shall be 0.026 inch thick Series 5005
aluminum. The aluminum shall be attached to the piping with stainless steel bands or by
other means acceptable to the Engineer.
D. All piping (except valves), including fillings, flanges, flexible couplings, and miscellaneous
items shall be insulated. Fiberglass shall be notched as required to fit snugly around the
contour of smaller pipes. Provision shall be made for pipe supports and valve operators to
protrude through insulation. All areas shall be covered with aluminum cladding. Aluminum
cladding shall be cut and fitted neatly to suit the particular protrusion.
E. Stainless steel bands shall be installed at not less than two foot centers and at ail ends and
direction changes.
END OF SECTION
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BLOWERS, CENTRIFUGAL. MULTI-STAGE
SECTION 13110
FALL PROTECTION SYSTEM
PART 1 - GENERAL
1.01 SECTION INCLUDES
A. Requirements for one system supplier to provide a turn-key installation of a fall
protection system including design, furnishing and installing all materials and
components, and Owner training.
B. Identification of coordination and supplemental work required by the ContraCtor
including, but not limited to, lightning protection and signage.
1.02 SUBMITTALS
A. The system supplier shall visit the project site to evaluate the existing aeration basins
prior to submission of shop drawings. The site visit shall be coordinated with the
Engineer.
B. Shop Drawings as specified in Section 01330 - Submittals:
1. Drawings or catalog cuts required for the fabrication and installation of the fall
protection system, accurate in every detail and containing complete information
necessary for installation.
2. Statement of qualifications and experience. Calculations shall clearly identify the
design factor of safety.
3. Designer's structural calculations, which shall be signed and sealed by a
registered professional engineer in the state of Florida.
4. Complete manufacturer's specifications, including material description for all
harnesses, fasteners, Iifeiines, posts, cable accessories, personal self-retracting
lifelines, lanyards and all other devices and appurtenances_
5. Mounting, detail and wording for safety signs.
6. Description of proposed load test procedure as described in this Section.
7. Description of manufacturer's finishes.
8. Recommended spare parts and cost information.
9. Recommended maintenance procedures.
10. List of special tools furnished with the equipment.
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FALL PROTECTION SYSTEM
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11. Requirements for storage and protection prior to installation.
12. Anticipated installation period.
C. Quality Control Submittals:
1. Manufacturer's Certificate of Compliance.
2. Manufacturer's Certificate of Proper Installation.
D. Coordination
1. Contractor shall coordinate all work proposed under this section with the other
components ofthe Work including handrail, reinforcing steel, cast-in-place
concrete, piping, lighting, electrical grounding, lightning protection and electrical
systems.
2. Under the first phase of work for this section, the Contractor shall coordinate all
work with the existing structure, lighting and piping.
E. Warranty certificate.
1.03 QUALITY ASSURANCE
A. System Supplier's Qualifications: 5 year's of experience in design, fabrication, and
erection of fall protection systems similar to the proposed system.
B. Designer: Professional engineer registered in the state of Florida.
C. Erectors: Trained and approved by the system supplier.
1.04 WARRANTY
A. General: As specified in Division 1.
8. System supplier shall provide written, two-year warranty on all materials and
workmanship.
PART 2 - PRODUCTS
2.01 SYSTEM SUPPLIERS
A. Flexible Lifeline Systems, 14325 West Hardy Road, Houston, TX 77060, phone 832-
448-2904, or
B. Evan Corporation, 22 Southwest Avenue, Jamestown, RI 02835, phone 401-423-2230,
or
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NCWRF COMPLIANCE ASSURANCE PROJECT
FALL PROTECTION SYSTEM
C. . Other approved equal. manufacturers based in the United States. Contractor shall,
submit qualification information on any other system supplier being proposed for
consideration. Manufacturer must have minimum five years experience in the design
and installation of lifeline type fall protection systems.
2.02 . SYSTEM DESCRIPTION
A. It is . intended for the system supplier to design and install an extension of the fall
protectioh system for the existing aeration basins, numbers 4A-4D,. 5A-5D and 6A-6D.
The fall protection system shall be intended for outdoor service and to provide a safe
working environment for personnel on top of the basins whenever any odor control
covers are either being re-positioned or are relocated. The system shall be designed for
an individual fall weight of325 Ibs.
. .
B. The lifeline Safety Harness Support poies' location and quantity as shoWn on the fall
protection drawings are for illustrative purposes only and not reflective of any design
criteria or detail.
C. Fall Protection System: The system shall consist of lifelines with a minimum deck
clearance of 6.5 feet and with clip-on sliding devices which enable hands free bypass of
intermediate lifeline supports. Each sliding device shall be designed for use with
personal self-retracting. lifelines and full body harnesses. Each basin's lifeline shall be
capable of having four workers connected to the lifeline simultaneously.
D. It is intended that each basin's lifeline system will allow maximum freedom of movement
during either cover re~positioning or working in areas with the odor control covers
removed.
E. The personal self-retracting lifelines shall be for use by personnel on the top of the
basins. The personal retrieval self-retracting lifelines shall be for use by personnel
descending into the basins using a ladder.
F. The system shall be designed to allow use of a personal, self-retracting lifeline with a
built-in retrieval winch for emergency use to retrieve someone from the bottom of any
basin.
G. System shall include all anchors, fastening devices and other appurtenances necessary
for a complete, stand-alone fall protection system. The Contractor's attention is directed
to the width of the existing and proposed concrete members as may be needed for
structural attachment.
H. The Contractor's and the system supplier's attention is specifically directed to the
requirement for a complete system including lightning protection and grounding.
I. Contractor and system supplier are responsible to ensure the fall protection system
complies with all Federal, state and local statutes, codes and regulations.
J. Contractor shall coordinate all work proposed under this section with the other
components of the Work including reinforcing steel, cast-in-place concrete, piping,
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NCWRF COMPLIANCE ASSURANCE PROJECT
FALL PROTECTION SYSTEM
"_....._~~--
lighting, electrical grounding, lightning protection and .electrical systems. This
coordination shall include the existing structure, lighting and piping.
2.03 DESIGN
A. Conform to generally accepted engineering practice, and to the latest, applicable
industry standards including OSHA, ANSI Z359, ANSI A 10.14 and CSA Z259.1 0.M90.
2.04 COMPONENTS
A. All fixed structural components and accessories shall be constructed of 316 or 316L
stainless steel.
B. The full body harnesses shall be cross-over style with D-rings located front, rear and
both sides and manufactured by DBIISala Corporation, Red Wing, MN.
C. The personal self-retracting lifelines shall be Ultra-Lok SRL with 25 feet of synthetic rope
as manufactured by DBIISala Corporation. A quantity of four (4) shall be supplied.
D. The personal retrieval self-retracting lifelines shall be Sealed SRL with 50 feet of
stainless steel rope as manufactured by DBIISala Corporation. A quantity of three (3)
shall be supplied.
2.05 MISCELLANEOUS MATERIALS
A. Anchor Bolts and Threaded Fasteners: Type 316 stainless steel as specified in Division
5 - Metals. Supply a sufficient quantity of adhesive anchor or anchor bolts of suitable
size to avoid localized stresses in bolting.
B. Permanent, aluminum safety signs shall be installed on each Safety Harness Support
column.
2.06 FABRICATION
A. Execute work with mechanics skilled and experienced in the fabrication and installation
of fall protection systems.
PART 3 - EXECUTION
3.01 ERECTION
A. Provide suitable equipment for assembly and installation of the fall protection system.
B. Erection shall be supervised by a competent supervisor and performed by skilled and
experienced mechanics in accordance with the system supplier's standards.
C. Erect plumb and level and in proper alignment.
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NCWRF COMPLIANCE ASSURANCE PROJECT
FALL PROTECTION SYSTEM
D. Field cutting and patching will be permitted only with the Engineer's approval..
3.02 TRAINING AND SYSTEM CHECKOUT
A. Upon completion of each phase, the system supplier shall conduct a field test of the
system .to demonstrate the ability of each basin's lifeline and structure to carry the
intended design load under a fall situation.. The field tests shall be witnessed by the
Engineer and Owner.
B. At the conclusion of the first phase installation and test, the system supplier shall
provide one day of system demonstration and training of Owner staff, Training shall .
consist of two separate classes each with classroom and hands-on instruction in the
proper procedures, operation and maintenance of the system and system components.
The Owner may elect to videotape the training sessions.
C. System supplier shall provide five copies of a written maintenance plan for the complete
fall protection system including harnesses and self-retracting lifelines.
3.03 MANUFACTURERS CERTIFICATION
A. The system installer shall inspect the completed installation and Issue a written
certification of proper installation. .
END OF SECTION
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FALL PROTECTION SYSTEM
-"-'-0.__" ~
. .
SECTION 13200
ODOR CONTROL SYSTEMS - CHEMICAL
PART 1 - GENERAL
1.01 GENERAL
A. The Owner will be purchasing the odor control equipment for the Compliance Assurance
Project at the North County Water Reclamation Facility. The scope of the Owner supplied
equipment is specified in Section 13200A. The Contractor shall be responsible for reviewihg
and understanding the scope of Owner supplied equipment. The Contractor shall be
responsible for coordinating execution of the Contract Work with the Owner supplied
equipment. Such coordination shall include scheduling labor and construction equipment,
resource allocation and project management.
B. The supplier of the odor control equipment is identified as the Odor Control Systems
Supplier (OCSS). The OSCC has the sole responsibility to furnish equipmenllhat meets the
performance guarantees in Section 13200A.
C. The Contractor shall provide unloading, storage, installation, assistance with startup,
assistance with testing, assistance with air balancing of the duct systems. Refer to Section
13200A for additional information and Contractor responsibilities.
D. All ductwork, dampers and associated appurtenances shall be supplied by the Contractor.
E. The Contractor has the responsibility to unload, store and install the Owner supplied
equipment in full and strict accordance with the OCSS requirements. The Owner will provide
the Contractor with copies of the approved submittals and the installation and storage
instructions prior to unloading the materials from the OCSS. Unloadinq of any OCSS
gmplied materials shall not be performed by the Contractor unless either an OCSS
@.presentative is on site or the Owner issues a written document allowinq unloadinqJQ
proceed. As specified in Section 13200A, the OCSS will be providing field services for
observation of the Contractor's unloading and storage.
F. The Contractor shall be responsible for furnishing and installing certain electrical and
instrumentation items and appurtenances required for the complete installation of the odor
control systems. Such items include conduit and wiring and junction boxes and electrical
accessories and instruments as well as the supports, hangers and fasteners needed for
these items. Installation of the control panels and all instruments shall be performed by the
Contractor and shall include anchors, fasteners and similar appur:tenances. The OCSS shall
supply the control panels and those instruments specifically identified in Section 13200A.
Refer to Section 13200A, Divisions 16 and 17 and the Contract Drawings for additional
information and Contractor requirements.
G. The Contractor shall be responsible for furnishing and installing certain mechanical and
structural items and appurtenances required forthe complete installation of the odor control
systems. Such items include concrete foundation and slabs, embedded piping, pipe and
fittings and valves as well as the supports, hangers and fasteners needed for the piping, all
duct work and dampers (unless noted otherwise) and duct appurtenances as well as the
supports, hangers and fasteners needed forthe duel work and dampers. Installation of the
January 2010
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NCWRF COMPliANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
odor control systems shall include setting of anchor bolts and the complete assembly of all
materials provided by the OCSS. The Contractor installation shall include anchors,
fasteners, materials underneath the scrubbers, and similar appurtenances. The OCSS shall
supply the scrubber and fan anchor bolts as specifically identified in Section 13200A as well
as Divisions 2, 3, 5, 11, 13, 16 and 17 and the Contract Drawings. Refer to Section 13200A.
for additional information and Contractor requirements.
H. The Contractor is advised that the installed scrubber systems must comply with the National
Fire Code Standard NFPA 820.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A.. The Contractor shall follow all referenced specifications, codes and standards in the
Contract Documents.
PART 2 - PRODUCTS
2.01 GENERAL
A. During installation of the odor control systems, the Contractor shall furnish site work, concrete
work, metals, piping and valves, electrical items, ducting, dampers, instrumentation, supports,
fasteners, miscellaneous work, and appurtenances as specified in the Contract Documents.
B. Any Contractor supplied materials that are not specified in the Contract Documents shall be
furnished in accordance with the written recommendations of the OCSS and the Engineer.
PART 3 - EXECUTION
3.01 GENERAL
A. All parts and materials furnished for the odor control system by the OCSS shall be installed
by the Contractor in striclaccordance with the OCSS instructions and as further provided by
guidance of the OCSS field representative. If at any time the OCSS field representative
provides verbal guidance contrary to the written instructions of the OCSS, the Contractor
shall advise the Engineer immediately and shall not proceed with the work affected by such
contradiction until the issue is resolved in writing by the Engineer.
B. The equipment shall be placed in proper operating condition in full conformity with the
Drawings and Specifications, and the OCSS submittals, manuals and shop drawings as
approved by the Engineer. Each item of equipment shall be installed complete with all
supports, electric drive units, shafts, sprockets,. mechanical equipment, electrical work,
instrumentation and controls, and all appurtenances ready for operation.
.
3.02 SHIPMENT AND DELIVERY
A. Refer to Section 13200A for information regarding shipment and delivery of the Owner
furnished materials.
B. The Contractor shall receive two week advance written notice before shipment of any
material occurs. Forty-eight hour written notice shall be provided prior to site delivery of any
. material. The Contractor shall provide planning, coordination and adequate resources to
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...______.~___..*m._._' ._......"_.._n _ __ .....,_..._.
receive, unload and store the Owner furnished materials. Refer to Part 1.01.0 of this
Section for additional information and requirements regarding delivery and unloading of
materials and parts.
3.03 FIELD ACCEPTANCE PERFORMANCE TESTS
A. The Contractor shall provide planning, coordination, labor, supervision, and general
assistance to the OCSS field representative for the performance tests. Such assistance
shall include unloading all test equipment and materials and connecting such devices and
materials and providing labor as needed to assist the OCSS field representative to complete
the testing. Such assistance will include disconnecting such devices and materials and
loading them for shipment off the site. This assistance will include mechanical and electrical
workers. Refer to Section 13200A for additional information and Contractor requirements.
B. The Contractor shall prepare a construction schedule with activities that allow a minimum of
five days of performance testing assistance for each odor scrubber and its associated
ductwork and instrumentation.
3.04 PAINTING
A. All surfaces of materials and equipment furnished by the Contractor shall be finish painted in
accordance with the requirements of Section 09850 entitled "Painting".
3.05 FIELD SERVICES OF ODOR CONTROL SYSTEM SUPPLIER
A_ Refer to Section 13200A for additional information and requirements regarding the field
services of the OCSS.
B. At all times and whenever the OCSS field representative is on site, the Contractor shall
provide labor and construction equipment as needed to assist the field representative. The
Contractor shall plan and execute his Work to allow this labor assistance. Such labor shall
consist of, at a minimum, one pipe fitter, one electrician and two laborers.
C. The Contractor shall assisllhe OCSS field representative with airfiow balancing oflhe odor
control system including adjustment of dampers in duct located on and within various facility
structures. The flow balancing services shall occur at least three times during construction
and shall also include trial balancing after completion of all testing for at least five different
operational scenarios.
E. The Contractor shall plan and execute the Work in coordination with the OCSS project
manager. Refer to Section 13200A for additional information and requirements.
END OF SECTION
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
SECTION 13200A .
ODOR CONTROL SYSTEMS - CHEMICAL
FURNISH WITH FIELD TESTING, START-UP,
TRAINING AND CONSTRUCTION SERVICES
INSTALLATION BY CONTRACTOR
PART 1 - GENERAL
1.01 . THE REQUIREMENT
A. The work specified herein shall include design, furnishing and testing of all equipment and
materials n19cessary to provide the Owner with completely operational Odor Control
Systems. The Odor Control Systems shall be completely packaged multi-stage, FRP,
absorption systems of unitary construction and provided by the Odor Control Systems
Supplier (OCSS).
B. The Scrubber Systems shall be provided to treat gases from the following processes:
1. MLE Aeration Basins, two new
2. Aerated Sludge Tanks/Pretreatment, one new and modifications to one existing
system.
C. Each new scrubber system shall consist of one (1) complete "once-through three-stage",
pre-piped, wired, and packaged unitary construction Odor Control System, which includes an
integral absorber with three chemical scrubbing stages, a mist eliminator, exhaust fan,
chemical recirculation pumps, chemical metering pumps, piping and valves and fittings as
noted in the OCSS scope of supply, control panel, anchor bolts and all other equipment and
accessories as specified to provide a complete and functioning system. Scrubber system
design shall conform to National Fire Code Standard NFPA 820.
D. The Odor Control Systems Supplier (OCSS) shall have unit responsibility for the correct
furnishing and operation to meet performance guarantee's for the equipment specified
herein.
E. The Contractor shall provide all unloading, storage, installation, and support for startup and
testing
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. The scrubber systems and appurtenances shall conform to, but not be limited to, the
following standards:
1. ASTM Standards
C581 Test for Chemical Resistance ofThermosetting Resins used in Glass
Fiber Reinforced Structures.
C582 - Specification for Reinforced Plastic Laminates for Self Supporting
Structures.
D618 - Conditioning Plastics and Electrical Insulating Materials for Testing.
D638 - Test for Tensile Properties of Plastics.
January 2010
13200A-1
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
." "_'M .._...w..__.,___~,.__, .__~_._,__._.~__.~__..."...._._.'
-
- _,_,~-,,--~,_"--'''''-' ,.. ,,--.._,',.'-""
D695 -
D790 -
. D883 -
D1180 c
D1599 -
D1693 -
D1928 -
D1998 -
D2150 -
D2412 -
D2563 -
D2583 -
D2584 -
D2837 -
D3299 -
D4097 -
D4167 -
E84
B. Other Standards:
Test for Compressive Properties of Rigid Plastics.
Test of Flexural Properties of Plastics and Electrical Insulating
Materials.
Definition of Terms Relating to Plastics.
Test for Bursting Strength of Round Rigid Plastic Tubing.
Test for Short-Time Rupture Strength of Plastic Pipe, Tubing and
Fittings.
Test Methods for Environmental Stress-Cracking of Ethylene Plastics
Preparation of Compression Molded Polyethylene
Standard Specification for Polyethylene Upright Storage Tanks
. Specification for Woven Roving Glass Fabric for Polyester Glass
Laminates
Test for External Loading Properties of Plastic Pipe by Parallel-Plate
Loading.
Recommended Practice for Classifying Visual Defects in Glass -
Reinforced Plastic Laminate Parts.
Test for Indentation Hardness of Plastics by means of Barcol
Impressor.
Test for ignition Loss of Cured Reinforced Resins
Method for Obtaining Hydrostatic Design Basis for Thermoplastic
Pipe Materials
Filament-Wound Glass-Fiber Reinforced Polyester Chemical
Resistant Tanks.
Contact Molded Glass Fiber Reinforced Thermoset Resin Chemical
Resistant Tanks_
Standard Specification for Fiber-Reinforced Plastic Fans and
Blowers.
Test for Surface Burning Characteristics of Building Materials.
Florida Building Code
National Fire Protection Agency No. 91
MIL-M-15617 Mats, Fibrous Glass for Reinforcing Plastics
BS Voluntary Product Standard PS 15-69 Custom Contact-Molded Reinforced Polyester
Chemical Resistant Process Equipment
Air Movement and Control Association, Inc. (AMCA).
American Society of Mechanical Engineers.
1.03 MANUFACTURERS
A. The OCSS shall be experienced in the design, construction and successful operation of
multiple stage packed tower scrubbers for the removal of hydrogen sulfide gas and other
odor producing compounds from air ventilated from wastewater treatment systems. The
systems shall be LO/PRO series as supplied by Siemens Water Technologies; NO
SUBSTITUTIONS ARE ALLOWED. The modifications to the existing La/PRO system shall
January 201 0
13200A-2
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
be supeniised by Siemens as described in this section and the Contract Drawings. LO/PRO.
model numbers for each service shall be as follows:
1. MLE Aeration Basins, LP-7000HQ
2. Aerated Sludge Feed Tanks/Pretreatment, LP-7000
B. The OCSS shall verify that the systems will meet the Conditions of Service. In general, the
equipment has been sized around standard models to handle specific air volumes and
hydrogen sulfide concentrations. To satisfy the Conditions of Service, the OSCC shall select
the packed bed media and the scrubbing liquid distribution header. The OSCC may also
adjust pump recirculation rates and make other recommendations that could improve the
efficiency and/or performance of the systems.
C. To insure complete coordination of all components and to provide system responsibility, all
equipment furnished under this section shall be the undivided responsibility of the OCSS.
1.04 SUBMITTALS
A. Shop Drawings:
1. In accordance with the procedures and requirements set forth in Section 01330A
entitled "Submittals", the OCSS shall submit for review design data and detailed
shop drawings of the scrubber systems. The shop drawings shall include but not be
limited to the following:
a. Structural calculations and drawings for the scrubber vessels, deflection of
the vessel at the point of connection with the ductwork, thickness, anchor
bolt size and location, lifting hooks, and loads imposed by appurtenances
such as inlet ducting. The Engineer will review the structural drawings and
calculations for completeness only. All structural drawings and calculations
shall be signed and stamped by a Professional Engineer.
b. Manufacturer's catalog information on the packing proposed and calculations
to verify packing volume required, packing transfer coefficient (KLa, sec-')
NTU and HTU (number and height of transfer units). Submit sample of
packing.
c. Complete master power and control wiring diagram, control schem'atics, and
suitable outline drawings oflhe control schematics shall be furnished as part
of the shop drawings.
d. Certificate for the odor scrubber listing the resin to be used, its composition,
that it has been tested in accordance with ASTM Standards and that the
resin is compatible with an environment consisting of air, caustic, hydrogen
sulfide gas, methane, ammonia various aromatic hydrocarbon vapors,
droplets of salt water, and droplets of water containing sodium hypochlorite,
sodium hydroxide, sulfuric acid, and hydrochloric acid.
2. . The OCSS shall submit the following. information for the scrubber recirculation
pumps and the diaphragm metering pumps specified herein:
January 2010
13200A-3
NCWRF COMPliANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
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a. Pump hydraulic characteristic curves, efficiencies, required NPSH, and
horsepower curves at pump rotative speeds corresponding to the conditions
specified.
b. Pump performance test curves shall be submitted as specified in Item 3.03 of
this section.
c. Complete motor data.
d. Copies of all factory test results.
e. A list of the OCSS recommended special tools, spare parts and
recommended lubricants to be supplied.
f. Identify recommended L-10 bearing life, shaft size, coupling size and anchor
bolt size.
g. General cutaway sections, materials, dimension of shaft projections, shaft
and keyway dimensions, shaft diameter, dimension between bearings,
general dimensions of pump, suction head bolt orientation, design of
baseplate, and anchor bolt locations and forces.
h. Uncrated weight of the pump, weight of heaviest part of pump.
B. Operation and Maintenance Manuais:
1. The OCSS shall submit operation and maintenance manuals in accordance with the
procedures and requirements set forth in Section 01330A and Section 01830A.
2. The 0 &_ M Manual from the OCSS shall include a detailed text and tabular
description of the operational strategy, damper settings, motor VFD settings as
applicable, flow rates and other detailed settings and adjustments for at least six
different operating scenarios. The Engineerwill identify the desired airflow rates for
each scenario. The 0 & M Manual shall also include a detailed trouble-shooting
guide for the odor control units and all associated duct and instrumentation. This
trouble-shooting guide shall be in easy-to-follow text and tabular format and include
all signals, alarms and displays at the Local Control Panel and the SCADA based
HMI as well as the appropriate reactive operational strategy, damper settings, motor
VFD settings as applicable, flow rates and all other settings and adjustments.
3. Two copies of a preliminary O&M manual shall be included in the shop drawings
submittal. Without inclusion of these manuals, the submittal will be considered
incomplete and will be returned without review.
C. OCSS Certificate of Proper Installation and Operation.
D. Warranty.
1.05 SPARE PARTS
A. The following spare parts are to be supplied with each scrubber:
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
1. One set blower belts and bearings.
2. One metering pump rebuild kit for each pump on the scrubber.
3. One rebuild kit for each pH and ORP probe on the scrubber.
4. One diaphragm head, 3", for the chernical metering pumps.
1.06 CLEANUP
A. After completion and testing the Contractor shall remove all debris and spilled chemicals'
from the site and clean the entire system to render it ready for startup.
1.07 WARRANTY AND PERFORMANCE GUARANTEE
A. The OCSS shall provide a full warranty on all components, equipment, instruments and
devices for a period of two years from Substantial Completion or 30 months from final
delivery, whichever occurs first.
B. In the event the field testing indicates changes are required to the Odor Control Systems in
order to satisfy the performance requirements, the OCSS shall pay all costs associated with
such changes.
C. Substantial Completion forthe PretreatmenUSludge Tanks odor control systems shall occur
when all equipment and systems provided by the OCSS is installed by others and
successfully started and tested. Start-up and testing of individual odor control units in this
area of the facility will not constitute Substantial Completion.
D. Substantial Completion for the MLE Aeration Basins' odor control systems shall occur when
all equipment and systems provided by the OCSS is installed by others and successfully
started and tested. Start-up and testing of individual odor control units in this area of the
facility will not constitute Substantial Completion.
1.08 TERMS OF PAYMENT
A. The payments to the OCSS shall be as follows:
1. Approval of all submittals including preliminary O&M manuals: 8% of total amount.
2. Delivery of all materials: 72% of total amount.
3. Successful startup, performance testing, control panel functionality, and air
balancing: 15% of total amount.
4. Completion of training and final O&M manuals, 5% of total amount.
PART 2 - PRODUCTS
2.01 PACKED TOWER SCRUBBERS
A. General:
January 2010
13200A-5
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
-~"-. -._.._~-_...~>'.... ..........__....-" """'.. _._,,-_._.,,~>."-~"._--
1. Each three-stage packed tower air scrubber system shall be capable of removing, .
hydrogen sulfide, organic odor compounds, and associated sewage odors from air
ventilated from operating spaces using 25 percent sodium hydroxide solution and
12.0 percent sodium hypochlorite solution as the scrubbing liquids.
2. The odors shall be absorbed and/or oxidized by the scrubbing solution. The odor
free gases shall escape to the atmosphere through the exhaust stack of the third
stage. The scrubbing liquids shall be captured in sumps constructed at the bottom of
the vessels from where it is recirculated. A smail amount of scrubbant shall be
wasted through overflow connections in the sumps to prevent build-up of salts and
other by-products. The scrubbant wasting flow rate is controlled by adding chemical
solutions and/or non-potable make-up water on a continuous basis to the
recirculation line. The wasting flow rate shall not exceed 10 percent of the
recirculation rate through the scrubber. The scrubbant overflow shall be discharged
into the plant sanitary drain line.
3. The scrubber shall operate with a maximum air flow pressure loss, as listed in the
design criteria Paragraph 2.01.B., from air inlet flange to the air outlet flange of the
scrubber (including losses through the mist eliminator).
4. Materials and equipment shall conform to the requirements specified herein and as
shown on the drawings, and shall be the products of manufacturers regularly
engaged in the manufacture of such products. All materials shall be new and both
workmanship and materials shall be of the very best quality, entirely suitable for the
service to which they are subjected. All wetted parts must be corrosion resistant to
the recirculation scrubbing liquid as specified in the Design Criteria. No wetted metal
parts shall be allowed in the scrubbers except for internal bolting which must be of
Hastelloy C material.
5. The Contractor shall provide all unloading, storage, installation, and support for
startup and testing
B. Design:
1. The new packed tower odor control systems shall be designed for the following
operating conditions and criteria:
MLE Aeration Basin Odor Control System, OCU 4 & 5
Number of Odor Control Systems 2
Air Flowrate Each Scrubber Unit, cfm 28,000
HzS In, ppm (max) 5
HzS In, ppm (avg) 3.1
HzS Removal Efficiency, % 99.5 or 0.1 ppm, whichever is
greater
COzln, ppm (max) 12,000
COzln, ppm (avg) 9,000
January 2010
13200A-6
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
. Max. Scrubber Unit Pressure Loss,in.
w.c.
8.0
Aerated Sludge Feed Tanks/Pretreatment Odor Control Systems, OCU 2 & 3
Number of Odor Control Systems 1
Air Flowrate Each Scrubber Unit, cfm . 5,200 - 22,850
HzS in ppm (max) 150
Minimum Removal Efficiency, % 99.5 or 0.1 ppm, whichever is
greater
Max. Scrubber Unit Pressure Loss, in. 10.0
W.c.
C. Materials of Construction:
1. Scrubber vessel shall be manufactured from FRP. The material of construction shall be
suit;able for continuous exposure to saturated hydrogen sulfide gas, sodium hypochlorite,
sodium hydroxide, sulfuric acid and hydrochloric acid. The resin shall be reinforced with
an interior Type C fiber glass. The scrubber vessel shall be contact molded one-piece
construction with no cell joints. A final gel coat is required such that no glass fiber is
exposed. Final gel coat shall be pigmented. The color of the gel coat shall be as
selected by the Engineer. The fiber glass shall contain an ultra violet absorber to protect
. the resin from ultra violet degradation.
2. The scrubber absorber vessel and accessories shall be contact molded and
manufactured in accordance with NBS PS 15-69, ASTM D 4097 for contact modling and
ASTM D 3299 for filament winding. Any visual defects shall not exceed ASTM D-2563
Table 1 (which is included in Table 1 at the end of this section). Any material of
construction other than FRP with premium grade vinyl ester resin will not be allowed.
3. Resin used in fabrication shall be a premium vinyl ester type such as Hetron 922 by
Ashland Chemicals, Derakane 411 by Dow Chemical or approved equal. The resin shall
be reinforced with an inner veil of a suitable synthetic organic fiber such as Nexus 1012.
4. Reinforcement: Glass fiber reinforcement used shall be commercial grade corrosion
resistance borosilicate glass.
. All glass fiber reinforcement shall by Type C, chemical grade, Type E electrical
grade.
. Surfacing veil shall be 10 mil Nexus 1012 or equal.
. Mat shall be Type "E" (electrical grade) glass, 11/2 oz. Per sq. ftwith a nominal fiber
length of 1.25 + 0.25 inches, with a saline finish and styrene soluble blinder.
. Continuous glass roving, used in copper gun spray-up applications shall be type "E"
grade with chrome or saline coupling agent.
January 201 0 ,
13200A-7
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
. Woven roving used for reinforcement shall be 24 oz. per sq. yard type "E" glass and
have a 5 x 4 plain weave.
5. Miscellaneous
. Stainless Steel: Unless otherwise specified, all fasteners, and metal attachments,
such as anchors, brackets etc., shall be ANSI 316 SS.
. Gaskets: Unless otherwise specified, all gaskets shall be EPDM.
D. Color: The color of the scrubber shall be selected by the Engineer prior to the start of
fabrication. The OCSS shall indicate custom color selections and provide color chips in its
shop drawing submittal.
E. Fabrication:
1. General: Fabrication shall be in accordance with NBS PS 15-69, ASTM D 3299 and
ASTM D-4097. All non molded surfaces shall be coated with resin incorporating
paraffin to facilitate a full cure of the surface. All cut edges, bolt holes, secondary
bonds shall be sealed with a resin coat prior to the final paraffinated resin coat. All
voids to be filled with a resin paste.
2. Corrosion Liner: The inner surface of all laminates shall be resin rich and reinforced
with one NEXUS 111-00010 with a minimum thickness of 10 mils. The interior
corrosion layer shall consist of two layers of 1 1/2 oz. per sq. ft chopped strand mat.
If the application is by chopper gun spray up the glass fiber shall be 1/2 to 2 in
length. The total corrosion liner thickness shall be a minimum of 100 mils and have
a resin to glass ratio of 80/20. All edges of reinforcement to be lapped a minimum of
one inch.
3. Structural Laminate: Structural laminates shall consist of alternating layers of 1-1/2
oz per sq. ft mat or chopped glass and 24 oz per sq. yard woven roving applied to
reach a designed thickness. Actual laminate sequences shall be per the laminate
tables shown on fabrication drawings. The exterior surface shall be relatively
smooth and shall have no glass fibers exposed. The exterior shall be surface coated'
with white gel coat containing ultra violet light inhibitors.
F. Accessories: Air inlet, air inlet box (OCUs 4 and 5 only), air outlet, pump connection, spray
headers, baffles, packing support, drain, level connection access for mist eliminator and all
connections shown on the drawings shall be provided by the OCSS. Tie down lugs shall be
integrally molded into the walls of the sump. Anchor bolts shall be Type 316 stainless steel
anddesigned for the specified loads. Flanges for liquid service shall be ANSI Std B 16.9 and
air connections shall be duct flanges per PS 15-69 Table 2. Access flanges for manways,
mist eliminator, and packing access flanges shall be air tight to the pressure equal to or
higher than the corresponding fan static pressure and shall be water tight. Interior fasteners
shall be of corrosion resistance materials such as PVC or FRP. All equipment anchor boits
and all miscellaneous system fasteners shall be provided by the OCSS.
G. Mist Eliminator WashSvstem: A liquid distributor with nozzles shall be provided to manually'
spray dilute hydrochloric acid for mist eliminator and packing washing.
January 2010
13200A-8
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
. H. Unitary Construction: Except forthe fan,inlettransition and the stack, the scrubber system
shall be designed, fabricated, factory assembled and shipped to the job site as one piece.
I. Piping: All chemical recycle piping, make-up water and drain piping, and blowdown piping
shall be SCH 80 PVC.
J. Struc~ural Design:
1. The OCSS shall have full responsibility for the complete structural design of each
scrubber vessel. Duct, flanged joints, field wrapped joints, supports., and packed
. tower scrubber vessel shells located outdoors shall be designed in accordance with
the latest edition of Minimum Design Loads in Building and other Structures, ANSI
A58.1, for 150 mph, Exposure Category C, Importance Factor of 1.15 and in
accordance with the Uniform Building Code and the Florida Building Code.
2. The treated gases, from the packed tower scrubber, discharge from free standing
vertical stacks above the top flange of the vessels. The OCSS shall consider, in the
design of the vessels, stacks, flanges, and hold-down brackets the dead loads and
. previously specified wind loads rmposed by the stacks. The specified thickness for
the scrubber vessel wall, heads and outlet flange are minimum and the manufacturer
shall increase the thickness or provide any additional reinforcement required to meet
the above stated conditions.
K. Packing: The packing material shall be random dumped polypropylene packing (maximum
.3.5-inch diameter) by Jaeger Tri-Packs, Lanpac or approved equal. All packing support
grids shall be designed to withstand the operating load with a minimum of300 percent safety
factor. The OCSS shall submit calculations showing design basis, NTU and HTU transfer
units.
L. Scrubbing liqUid Distribution Header: The header shall be made of Schedule 80 PVC or
FRP and be of the manufacturer's design. Nozzles and material shall be suitable for the use
with the recirculation liquid. The header shall be located above the packing and shall consist
of a uniformly distributed full bed diameter single spray, with no moving parts. Multiple spray
systems with pipe lateral type distributors located above the packing will also be acceptable.
The distributor piping. shall be constructed with screwed connections capable of
disassembly. Spray nozzles shall be easily removable for cleaning.
M. . Mist . Eliminator: A mist eliminator shall be located above the header to prevent
entertainment of liquid particles in the air and shall be nonclogging and nonblinding. The
mist eliminator shall be capable of handling droplets sized 12.0 micron or more, with an
efficiency of 99 percent. The mist eliminator shall be polypropylene mesh-type pad with a
minimum thickness of 4 inches. A packed bed mist eliminator shall also be acceptable, with
a 12" deep bed of Jaeger Tri-Packs 1" packihg. The mist eliminator grid support shall be of
the same material as the vessel and shall be supplied by the same manufacturer.
N. The stage 3 air outlet opening shall be provided with 24-mesh plastic or stainless steel
insect screen. The outlet stack shall have a wye configuration with blind flange and sample
port to permit H2S monitoring, as shown on the Contract Drawings.
2.02 RECIRCULATION PUMPS
January 2010
13200A-9
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
''''~'"''__"'__._'_4..'O__,.o'_ '."
A. Each sump shall have a recirculation pump. The recirculation pump shall be a sealcless,
rugged,verlieal, centrifligaltype pump of virgin unfilled plastic construction for corrosion
resistance and long services life. No seal water shall be required. Pump design shall
feature an impeller in the submerged casing, cantilevered shaft, no bearings immersed in
the process fluid and dry running capability. The pump shall be driven by a "C" face motor,
mounted on an epoxy-coated cast iron motor bracket, sitting on pump mounting plate and
connected to the pump shaft via a durable, flexible coupling to isolate the motor from
hydraulic thrust force.
B. The casing and impeller shall be molded from premium grade unfilled virgin plastic. There
should be no metal wetted components. Wetted bolts shall be made of the same material
as pump casing and column.
C. Pump shafts shall be machined from center-less ground 304 SS, encapsulated with plastic
sleeving that is the same material as the pump.
D. The thrust bearing shall be independent from the motor, located in brackets above the
mounting plate. No bearings shall be immersed in the process solution. A non-metallic
vapor seal to protect the metal motor bracket from corrosive fumes shall be provided. No
external flush water shall be required. Pumps that use scrubber sump liquid to flush seals
shall not be acceptable.
E. The unit shall be built with casing cover and impeller assembly modified for thermal
fiuCluation enabling the pump to be used through the full range of temperature settings.
F. Each pump shall be furnished with an all plastic fabricated strainer basket with )I.i" diameter
perforations in same to keep any large particles out of the casing or impeller area.
G. Motors shall be "C" face, 460V, 3PH, 60Hz, suitable for operation in Class 1, Division 2
classified area. Motors shall be provided with 120 VAC space heaters and motor winding
temperature switch. Motors shall be manufactured by WEG, Baldor, Reliance or approved
equal.
1. Motors shall meet the requirements of NFPA 820.
H. The pump shall be Vanton Sump-Gard SGK or Serfilco. The Owner will advise the preferred
manufacturer.
I. The pump shall be sized by the OCSS for proper flow rate and pressure as required for the
installation. The minimum pump capacity shall be as follows:
STAGE 1 STAGE 2 STAGE 3
System GPM Pump GPM. Pump HP GPM Pump
HP HP
MLE Aeration Basin 600 25 600 25 600 25
oeus 4 & 5
. Aerated Sludge Feed 430 15 N/A N/A 430 15
Tanks/Pretreatment
oeus 2 & 3
January 2010
13200A-10
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
J. Seal Lubrication:
.1. For OCUs 3, 4 & 5 the primary water supply will be plant service water with a
secondary water supply being process water in sump.
2. For OCU 2, retrofit existing pump tubes with a tee and water supply tube with a.
check valve; which allows primary water from plant services water and secondary
water supply from process water in sump.
2.03 EXHAUST FANS
A. . ExhaustFans: Fans shall have fiberglass reinforced plastic centrifugal impeller, either radial
or backward inclined, depending on volume and pressure. Wheel shall be statically and
dynamically balanced. Resin shall be suitable for exposure to the specific service
conditions. Shaft shall be 316 stainless steel. Shaft seal shall be Viton.
B. Bearings shall be heavy duty, self aligning grease lubricated ball type with minimum of
100,000 hour L-1 0 life. OSHA approved belt guard and shaft guard shall be provided. Fans
shall be belt driven.
C. Fan housing shall be constructed of fiberglass and reinforced with rigid bracing to increase
structural integrity. Bearing support brackets shall be positioned to directly oppose belt
tension forces. Fan housing shall be a curved scroll design with a 1-inch NPT drain
connection at the bottom oflhe fan scroll. Fan outlets shall have flanged nozzles. Fan shall
have an inspection port.
D. The fans shall be designed for the following specifications:
Exhaust Fan Design MLE Aeration Basin Aerated Sludge Feed
Requirements Odor Control System, Tanks/Pretreatment Odor
OCU 4 & 5 Control System,
OCU 2 & 3
Air Flow Rate, cfm 28,000 22,850
Duct Losses to 4.5 2.0
Scrubber Inlet, in. WC
Total Pressure Drop 12.5 10.0
(Scrubber plus Duct),
inWC
Motor HP 100, constant speed 60, variable speed
E. Fans shall be New York Blower or approved equal. The fan shall have an AMCA seal.
F. Fan inlet shall be provided with a rubber boot with Type 316 stainless steel band, The fan
shall be anchored to the concrete pad without vibration isolators.
G. The fans shall be mounted on a concrete pad.
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
H. Flexible Connector: Provide flanged expansion joint for outlet of fan to FRP vessel inlet
transition piece. The flange drilling shall be coordinated with fan and transition:
1. Type: W-design configuration with integral flanges suitable for service with FRP
duct.
2. Material shall be EPDM resistant to ultraviolet light degradation and suitable for
contact with odorous air as specified herein. The backing rings shall be X-inch thick,
2" wide, type 304 stainless steel. The length from f1ange-to-f1ange shall be 6" unless
shown otherwise. The extension shall be 1 inch, compression shall be 2 inches,
lateral offset shall be 2.5 inches, and the thickness shall be X-inch minimum.
3. Manufacturer shall be Senior Flexonics or approved equal.
I. Motors shall be 460V, 3PH, 60Hz, suitable for operation in NEC Class 1, Division 2
classified area, 1800 RPM with 1.15 service factor. Motors shall be provided with 120 VAC
space heaters. Motors shall be manufactured by WEG, Baldor, Reliance or approved equal.
1. Motor for existing fans on OCU 2 is to be replaced to meet the requirements of
NFPA 820, and shall be inverter duty rated. The OCSS will provide the new motor.
The Contractor will remove the existing motor and install the new motor.
2. Motor for the fan on OCU 3 shall be inverter duty rated.
J. Provide a fan vacuum switch on the ductwork in each fan's suction duct. The switch shall
indicate an alarm and shut down the fan if a high vacuum pressure is detected. The vacuum
switch shall be Dwyer Series 1950 with UL explosion-proof enclosure.
K. Provide a vibration switch on each blower frame to initiate an alarm if there is excessive
vibration detected. The vibration switch shall be Robertshaw Model 365A, UL explosion-
proof enclosure.
2.04 CHEMICAL FEED SYSTEMS
A. The chemical feed and dilution system takes sodium hydroxide and sodium hypochlorite and
dilutes the chemical, and delivers it to the spray nozzle where the chemical solution is
circulated through the packing media. The chemical feed and dilution system shall contain
all piping and equipment necessary to deliver chemicals from storage tanks to the scrubber
vessel or withdraw the chemical required by means of dip tubes from 55 gallon drums.
B. Chemical Metering Pumps
1. General: Positive displacement, mechanical diaphragm type chemical metering
pumps shall be provided to deliver 25% sodium hydroxide and 12.0% sodium
hypochlorite solution to the scrubber. All chemical-metering pumps shall be suitable
for 24 hour per day operation under peak load conditions. All pumps shall have a
minimum discharge pressure of 50 psig.
2. Pump Construction: A steel and nodular iron non-loss-motion, adjustable stroke
mechanism, driven by a direct coupled variable speed DC motor, shall actuate aflat,
teflon-faced composite diaphragm. Solenoid-driven pumps or lost-motion
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
mechanically actuated diaphragm pumps will not be accepted. The liquid ends shall
provide for easy hnaintenance and integral sight flow indication via clear PVC
cartridge-type check valves. Conventional threaded valves and external sight flow
indicators will not be allowed. Motors shall be suitable for use in Class 1, Division 2,
Group D explosion proof areas and compliance with NFPA 820.
3. Drive: A steel and nodular iron non-loss-motion stroke adjust mechanism shall be
housed in a corrosion resistant, epoxy painted, cast iron gearbox. All drive bearings
shall be tapered rollers; all fasteners shall be oil-bath lubricated. Stroke length shall
be controlled manually via a 10-turn micrometer-type adjuster. A percent scale and
vernier shall indicate stroke length in 0.25% increments. Each revolution of the knob
shall change stroke length by 10%_
4. !Jguid End: The process diaphragm shall be of Hypalon construction. It shall
incorporate convolutions, for unconstrained rolling action and a steel backing plate
for volumetric accuracy. An o-ring groove in the head's diaphragm cavity will provide
for a complete lead-free seal. Positive fiow shall be ensured via cartridge-type check
valves. The valve retainers shall be clear PVC, for integral sight flow indication and
. shall compression seal between the pump head and pipe connectors. A secondary
diaphragm shall be completely sealed and separate from the pump head from the
drive unit, to eliminate any risk of cross-contaminating gearbox lubricant and process
fluid.
5. Control: Each pump shall be automatically shut off if a low level is sensed in the
appropriate chemical tanks.
6. Manufacturer: The sodium hypochlorite and sodium hydroxide metering pumps shall
be Wallace & Tiernan, Encore or approved equal.
7.
.
f
Desion Criteria: Desi n criteria shall be as listed in the ollowin table:
MLE Aeration Aerated Sludge
Basin Odor Feed
Control Systems, Tanks/Pretreatment
OCU 4 & 5 Odor Control
Svstem Systems, OCU 2 &
Service Sodium Hydroxide
.
No. of Units Three (3) Two (2)
Capacity Range, Each Pump 1to 13 1to 13
(gph)
.
Hated Maximum Discharge 175 175
Pressure (ps.ig)
, DC/SCR Variable DC/SCR Variable
Type of Drive Speed, 0 to 90 Speed, 0 to 90
. . VDC VDC
.
Diaphragm 2" 2"
--
January 2010
13200A.13
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
_' _'_ ,......_.. __.~_"C,".._..,_... "~.,,,..,,__~,~..~,.~..,..,...._....'
"
"
Service Sodium Hypochlorite
No. of Units One (1), Stage 3 One (1)
Capacity Range, Each Pump 2to 26 2to 50
(gph)
Rated Maximum Discharge 175 50
Pressure (psig)
DC/SCR Variable DC/SCR Variable
Type of Drive Speed, 0 to 90 Speed, 0 to 90
VDC VDC
Diaphragm 2" 3"
2.05 MODIFICATIONS TO EXISTING SCRUBBER - ODOR CONTROL UNIT 2
A. The Contractor shall modify the existing LO/PRO 7000 odor control system for the Aerated
Sludge Tanks/Pretreatment under the supervision of the OCSS. All materials and
equipment associated with the modifications shall by furnished by the OCSS and comply
with the requirements for similar material and equipment in this Section. The Contractor will
provide all coordination, supervision, labor, construction equipment and tools needed to
perform the modifications with equipment provided by the OCSS unless noted otherwise.
B. Modifications shall include the following;
1. New motor for exhaust fan 60 HP rated for Class 1, Division 2, TEFC, high efficiency
with space heater and motor winding temperature switch, inverter duty rated. See
Article 2.03 this Section"
2. New motors for Recirculation Pumps (Vertical Seal-less) - rated for Class 1, Division
2, two 15 HP, with space heaters and compliance with NFPA 820. SeeArticle2_02
this Section.
3. New motors for Chemical Metering Pumps, XP rated DC motors. See Article 2.04
this Section.
4. Remove existing Control Panel from scrubber body and provide new Control Panel
mounted more than 3 feet away as shown on the Contract Drawings. The
Contractor will remove and dispose of the existing Control Panel and install, connect
and wire the new Control Panel.
5. New junction boxes required for level switches, control panel, motor and other
devices.
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NCWRF COMPLIANCE ASSURANCE PROJECT
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6. Instrumentation (Existing instruments to be turned over to County.)
. pH and ORP probes
. Fan Vacuum switch (XP-rated)
. Fan Vibration switch (XP-rated)
7. Removal of the existing stack and replacement with a new stack containing a wye
outlet (42" diameter with 16" flanged wye).
8. Replace existing mist eliminator with polypropylene mesh type pad.
9. Retrofit the seal water supply to the recirculation pumps to use plant service water as
the primary source and process water as secondary source. Provide valves and
rotometers as required.
C. The OCSS shall provide all required new equipment components necessary for a fully
operational odor control system, and the Contractor shall remove the existing similar
components and install the new components.
D. The Contractor shall provide all junction boxes, conduit, seal-tight fittings, tubing, piping
valves and fittings, fasteners, anchors and appurtenances necessary to complete the
modification and provide a fully operational odor control system.
E. The OCSS Field Technician shall conduct an operational test of the modified odor control
system. The test shall demonstrate successful, continuous operation of all components,
instruments and system for a minimum period of 72 hours.
F. The Contractor under the supervision of OCSS shall conduct a field performance test on the
existing LO/PRO scrubber after all modifications are completed and after a 72 hour
operational test is successfully completed. Refer to Section 3.05 for requirements about the
performance test.
2.06 INSTRUMENTATION AND SYSTEM CONTROLS
A. A local control panel shall be furnished for each Odor Control System. The local control
panel shall provide control forthe exhaust fan, recirculation pumps, metering pumps, pH and
ORP control system. The MLE Aeration Odor Control System local control panel shall be
provided with motor starters for the exhaust fan and recirculation pumps as well as DC
controllers for the chemical metering pumps. The Aerated Sludge Feed Tanks/Pretreatment
Odor Control System local control panel shall be provided with motor starters for the
recirculation pumps as well as DC controllers for the chemical metering pumps. The
variable frequency drive unilfor each fan shall be provided and installed by the Contractor at
the motor control center as per Division 16 and the electrical and instrumentation drawings.
Motor starters shall be solid state "soft start" type. Motor starters and VFDs shall comply
with the applicable sections of Division 16_ A single 480VAC feed shall be supplied to each
local cohtrol panel to power the system and all accessories. Provide main circuit breaker in
control panel. A TVSS device shall be provided on the 480 volt feed equal to Square-D
Type XW 100KAlPH.
B. The control panel enclosures shall be of Type 316 stainless steel construction and rated
NEMA 4X. The local control panels shall be remotely mounted from the scrubber units as
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NCWRF COMPLIANCE ASSURANCE PROJECT
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- '--"~- "--_.",~-,,--,,-'"'~'-'-'-' .,.',
-, -._----,-~,,_.."'-_..~_..._.._-._--
shown en the .Drawings. The-panels shall be factory tested to full operation with all other
compohents prior to shipment. Control panel components and construction shall be in
accordance with applicable sections of Division 16 and Division 17.
C. At locations allowed by NFPA 820, NEMA 4X stainless steel junction boxes with link seals
shall be furnished and installed by the Contractor on the odor control systems for transferring
signals from the scrubbers to the remotely mounted local control panels. At all other
locations, all electrical and control devices mounted on or close to the scrubbers shall be
intrinsically safe and suitable for use in a Class 1, Division 2, Group D expiosion proof area.
Junction boxes shall comply with applicable sections of Division 16 and Division 17.
D. Each local control panel shall have the following components or capabilities:
1. System switch (ON-OFF) which will shut all equipment down.
2. Fan control switch (H-O-A).
3. Individual recirculation pump control switches (H-O-A) for Stages 1, 2 and 3.
4. Individual chemical metering pump switches (H-O-A).
5. PH probes and controllers for each stage for automatic sodium hydroxide injection
via the metering pumps. The pH cont~oller shall have a digital pH display, with a
menu driven operation for each calibration and set point adjustment. The controller
shall have a 4-20 mA output to operate the chemical metering pumps. The controller
shall be Hach Sc100, or equal. An independent pH controller shall be provided for
each of the three scrubber stages unless otherwise shown on the Drawings.
6. Through the door, lockable main disconnect switch for panel power.
7. ORP probes and controllers for automatic sodium hypochlorite injection via the
metering pumps, The ORP controller shall have a digital ORP display, with a menu
driven operation for each calibration and set point adjustment. The controller shall
have a 4-20 mA output to operate the chemical metering pumps. The controller shall
be Hach Sc100 or equal.
8. Low level switches shall be provided for the scrubber sumps.
9. Each sc:;rubber control panel shall be provided with the following panel front mounted
indicators and displays:
a. System ON-OFF status lights
b. Fan ON-OFF status lights
c. Individual recirculation pump ON-OFF status lights
d. Individual chemical metering pump ON-OFF status lights
e. Low sump level alarm light for each Stage (this alarm will also shutdown the
recirculation pumps to avoid dry running pumps)
f. Caustic Tank NO.1 Low Level alarm light (this alarm will also shutdown the
caustic metering pumps to avoid dry running pumps)
g. . Caustic Tank No.2 Low Level alarm light (this alarm will also shutdown the
caustic metering pumps to avoid dry running pumps)
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h. Hypochlorite Tank NO.1 Low Level alarm light (this alarm will also shutdown
the hypochlorite metering pumps to avoid dry running pumps)
I. Hypochlorite Tank No.2 Low Level alarm light (this alarm will also shutdown
the hypochlorite metering pumps to avoid dry running pumps)
J. Scrubber Differential Pressure High alarm light
k. Fan High Vibration alarm light.
I. High Vacuum Inlet Piping alarm light
m. PH high alarm light for each Stage
n. PH low alarm light for each Stage
o. ORP high alarm light for Stage 3
p. ORP low alarm light for Stage 3
q. Stage 1 Recirculation Pump Low Pressure alarm light
r. Stage 2 Recirculation Pump Low Pressure alarm light
s. Stage 3 Recirculation Pump Low Pressure alarm light
l. High liquid level in containment area
10. Each scrubber control panel shall provide a terminal strip with the following discrete
and analog outputs for monitoring by the plant control system:
Discrete Outputs (dry contacts)
a. OCS General Malfunction Signal
b. Fan Running Signal
c. Fan Fault Signal .
d. . Scrubber Differential Pressurl;! Low Signal
e. Scrubber Differential Pressure High Signal
f. Stage 1 PH Low Signal
g. Stage 1 PH High Signal
h. Stage 1 Sump Level low Signal
I. Stage 1 Recirculation Pump Running Signal
j. Stage 1 Caustic Pump Running Signal
k. Stage 2 PH Low Signal
I. Stage 2 PH High Signal
m. Stage 2 Sump Level low Signal
n. Stage 2 Recirculation Pump Running Signal
o. Stage 2 Caustic Pump Running Signal
p. Stage 3 PH Low Signal
q. Stage 3 PH High Signal
r. Stage 3 Sump Level low Signal
s. Stage 3 Recirculation Pump Running Signal
t. Stage 3 Caustic Pump Running Signal
u. Stage 3 Hypochlorite Pump Running Signal
v. Stage 3 ORP Low Signal
w. Stage 3 ORP High Signal
x. High liquid level in containment area
Analog Outputs (4-20 mA, linear, isolated)
a. Scrubber Differential Pressure Reading (1 for scrubber; 1 for mist eliminator)
b. Stage 1 PH Reading
c. Stage 2 PH Reading
d. Stage 3 PH Reading
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
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_'__""'"W'__.,.~._'
.~.
-_..,.,,-_.._-----,
__ _._,_,____~~.____..,._,_......,_,,___,_,__."___u.
e. Stage 3 ORP Reading
f. Stage 1 Recirculation Pump Amperage
g. Stage 2 ReCirculation Pump Amperage
h. Stage 3 Recirculation Pump Amperage
11. Each scrubber control panel shall provide a terminal strip with the following discrete
and analog inputs from field instruments:
Discrete Inputs (dry contacts)
a. Stage 1 Recirculation Pump Low Pressure
b. Stage 2 Recirculation Pump Low Pressure
c. Stage 3 Recirculation Pump Low Pressure
d. Stage 1 Sump LOw Level
e. Stage 2 Sump Low Level
f. Stage 3 Sump Low Level
g. Fan High Vibration
h. High Vacuum Inlet Piping
I. Caustic Tank No.1 Low Level
J. Caustic Tank NO.2 Low Level
k. Hypochlorite Tank No.1 Low Level
I. Hypochlorite Tank NO.2 Low Level
Analog Inputs (4-20 mA, linear, isolated)
a. Stage 1 PH Level
b. Stage 2 PH Level
c. Stage 3 PH Level
d. Stage 3 ORP Level
e. Differential pressure scrubber
f. Differential pressure mist eliminator
2.07 ACCESSORIES
A. Make-up Water Control (one each Stage): The direct reading rotameter shall be a variable
area type with a stainless steel float, Viton "0" rings, and 316 stainless steel fittings. The
rotameter shall be of the same size as the pipe in which it is installed. The rotameter shall
have a direct reading scale.
B. Scrubber Recirculation Sump Slowdown and Levei Controls: The scrubber shall be
operated with a manual blowdown. The rate of blowdown shall be controlled by overflow to
the scrubber tower drain line proportional to the makeup water added.
D Differential Pressure Indicating Transmitters: Two differential pressure indicating transmitters
shall be provided for each odor control system to monitor pressure drop across the scrubber
and the mist eliminator independently. The instrument range shall be suitable for the
intended service and shall be field adjustable. The transmitter shall be Rosemount Model
1151 or approved equal and include a stainless steel 5-way manifold valve.
E. Pressure Gauge I Pressure Switch Assembly: A pressure gauge and pressure switch
assembly, complete with an all plastic activatorlisolator shall be provided for installation in
the recirculation pump discharge piping. The gauge shall have a minimum dial size of31/2
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
inches, indicate the units of measurement on the dial face, and be complete with isolation
valve. The gauge range shall be such that the normal operating reading shall be near the
midpoint of the range. The pressure switch shall comply_with Division 17 requirements.
F. Overflow Control: An overflow line equipped with an internal water seal shall maintain a
minimum freeboard of 6 inches as measured from the maximum liquid level to the invert of
the air inlet connection at the scrubber while under normal system operating air pressure.
G. Fan Pressure Switches: Fan inlet pressure, fan discharge pressure, and vacuum switches
shall be single or dual action with an adjustable set point for the process requ irement and/or
as specified herein. Switches shall be diaphragm or piston operated and activate S.P.D.T.
snap action switches on increasing or decreasing pressure. Minimum differential shall be
less than 10 percent of the range. Deadband shall be adjustable. Allowable surge pressure
shall be a minimum 1.5 times the range. Each pressure switch shall have visible scale.
Pressure switches shall have a contact rating of 1 0 amperes at120 volts AC. Switches shall
have a repeatable accuracy of 1 percent of range. Wetted parts materials shall be
compatible with the process fluid for corrosion resistance. Pressure switches shall be
explosion-proof differential pressure Series 1950 as manufactured by Dwyer, or Engineer
Approved Equal.
H. Attachment for Odor Duct, Electrical and Pipe Supports: The Contractor will be installing
H2S sample piping, odor control ducts and electrical boxes and devices along the vertical
face of the units. The OCSS will prOVide secure FRP attachments on the scrubber structure
suitable for connecting the supports for duct, pipe and devices. The FRP attachments shall
be securely bonded to the structure and capable of carrying the wind loads created by 150
mph winds on the sample piping, odor control ducts and electrical devices.
2.08 PIPING
A. All chemical recycle piping, make-up water and drain piping, and blowdown piping shall be
SCH80 PVC. All recirculation piping shall be flanged.
2.09 NaOCI ANALYSIS KIT
A. The scrubber systems shall be provided with one Lamote NaOCI analysis titration kit (1 to
15%), to ahalyze scrubber sump and NaOCI storage.
PART 3 - EXECUTION
3.01 . GENERAL
A. All equipment, panels, parts and appurtenances for the odor control systems shall be
installed by the Contractor in strict accordance with the OCSS instructions and under the
guidance of the OCSS field representative and/or the OSCC installation manual.
B. The equipment shall be fabricated and placed in proper operating condition in full conformity
with the Drawings and Specifications, and Engineering data, instruction, and
recommendations of the OCSS as approved by the Engineer. Each item of equipment shall
be furnished and installed complete with all supports, electric drive units, shafts, sprockets,
mechanical equipment, electrical work, and appurtenances ready for operation. All vessels
and parts shall be amply proportioned for the stresses which may occur during operation,
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
fabrication, and erection. Individual parts furnished which are alike in all units shall be alike
in workmanship, design, and materials, and shall be interchangeable. Guards shall be
furnished for all exposed moving shafts, drives, or parts as required by the applicable safety
codes.
C. Unless otherwise shown, the power supply to the equipment shall be 480 volts, 50 hertz, 3-
phase.
3.02 WORKMANSHIP
A. Fiber Glass Items: The finished laminate shall be free from visual defects such as foreign
inclusion, dry spots, air bubbles, pin holes, pimples, delamination, exposed reinforcement
(glass fibers), and runoff. The exterior surface shall be smooth, with no sharp projections.
Care shall be taken to fill voids and crevices at joints and fillings. Representative laminate
samples shall be sent to the Engineer prior to fabrication for approval of surface finish and
visual defects. The installed, fabricated work shall be identical in surface finish and visual
defects.
3.03 EQUIPMENT SHOP TESTS
A. Scrubber Fan:
1. Before each scrubber fan is shipped, shop running and acceptance tests shall be
made by the manufacturer and certified reports shall be submitted to the Engineer
for review. The running tests shall consist of operation of the fans and motors for
proper balance of equipment, and all other requirements as specified under this Part
3.03. The Engineer reserves the right to inspect the manufacturer's testing facilities
and witness the tests. The OCSS shall provide at least ten days notice of such tests.
In case offailure of any unit to meet the test requirements, the OCSS shall make
alternations as are necessary, and the tests shall be repeated without additional cost
to the Owner until the equipment is satisfactory.
2. The fan impellers shall be statically and dynamically balanced before and after
assembly. The tests shall be conducted in accordance with the latest standard test.
code for air moving devices published by AMCA (Air Moving and Control
Association, Inc.) Each fan shall be shop tested before shipment with its own
assigned motor for a minimum period of one hour after stabilization of temperature.
3. Each fan shall be tested for power, pressure, volume and temperature
characteristics. The running tests shall be made at the operating pressure and
speeds specified hereinbefore.
4. All tests shall be made in accordance with AMCA 210 (ANSI/ASHRAE 51-1985).
Certified copies of all test results shall be submitted by the OCSS to the Engineerfor
review in accordance with Section 01330A, Submittals.
B. Recirculation Pumps and Diaphragm Metering Pumps:
The OCSS shall submit certified copies of the pump curves in accordance with Section
01330A Submittals. These curves shall include pump capacity, head, BHP and efficiency.
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NCWRF COMPLIANCE ASSURANCE PROJECT
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3.04 SHIPMENT AND DELIVERY.
A.. The delivery of these units shall occur only as required by the Contracfor's construction
schedule. Delivery of the four new scrubbers (OCU 1, 3, 4 and 5) at one time will probably
not occur. It is anticipated that delivery of each type of unit will occur at different times
between August, 2010 and September, 2011. Refer to Article 3.06 in this section for
additional information and requirements.
B. The OCSS shall provide two week advance written notice before shipment of any material
occurs. Forty-eight hour written notice shall be provided prior to site delivery of any material.
Each notice shall be provided to the Cbntractorand the Owner and the Engineer.
C. Each site delivery of any equipment, devices or materials shall be witnessed by a
representative of the OCSS. The on-site representative shall inspect, inventory and note any'
shortages or damages prior to unloading: The on-site representative shall observe and
witness the unloading, handling and storage. of the delivered items. The on-site
representative shall provide continuous guidance to the Contractor and the unloading crew
as required to ensure proper rigging, handling and storage procedures are followed. The
on-site representative shall prepare a detailed written report of each delivery including time
spent on site, items received, notes of shortage or damage and statement approving the
storage conditions of the items_ This report shall include time/date stamped photographs
taken the day(s) of delivery and unloading. A copy of each delivery report shall be sent to
the Engineer and the Owner.
.
D. The Contractor shall provide unloading and storage as' required by the OCSS. The
Contractor shall coordinate the work schedule to accommodate the multiple deliveries from
the OSCC.
3.05 FIELD ACCEPTANCE PERFORMANCE TESTS
A. General:
1. The scrubber systems with other associated equipment such as the fan, recirculation
pumps, chemical metering pumps, piping and controls shall be field tested.
2. The Owner shall furnish water, power and chemicals required for the test.
3. The OCSS shall furnish all supervisory labor and equipment including field engineer
for conducting the tests.
4. . The test shall meet the performance guarantees described under Condition of
Service. All equipment shall show evidence of mechanical soundness, no evidence
of liquid or gas leaks, no undue vibration and generally be structurally rigid when
being tested.
5. The Odor Control System Supplier's representative witnessing the scrubber systems'
field test shall furnish the Owner, through the Engineer, a written report certifying that
each scrubber unit:
a. Has been properly and accurately aligned.
January2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
.-,._~.".""---"'_.._-------
b. Is free from any undue stress imposed by connecting piping and/or anchor
bolts.
c. Has been operating under full load and reduced loads and that each
scrubber operates satisfactorily.
d. Has satisfactorily operated with another scrubber in series service.
e. The OCSS has accurately recorded the data obtained during the field test.
6. The OCSS shall make such changes or alterations in the scrubber units ortheir
auxiliaries necessary for satisfactory operation as directed by the Engineer based on
the results of the field test.
B. Test Procedures
1. The performance tests shall be conducted at such time as all anticipated odorous air
. streams are present in the scrubber inlet. The time of the tests and detailed test
procedure shall be submitted for approval prior to the testing period. In the event
hydrogen sulfide levels are below anticipated levels, the OCSS shall augment
hydrogen sulfide levels in the influent airstream so hydrogen sulfide is within +2 ppm
of design level.
2. During testing, chemical feed, scrubber overflow, recirculation and scrubber air flow
rates shall be held constant. Changes in scrubber system operating conditions shall
not be permitted. All fine-tuning of operating conditions shall be performed prior to
testing.
3. Design operating conditions shall be maintained for a minimum of 6 hours. During
this time, all pertinent operating parameters shall be monitored and recorded,
sufficient sampling and analysis shall be conducted to demonstrate that flow rates,
temperatures and solution concentrations are at design conditions.
4.. Hydrogen sulfide concentration shall be measured in each scrubber inlet and outiet.
As a minimum, the test shall be conducted for 1 hour at the average HzS level, 1
hour at the peak HzS level, and the balance of 4 hours on actual plant odor
conditions. Inlet and oulletlevels shall be measured once every 15 minutes using an
HzS analyzer.
5. A maximum chemical dosage of 5 Ibs sodium hydroxide and 20 Ibs sodium
hypochlorite per Ib of hydrogen sulfide will be allowed for startup and testing
purposes to meet specified performance.
6. Following steps 1-5, the hydrogen sulfide levels in the influent airstream shail be
varied in order to test the functionality of the automatic pH, ORP control/chemical
feed system
7. The Instrumentation and System Controls referenced in Item 2.06 shall be tested to
verify all controi and alarm functions.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
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8. . Results: A description of the performance tests shall be su bmitted. The hydrogen
sulfide compound removal efficiently shall be as specified in the design and
performance requirements. Should scrubber system performance not meet any of
the above requirements, that system shall have failed the performance tests. The
OCSS shall make any additions or modifications to that scrubber system as may be
necessary, at not additional cost to the Owner, and the performance tests for that
system shall be repeated in its entirety.
3.06 PAINTING
A. All surfaces of the equipment which normally require painting shall be finish painted by the
OCSS with the manufacturer's standard epoxy coating suitable for the installed environment.
B. The Contractor shall provide field painting oflhe PVC piping and all OCSS supplied conduit
. and appurtenances associated with the Odor Scrubber Systems in accordance with the
requirements of Section 09850A, Painting.
3.07 FIELD SERVICES OF ODOR CONTROL SYSTEM SUPPLIER
A. The OCSS shall provide the services of a qualified technical representative who shall
adequately supervise the unloading and storage of all project site deliveries, the installation
and testing of all equipment furnished under this Contract and instruction of the Contractor's
personnel and the Owner's operating personnel in its maintenance and operation as outlined
in Section 01750A entitled "Equipment Testing and Start-up". The manufacturer's
representative shall provide at least four trips and atleastlwelve days for installation and
start-up of the equipment exclusive bf the trips associated with project site deliveries.
B. Performance Tests: The OCSS shall provide for an experienced manufacturer/supplier
representative to remain on site for the duration of the performance tests. This shall be in
addition to the trips and working days of manufacturer/supplier supervision required for
installation, inspection and startup.
C. Any additional time required to achieve successful installation and operation shall be at the
expense of the OCSS. The OCSS field representative shall sign in and out at the office of
the Resident representative on each day he is at the project.
C. The OCSS field technician shall assist with air flow balancing of the odor control systems
including adjustment of dampers in duct located on and within various facility structures. The
flow balancing services shall occur at least three times during construction and shall also
include trial balancing after completion of all testing for at least five different operational
scenarios.
D. . The Contractor shall provide labor to assist the OSCC with the air flow balancing oflhe odor
control systems as noted in the preceding paragraph.
E. The OCSS shall provide a dedicated single project manager for the duration of all supply
and services. This project manager shall be available by telephone for inclusion in bi-weekly
progress meetings with the Owner, Engineer and Contractor. This project manager shall
receive a copy of the Contractor's schedule and schedule updates along with all actions and
communications that could affect the delivery schedule. The OCSS shall place and
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
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coordinate their shipment of equipment, devices and material to conform to Contractor's
updated schedules.
TABLE 1
ALLOWABLE TOLERANCES
SURFACE INSPECTED
Defect Process Side NOl}E!ocess Side
Cracks None None
Liner Crazing None
(fine surface cracks) Sli ht
Blisters (rounded elevations
of the laminate surface over None Max. 1/4 in. dia. X 1/8 in. high
bubbles)
Max. deviation, 20% of wall Max. deviation, 20% of wall
Wrinkles and solid blisters thickness, but not exceeding thickness, but not exceeding
1/8 in. 3/16 in_
Pits (craters in the laminate Max. dimensions 1/8" dia. X Max. dimensions, 1/8 in. X 1/16
surface) . 1/32" dee in. deep
Surface porosity (pin holes
or pores in the laminate None
surface) None
Chips Max. dimension of break, 1/4 in.
None and thickness no greater than
20% of wall thickness
Dry Spots (nonwetted Max. dimension, 2 sq. in per sq.
reinforcing) None ft. but none at surface
Entrapped air (bubbles or 1/16 in. max_ dia. 10 per sq.
voids in the laminate) ft. max. density, but none at 1/8 in. max. dia. should not
surface exceed 3% b volume
Exposed glass None None
Burned areas None None
Exposure of cut edges None None
Scratches None Max lenoth 1", Max de th 0.01"
Foreign Maller None Not permissible if it affects
properties of laminate
Star crazing (caused by
blow from relatively sharp None None
object)
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
TABLE 2,.. :
NOZZLE SIZE AND FLANGE DIMENSIONS
Wall Flange Flange Bolt Bolt No. of
Thickness Outside fhick Circle Hole Bolt
Dia., In. Min.,ln. Dia., In. In. Dia.,ln. Dia.,ln.. . . Holes
2 . 3/16 . 6.5 5/8 4.75 3/4 4
3 1/4 8.0 3/4 6.0 3/4 4
.
4 1/4 9.5 7/8 7.5 3/4 8
6 1/4 11.5 ... 1 9:5 7/8 8
8 5/16 14.0 . 1 1/8 11.75 7/8 8
.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-CHEMICAL
SECTION 13201
.
ODOR CONTROL SYSTEMS - BIOSCRUBBER
PART 1 - GENERAL
1.01 GENERAL
A. The Owner will. be purchasing the odor control equipment for the Compliance Assurance
project allhe North- County Water Reclamation Facility. The scope of the Owner su'pplied
equipment is specified in Section 13201 A. The Co.ntracto.r shall be responsible forrel(iewing .
and understanding the scope of Owner supplied equipment. The Contractor shall be
respo.nsible for coordinating execution of the Contract Work with the Owner supplied
equipment. Such coordination shall include scheduling labo.r and constructio.n equipment,
resource allocatio.n and project management.
B. The supplier of the o.dor control equipment is identified as the Odor Co.ntrol Systems
Supplier (OCSS). The OSCC has the so.le respo.nsibilityto furnish equipmenllhat meets the
performance guarantees in Section 13201A.
C. The Contractor shall provide unlo.ading, storage, installation, assistance with startup,
assistance with testing, assistance with air balancing o.f the duct systems. Refer to Section
13201A for additional informatio.n and Contractor responsibilities.
D All ductwo.rk, dampers and associated appurtenances shall be supplied, installed and tested
by the Contractor.
E. The Contractor has the responsibility to. unload, store and install the Owner supplied
equipment in full and strict accordance with the OCSS requirements. The Owner will provide
the Contracto.r with copies of the approved submittals and the installation and storage
instructions prior to. unloading the materials from the OCSS. Unloadinq o.f any OCSS
!illQPlied materials shall no.t be performed by the Contractor unless either an OCSS
@presentative is o.n site or the Owner issues a written document allowinq unloadinqjQ
proceed. As specified in Sectio.n 13201A, the OCSS will be providing field services for
observation o.fthe Contractor's unloading and sto.rage.
F. The Contractor shall be respo.nsible fo.r furnishing and installing certain electrical and
instrumentatio.n items and appurtenances required for the co.mplete installatio.n of the odor
co.ntrol system. Such items include conduit and wiring and junction boxes and electrical
accessories and instruments as well as the supports, hangers and fasteners needed fo.r .
these items. Installation of the co.ntrol panels and all instruments shall be perfo.rmed by the
Contractor and shall include anchors, fasteners and similar appurtenances. The OCSS shall
supply the control panels and those instruments specifically identified in Section 13201A.
Refer to Section 13201A, Divisions 16 and 17 and the Co.ntract Drawings for additional
information and Contractor requirements.
G. The Contractor shall be responsible for furnishing and installing certain mechanical and
structural items and appurtenances required for the complete installation of the odor control
system. Such items include concrete foundation and slabs, embedded piping, pipe and
fittings and valves as well as the supports, hangers and fasteners needed for the piping, all
duct work and dampers (unless noted otherwise) and duct appurtenances as well as the
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-BIOSCRUBBER
supports, hangers and fasteners needed for the ductwork and dampers. Installation of the
odor control system shall include setting of anchor bolts and the complete assembly of all
materials provided by the OCSS. The Contractor installation shall include anchors,
fasteners, materials underneath the scrubbers, and similar appurtenances. The OCSS shall
supply the scrubber and fan anchor bolts as specifically identified in Section13201A as well
as Divisions 2,3,5,11,13,16 and 17 and the ContraclDrawings. Refer to Section 13201A
for additional information and Contractor requirements.
H. The Contractor is advised that the installed scrubber system must comply with the National
Fire Code_Standard NFPA 820.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. . The Contractor shall follow all referenced specifications, codes and standards in the
Contract Documents.
PART 2 - PRODUCTS
2.01 GENERAL
A. During installation of the odor control system, the Contractor shall furnish site work, concrete
work, metals, piping and valves, electrical items, ducting, dampers, instrumentation, supports,
fasteners, miscellaneous work, and appurtenances as specified in the Contract Documents.
B. Any Contractor supplied materials that are not specified in the Contract Documents shall be
furnished in accordance with the written recommendations of the OCSS and the Engineer.
PART 3 - EXECUTION
3.01 GENERAL
A. All parts and materials furnished for the odor control system by the OCSS shall be installed
by the Contractor in strict accordance with the OCSS instructions and as further provided by
guidance of the bCSS field representative. If at any time the OCSS field representative
provides verbal guidance contrary to the written instructions of the OCSS, the Contractor
shall advise the Engineer immediately and shall not proceed with the work affected by such
contradiction until the issue is resolved in writing by the Engineer.
B. The equipment shall be placed in proper operating condition in full conformity with the
Drawings and Specifications, and the OCSS submittals, manuals and shop drawings as
approved by the Engineer. Each item of equipment shall be installed complete with all
supports, electric drive units, shafts, sprockets, mechanical equipment, electrical. work,
ihstrumentation and controls, and all appurtenances ready for operation.
3.02 SHII'MENT AND DELIVERY
A. Refer to Section 13201A for information regarding shipment and delivery of the Owner
furnished materials.
B. The Contractor shall receive two week advance written notice before shipment of any
material occurs. Forty-eight hourwrillen notice shall be provided prior to site delivery of any
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-BIOSCRUBBER
material. The Contractor shall provide planning, coordination and adequate resources to
receive, unload and store the Owner furnished materials. Refer to Part 1.01.D of this
Section for additional information and requirements regarding delivery and unloading of
materials and parts.
3.03 FIELD ACCEPTANCE PERFORMANCE TEST
A. The Contractor shall provide planning, coordination, labor, supervisIon, and gener-al
assistance to the OCSS field representative for the performance test. Such assistance shall
include unloading all test equipment and materials and connecting such devices and
materials and providing labor as needed to assist the OCSS field representative to complete
the testing. Such assistance will include disconnecting such devices and materials and
loading them for shipment off the site. This assistance will include mechanical and electrical
workers. Refer to Section 13201A for additional information and Contractor requirements.
B. The Contractor shall prepare a construction schedule with activities that allow a minimum of
five days of performance testing assistance for the odor scrubber and its associated
ductwork and instrumentation.
3.04 PAINTING
A. All surfaces of materials and equipment furnished by the Contractor shall be finish painted in
accordance with the requirements of Section 09850 entitled "Painting".
3.05 . FIELD SERVICES OF ODOR CONTROL SYSTEM SUPPLIER
A. Refer to Section 13201A for additional information and requirements regarding the field
services of the OCSS.
B. At all times and whenever the OCSS field representative is on site, the Contractor shall
provide labor and construction equipment as needed to assist the field representative. The
Contractor shall plan and execute his Work to allow this labor assistance. Such labor shall
consist of, at a minimum, one pipe fitter, one electrician and two laborers.
C. The Contractor shall assist the OCSS field representative with air flow balancing of the odor
control system inclUding adjustment of dampers in duct located on and within various facility
structures. The flow balancing services shall occur at least twice during construction and
shall also include trial balancing after completion of all testing for at least five different
operational scenarios.
E. The Contractor shall plan and execute the Work in coordination with the OCSS project
manager. Refer to Section 13201 A for additional information and requirements.
END OF SECTION
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMS-BIOSCRUBBER
SECTION 13201A
ODOR CONTROL SYSTEM- BIOSCRUBBER
FURNISH WITH FIELD TESTING, START-UP,
TRAINING AND CONSTRUCTION SERVICES
INSTALLATION BY CONTRACTOR
PART 1 - GENERAL
1.01 GENERAL
A. This Section covers the work necessary to supply, deliver startup and test a biotrickling
filter odor control system as specified herein. The odor control system consists of
biotrickling filter tower, internal structural members, media with support grating, internal
piping, liquid distributors, modular support skid that includes nutrient feed system,
electrical controls, irrigation valves, recirculation pumps, nutrient storage tank, fan,
anchor bolts, neoprene pad, and all necessary accessories.
B. The Odor Control Systems Supplier (OCSS) shall have unit responsibility for the correct
furnishing, installation supervision, and operation to meet performance guarantees for
the equipment specified herein.
1.02 QUALITY ASSURANCE
A. Manufacturer: The products furnished under this Section shall be of an Odor Control
Systems Supplier (OCSS) who has been regularly engaged in the design and
manufacture of biological odor control equipment for a minimum of five years.
B. Reference Standards: The materials employed in items fabricated of fiberglass
reinforced plastic shall be capable of withstanding maximum calculated stresses that
may occur during fabrication, installation, and continuous operation, with allowance for
an adequate safety factor. To confirm materials properties, tests shall be conducted by
an independent, qualified testing laboratory on representative material samples in
accordance with the latest revision of ASTM standards:
1. ASTM C581, Determining Chemical Resistance of Thermosetting Resins used in
Glass Fiber Reinforced Structures Intended for Liquid Service.
2. ASTM C582, Contact-Molded Reinforced Thermosetting Plastic Laminates for
Corrosion Resistant Equipment.
3. ASTM D638, Test for Tensile Properties of Plastics.
4. ASTM D695, Test for Compressive Properties of Rigid Plastics.
5. ASTM D746, Test Method for Brittleness Temperature of Plastics and Elastomers by
Impact
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM-BIOSCRUBBER
6. ASTM D790, Test for Flexural Properties of Plastic.
7. ASTM D883, Standard Nomenclature Relating to Plastics.
8. ASTM D1505, Test Method for Density of Plastics by the Density Gradient
Technique.
9. ASTM 1693, Test Method for Environmental Stress Cracking of Ethylene Plastics.
10. ASTM D2310, Machine Made Reinforced Thermosetting Resin Pipe.
11. ASTM D2563, Recommended Practice for Classifying Visual Defects In Glass
Reinforced Laminated Parts.
12. ASTM D2583, Test for Indentation Hardness of Plastics by Means of a Barcol
Impresser.
13. ASTM D2996, Filament Wound, Reinforced Thermosetting Polyester Chemical
Resistant Tanks.
14. ASTM D3299, Filament-Wound Glass Fiber Reinforced Polyester Chemical
Resistant Tanks.
15. ASTM D4097, Contact Molded Fiber Reinforced Thermoset Chemical Resistant
Tanks.
16. NBS Voluntary Product Standard PS15-69 Custom Contact Molded Reinforced-
Polyester Chemical-Resistant Process Equipment.
1.03 SUBMITTALS
A. Submittals shall be made by the OCSS in accordance with Section 01330. In addition,
the following specific information shall be provided:
1. For items fabricated from FRP, detailed shop drawings showing weights and
dimensions of equipment, all nozzles and manways, wall thicknesses, laminate
make-up, fabrication techniques, and construction materials.
2. A description of the proposed quality control program that will be used during the
manufacturing of the scrubber. Include the resume of the quality control manager.
. 3. A schedule for the scrubber's fabrication along with the location of the fabrication
site.
4. The OCSS shaU submit the following information for:
a. Pump hydraulic characteristic curves, efficiencies, required NPSH, and
horsepower curves at pump rotative speeds corresponding to the conditions
specified.
January 2010.
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM-BIOSCRUBBER
b. Complete motor data.
c. Copies of all factory test results.
d. A list of the OCSS recommended special tools, spare parts and recommended
lubricants to be supplies.
e. Identify recommended L-10 bearing life, shaft size, coupling size and anchor bolt
size.
f. General cutaway sections, materials, dimension of shaft projections, shaft and
keyway dimensions, shaft diameter, dimension between bearings, general
dimensions of pump, suction head bolt orientation, design of baseplate, and
anchor bolt locations and forces.
g. Uncrated weight of the pump, weight of heaviest part of pump.
5. Written instructions as to the recommended methods for unloading, storing, and
installing the bioscrubber and recommended lifting and handling procedures.
6. Submit written installation procedures.
7. Submit factory test certifications. .
8. Submit manufacturer recommended support ledge requirements for liquid distributor,
packing support, and mist eliminator. Submit recommended influent feed pipe
design for liquid distributor.
9. Submit certification indicating the quality control, testing, and inspection has been
completed and standards specified herein have been met prior to shipment to the
jobsite.
10. Schematic of the system, showing all components and controls.
11. Electrical data for all equipment.
12. Information and data for all instrumentation and controls and for the control panel,
including wiring and interconnection diagram.
13. Control panel layout drawing and fabrication details.
14. Complete listing of physical and chemical process parameters required for proper
operation of the system_
B. Operation and Maintenance Manuals:
1. The OCSS shall submit operation and maintenance manuals in accordance with the
procedures and requirements set forth in Section 01330A and Section 01830A.
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NCWRF COMPLIANCE ASSURANCE PROJECT
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2. The 0 & M Manual from the OCSS shall include a detailed text and tabular
description of the operational strategy, damper settings, flow rates and other . .
detailed settings and adjustments for at least six different operating scenarios.
The Engineer will identify the desired air flow rates for each scenario. The 0 &
M Manual shall also include a detailed trouble-shooting guide for the odor control
unit and all associated duct and instrumentation. This trouble-shooting guide
shall be in easy-to-follow text and tabular format and include all signals, alarms
and displays at the Local Control Panel and the SCADA based HMI as welt as
the appropriate reactive operational strategy, damper settings, flow rates and all .
other settings and adjustments.
3. Two copies of a preliminary O&M manual shall be included in the shop drawings
submittal. Without inclusion of these manuals, the submittal will be considered
incomplete and will be returned without review.
C. OCSS Certificate of Proper Installation and Operation.
D_ Warranty.
1.04 DESCRIPTION
A. System Description: It is the intent of this specification that a complete biotrickling filter
system shall be provided by the OCSS who shall have complete system responsibility.
The system shall include all appurtenances and additional equipment needed for a fully
functional system. The scope shall inclUde but not be limited to:
. Biotrickling Filter Tower with Elevated Platform and Access Ladder
. Air Exhaust Fan
. Scrubber Recirculation Pump
. Nutrient Feed & Dilution System
. Electrical Control Cabinet
. Water Control Cabinet
. Nutrient Storage Tank
. Second Stage By-Pass Damper with Extended Shaft Operator and Support
The components listed above shall be installed to form a complete and operational
biological odor control system in accordance with the requirements specified in this
section. The drawings show minimum features and equipment required for the system.
B. The mechanical, structural, and electrical design has been based on a biotrickling filter
odor control system as manufactured by Siemens Water Technologies. No alternate
manufacturers shall be allowed.
C. Clearances shown on the Drawings shall be maintained.
D. The Contractor will provide all unloading, storage, installation, and support for startup
and testing.
1.05 OCSS WARRANTY
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM-BIOSCRUBBER
A. The.OCSS shall provide a full warranty on all components, equipment, instruments and
. .devi9~s for a period of-lwo.years from Substantial Completion or 30 months from final
delivery, whichever occuts first.
. .
B. In the event the fielcltesting indicates changes are required to the Odor Control System
. in order to satisfy.-the performance requirements, the OCSS shall pay all costs
associated with such changes.
c, Substantial Completion for the Pretreatment/Sludge Tanks odor control systems snail .
occur when all equipment and systems provided by the OCSS is installed by others and
successfully started and tested. Start-up and testing of individual odor control units in
this area of the facility will not constitute Substantial Completion.
1.06 SPARE PARTS
A. . The following spare parts are to be supplied with each scrubber:
1. . One set blower belts and bearings.
2. One rebuild kit for the nutrient pump.
1.07 TERMS OF PAYMENT
.
A. The payments to the OCSS shall be as follows:
1. Approval of all submittals including preliminary O&M manuals, 8% of total amount.
2. Delivery of all materials, 72% of total amount.
3. Successful startup, performance testing, control panel functionality and air balancing,
15% of total amount.
4. Completion of training and final O&M manuals, 5% of total amount.
PART 2 - PRODUCTS
2.01 BIOTRICKLlNGFIL TER
. . .
A. General: The biotrickling filter vessel shall be vertical, counter-current flow, and consists
of an FRP vessel, random media, spray nozzle and sump section. Additional process
support equipment, which includes the nutrient reservoir, nutrient pump, recirculation
. pump, irrigation control cabinet, and electrical cabinet shall be included precpiped and
pre-wired and factory tested on a single process support and control skid.
B. The!OCSS shall be Siemens Water Technologies, San Diego, CA.
C. Biotrickling Filter Vessel:
JanuarY 2010
13201A-5
NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEMoBIOSCRUBBER
Air Flow Rate, cfm ..
6,100
Minimum Bed bepth, ft. 18:0
Vessel Diameter, ft. 10
Vessel StraighlWall Height, ft. 29.0
Inlet Dimension, ft. (WxH) 5x1
D. Materials & Construction:
1. The Biotrickling Filter shall be cylindrically shaped with upflow air passage and
countercurrent liquid flow. Vessel size and configuration shall be as shown on the
drawings. Unit shall be complete with flanges, nozzles, manways, lifting lugs,
anchor lugs, and other appurtenances,
2. Anchorage: Each tank shall be furnished with concrete anchors and hold down lugs,
complete with 316 stainless steel plates, bolts, nuts, and washers for proper
anchoring of the tank as required by the design calculations.
3. All metal hardware shall be Type 316 stainless steel.
4. Sizes of manways shall be as shown on the drawing. As a minimum, access ports
for the sump section, top section, and bottom of each packing section shall be
provided.
5. Flanged nozzles, bottom drain nozzle, and threaded full couplings shall be provided
as required. Flanged nozzles with 1/8-inch thick EPDM full-face gaskets of 60
durometer shall be provided by the supplier. Press-molded flanges are not
acceptable. Threaded full couplings shall be PVC.
6. The bottom or reservoir section shall include air inlet connection, recirculation pump
suction connection and drain.
7. Each bioscrubber sump shall be equipped with a titanium or hastelloy grounding rod.
The grounding rod will provide an earth ground for the bioscrubber solution. The
Contractor shall install a grounding rod adjacent to the bioscrubber for connection to
the lugs.
E. Media Support: Media support plates shall be vinyl ester FRP grid type. Free area shall
be a minimum of 95 percent of the cross-sectional area of the tower. Packing support
plates and mid span supports shall be suitable to support weight of the packing
specified plus entrained recirculation solution. Opening size shall not allow passage of
packing media in any random orientation. Construction shall be fiberglass constructed
of vinyl ester resins. Furnish supplier instructions for placement and removal of the
packing support in and out of the tower.
F. Biological Media: Media shall be synthetic reticulated polyurethane foam, resistant to
the corrosive attack of acids. The media configuration shall promote thorough mixing
and good contact between the gas and irrigation solution. Organic material, clay, or
mineral media shall not be allowed.
January 2010,
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NCWRF COMPLIANCE ASSURANCE PROJECT
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G. Liquid Distributor: A liquid distribution header shall be provided to uniformly distribute' the
scrubbing liquid onto the packing material. ' Internal spray piping shall have flanged
connection for easy removal without requiring entry in the vessel. The liquid spray
distributor system shall be PVC or FRP. A full cone, 1500 non-clog spray nozzle shall be
attached to the header. The spray nozzle shall have a minimum free passage diameter
of 0.25 inch and shall be specifically designed to be clog resistant. Pressure loss across
the nozzle at design capacity shall be no more than 10 psi. The spray nozzle shall be
Teflon, polypropylene or PVC.
H. Exhaust Stack/Mist Eliminator: Each tower scrubber shall be furnished with a flanged
vertical stack fabricated from fiberglass reinforced plastic with flanged connection to the
scrubber outlet. Each stack shall be provided with one inch diameter fitting for outlet air
sampling. The mist eliminator shall be housed inside this enclosure. A high efficiency,
chevron-type mist eliminator shall be provided at the discharge of the system. The mist
eliminator shall remove 99% of all mist particles 40 microns and larger and 90% of all
mist particles 10 microns and larger.
I. Identification Tag: Vessel shall be provided with a permanently attached equipment
identification plate. The label shall be a 8 W x 11" sheet laminated into the FRP and
contain the following:
1. Equipment identification (tag) number shown on Drawings and vessel name
"BIOLOGICAL SCRUBBER, OCU NO.1".
2. Manufacturer's name and address
3. Allowable temperature range
4. Vessel dimensions
5. Operating Weight
J. Wind Loading: The FRP vessel shall be designed to withstand 150 MPH wind loading.
The tower design shall incorporate adequate supports for the exhaust ductwork to meet
this requirement. Supports shown on the drawings are indicative only and the OCSS
shall provide design calculations showing the number and size of supports required.
FRP ductwork, support clamps and hardware shall be provided by the Contractor.
K. The vessel shall be equipped with ladder, safety cage, and platform with guardrail for
access to mist eliminator and damper operator as shown on the Contract Drawings.
L. The second stage by-pass damper and extended shaft operator with support shall be
provided by the OCSS. The damper shall be Belco Manufacturing Model 204 or
approved equal. The OCSS shall provide the damper with a Type 316 stainless steel
extended shaft operator with support and Type 316 stainless steel chain and chain
wheel. Chain shall be secured at wheel and at loose end.
2.02 EXHAUST FAN
A. Exhaust Fan: Fan shall have fiberglass reinforced plastic centrifugal backward inclined
impeller. The wheel shall be dynamically balanced. Resin shall be suitable for exposure
to the specific service conditions. The shaft shall be stainless steel. The shaft seal shall
be Teflon or Viton.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM.BIOSCRUBBER
B. Bearings: Shall be heavy duty, self aligning grease lubricated ball type with minimum of,
100,000 hour B-10 life. OSHA approved belt guard and shaft guard shall be provided.
C. Fan Housing: Shall be constructed of fiberglass and reinforced with rigid bracing to
increase structural integrity. Bearing support brackets shall be positioned to directly
oppose belt tension forces. Fan housing shall be a curved scroll design with a 1-inch drain
connection at the bottom of the fan scroll. The fan inlet shall be slip type and the fan outlet
shall have a flanged nozzle.
D. The fan shall be designed for the following specifications:
Design Air Flow Rate, cfm 6,100
S.P. up to Scrubber Inlet, in. WC 2.0
Total Pressure Drop, in. WC 7.0
Motor HP 15
E. Flexible Connector:
1. Provide flanged expansion joint for outlet of fan to FRP vessel inlet transition piece.
The flange drilling shall be coordinated with fan and transition.
2. Type: W-design configuration with integral flanges suitable for service with FRP duct.
3. The properties of the flexible connectors shall be as follows: Material shall be EPDM.
Material shall be resistant to ultraviolet light degradation and shall be suitable for
contact with odorous air as specified herein. The backing rings shall be 1/4-inch thick,
2" wide, type 304 stainless steel. The length from flange-to-f1ange shall be 6" unless
shown otherwise. The extension shall be 1 inch, compression shall be 2 inches, lateral
offset shall be 2.5 inches, and the thickness shall be %-inch minimum.
4. Manufacturer shall be Senior Flexonics or approved equal.
F. The fan shall be shipped loose from the scrubber system and be anchored to a concrete
pad without vibration isolators.
G. Motors shall be 460V, 3PH, 60Hz, suitable for operation in Class 1, Division 2 classified
area and compliance with NFPA 820, 1800 RPM with 1.15 service factor. Motors shall be
provided with 120 VAC space heaters and motor winding temperature switch. Motors
shall be manufactured by WEG, Baldor, Reliance or approved equal.
H. Fan shall be New York Blower or approved equal. The fan shall have an AMCA seal.
Fan shall be constant speed with V-belt drive.
I. Provide a fan vacuum switch Dn the ductwork at the fan suction. The switch shall
, .
indicate an alarm and shut down the fan if a high vacuum pressure is detected. The
vacuum switch shall be Dwyer Series 1950 with UL explosion-proof enclosure. The
Contractor shall install the vacuum switch.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM-BIOSCRUBBER
,"
J. Provide' a vibration switch on the blower frame' to initiate an alarm if there is excessive "
vibration detected. The:vibration switch shall be Robertshaw Model 365A, UL explosion- ,
proof enclosure.
,',' "
, ~ . -
'K. The scrubber shall rest upon a neoprene'pad furnished and installed by the Contractor.
The pad shall be 0.25 inch thick, 60duronieter, UV stabilized neoprene.
2.03 DESIGN SPECIFICATIONS AND PERFORMANCE REQUIREMENTS
Design Air Flow Rate, cfm 6,100
Average Inlet HzS Concentration, ppm(v) 150
Recirculation Rate, gpm - 63
Irrigation Water, gpm.. 4
The odor control system shall be capable of meeting the following performance when
operating under design conditions:
Inlet
o - 50 ppm HzS
> 50 ppm HzS
Outlet
< 0.5 ppm HzS
1.0% of Inlet'
.
The allowable outlet HzS concentration shall be 0.5 ppm or 1.0% of inlet
concentration, whichever is greater.
2.04 SERVICE CONDITIONS
Ambient Air Temperature Range:
Entering Air Temperature Range:
40 - 11 OOF (5 to 50 C)
40. 1000F (5 to 40 C)
2.05 PROCESS SUPPORT AND CONTROL SKID
All appurtenant equipment to the fan, tower assembly, and internals must be incorporated
on a single skid that is pre-piped, pre-wired, and tested by the OCSS. The components
shall include:
'A. Recirculation Pump: One recirculation p'ump shall be supplied. The recirculation pump
shall be seal-less, magnetic, centrifugal type. The pump shElIl' be totally enclosed,
manufactured of polypropylene, and shall include Kynar rear housing. The pump shall
be manufactured by lwaki or approved equal. The pump motor shall be TEFC, 3500
rpm, 230/460 VAC/3-Ph/60 Hz and shall include a 1.15 service factor.
B. Nuti-ienlFeed System: The nutrient feed system stores and delivers biological nutrients to
the spray nozzle where the solution is circulated through the packing media. The nutrient
reservoir shall be integrated into the support skid. The nutrient feed system shall include a
nutrient pump, reservoir and all pipin~ and equipment necessary to deliver nutrients from,
the reserVoir to the irrigation water. The nutrient supply system shall be integrated into the
Process Support Skid.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM-BIOSCRUBBER
.__ "_" ...,c_.,....>~__.____..~~___.n....~_".~_
,-,',,',' ."".,..~_._h... _~"'M"'" ....
C. Nutrient Storage Tank: A nutrient reservoir shall be constructed of FRP and integrated
into the sLipportSkid and furnished for the containment of biological nutrients.
1. The tank shall be made of fiberglass reinforced plastic and be suitable for storage in
, direct sunlight. '
2. The reservoir shall be provided with bulkhead pipe connections for tank drain, outlet,
inlet, pressurized water connection, low level indicator, and vent. Flanged connections
shall be of the same materials as the tank wall. Threaded connections shall be of
standard NPT. The tank details showing the locations of all openings, nozzles, and
appurtenances shall be included in shop drawings and submitted for approval before
fabrication of the chemical storage tank.
3. The nutrient reservoir shall have a level indicator and low level switch.
D. The piping on the Process support and Control Skid shall be Sch. 80 PVC.
E. Instrumentation and Controls:
1. The electrical control panel shall provide electrical control for the exhaust fan, pumps,
and water and nutrient addition systems.
2. A 480 VAC, 3-phase feed shall be supplied to the panel for use to power the system.
The control panel shall include motor starters for fan and pumps. Provide fuse
protection for all motor circuits. Provide two spare fuses of each size and type.
Provide main circuit breaker in control panel. A TVSS device shall be provided for the
480 volt feed equai to Square-D Type XW 100KAlPH.
3. The control panel enclosure shall be of 316 SS construction and rated NEMA 4X. The
panel shall be mounted to the Process and Control Skid assembly and factory tested
to full operation with all other components prior to shipment.
4. The panel shall have the following components or capabilities: (Siemens to coordinate
with SCADA requirements)
. Fan switch (ON-OFF)
. Recirculation pump (ON-OFF)
. Nutrient pump switch (H-O-A)
. Fan Vibration alarm and interlock
. Fan High vacuum alarm and interlock
5. The water control cabinet shall be constructed from a NEMA 12 rated Type 316
stainless steel cabinet with all internal piping SCH 80 PVC. The panel shall be
mounted to the Process and Control Skid assembly. The cabinet shall contain the
following components:
. Nutrient pump
. Recirculation system pressure gauge;
. Make-up water pressure gauge.
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ODOR CONTROL SYSTEM-BIOSCRUBBER
6. Water rotameter shall be provided for control of make up water to the recirculation
.
pipe.
F. Recycle Piping: All recycle piping, irrigation water and drain piping, and blowdown piping
shall be SCH 80 PVC.
G. The skid shall contain piping for the bioscrubber overflow and drain. The pipe assembly
shall be fabricated from clear PVC, used as a level indicator and contain the sump low
level switch.
H. Differential Pressure Gauge: A Dwyer Magnehelic type pressure gauge shall be
provided to monitor the pressure drop across the scrubber and the mist eliminator.
I. Low Pressure Switch: Provide a low pressure switch to be located in the intake duct of
the fan. The switch shall have an adjustable set point and provide a signal to the control
panel, which will be wiring into the motor control center to shut down the fan motor.
2.06 PAINTING
A. All surfaces of the equipment which normally requires painting shall be finish painted by
the OCSS with the manufacturer's standard epoxy coating suitable for the installed
environment.
-
B. The Contractor shall provide field painting of the PVC piping associated with the Odor
Scrubber System in accordance with the requirements of Section 09850, Painting.
2.07 DELIVERY AND INSTALLATION
Components and accessories shall be shipped in safe packaged containers to prevent
damage. Installation of components at the job site shall be in strict compliance of the
OCSS recommendations and under adequate supervision provided by the system
supplier.
2.08 ATTACHMENT FOR ODOR DUCT AND PIPE SUPPORTS
A. Attachment for Odor Duct, Electrical and Pipe Supports: The Contractor will be installing
H2S sample piping, odor control ducts and electrical boxes and devices along the
vertical face of the units. The OCSS will provide secure FRP attachments on the
scrubber structure suitable for connecting the supports for duct, pipe and devices. The
FRP attachments shall be securely bonded to the structure and capable of carrying the
wind loads created by 150 mph winds on the sample piping, odor control ducts and
electrical devices.
PART 3 - EXECUTION
3.01 INSTALLATION
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ODOR CONTROL SYSTEM-BIOSCRUBBER
The complete biological odor control system shall be installed by the Contractor in strict
accordance with the OCSS's recommendations and under the guidance of the OCSS
field representative and/or the OCSS installation manual.
3.02 WORKMANSHIP
A. Fiber Glass Items: The finished laminate shall be free from visual defects such as
foreign inclusion, dry spots, air bubbles, pin holes, pimples, delamination, exposed
reinforcement (glass fibers), and runoff. The exterior surface shall be smooth, with no
sharp projections. Care shall be taken to fill voids and crevices at joints and fittings.
Representative laminate samples shall be sent to the Engineer prior to fabrication for
approval of surface finish and visual defects. The installed, fabricated work shall be
identical in surface finish and visual defects. Refer to Section 13200A for requirements.
3.03 SHIPMENT AND DELIVERY
A. The shipment of the units shall occur as required by the Contractor's construction
schedule. It is anticipated the delivery will occur between August, 2010 and September,
2011. Refer to Article 3.05 in this section for additional information and requirements.
B. The OCSS shall provide two week advance written notice before shipment of any
material occurs. Forty-eight hour written notice shall be provided prior to site delivery of
any material. Each notice shall be provided to the Contractor and the Owner and the
Engineer.
C. Each site delivery of any equipment, devices or materials shall be witnessed by a
representative of the OCSS. The on-site representative shall inspect, inventory and note
any shortages or damages prior to unloading. The on-site representative shall observe
and witness the unloading, handling and storage of the delivered items. The on-site
,representative shall provide continuous guidance to the Contractor and the unloading
crew as required to ensure proper rigging, handling and storage procedures are
followed. The on-site representative shall prepare a detailed report of each delivery
including time spent on site, items received, notes of shortage or damage and
statement approving the storage conditions of the items. This report shall include
time/date stamped photographs taken the day(s) of delivery and unloading.
3.04 FIELD ACCEPTANCE PERFORMANCE TEST
A. General: The OCSS shall be responsible for all costs associated with odor control
system testing. The Contractor shall provide labor and construction equipment as
required to conduct the test. Testing equipment shall be provided by the OCSS.
B. Functional Testing: Using non-odorous ambient air, the entire odor control system shall
be operated for not less than 24 continuous hours in order to demonstrate the
mechanical and electrical integrity of the system. Any mechanical or electrical
breakdowns, unusual vibrations, or control sequencing problems shall be considered
sufficient cause to reject the test. Inability to successfully compiete the functional
testing in five tries shall be considered cause for the Owner to reject the odor control
system. The OCSS shall balance all air fiows prior to system performance testing.
Refer to Section 13200A, 3.05 for additional information and requirements.
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ODOR CONTROL SYSTEM-BIOSCRUBBER
G: Functional Testing: The Owner will provide the nutrient from a local retail store. The
Contractor, under supervision of the OCSS, will make up the solution for the nutrient
tank. The Contractor and OCSS shall train the Owner's staff on the system for the
functional test.
D. Performance Acceptance Testing: The performance tests shall be conducted after
sufficient acclimation time and at such time as all anticipated odorous air streams are
present in the scrubber inlet. 'The testing shall occur between January 1 and March 31.
The OCSS shall allow for testing in the following year if the Contract completion does
nol happen to fall within, this time period. The time of the tests and detailed test
procedure shall be submitted for approval prior to the testing period.
1. During testing, scrubber overflow, recirculation and scrubber air flow rates shall be
held constant. Changes in scrubber system operating conditions shall not be
permitted. All fine-tuning of operating conditions shall be performed prior to testing.
2. Design operating conditions shall be maintained for a minimum of 4 hours. During
this time, all pertinent operating parameters shall be monitored and recorded,
sufficient sampling and analysis shall be conducted to demonstrate that flow rates
are at design conditions.
3, Hydrogen sulfide concentration shall be measured in each scrubber inlet and outlet
once every 30 minutes usirig' a HzS analyier'such as Interscan, Jerome or equal or
use the hydrogen sulfide monitors installed. .'
4, Results: Ad,escription of the performaflce tests shall be submitted. The hydrogen
sulfide' compound' removal efficiency shall be as specified in the design and
performance requirements. Should scrubber system performance not meet any of
the above requirements, that system' shall have failed the performance test. The
Scrubber Systems Supplier shall make' any additions or modifications to that
scrubber system as may be necessary, at no additional cost to the Owner, and the
performance tests for that system shall be repeated in its entirety.
3.05 FIELD SERVICES OF OCSS
A., The OCSS field representative shall be present at the job site for the follOWing time
period, travel time excluded:
1. Five days for inspection and certification of the installation, initial startup and
monitoring of system, commence the acclimation process, adjust to steady state
operation, and performance testing.
2. One day for training, of Owners staff in operation and maintenance of the system.
3. A minimum of two trips are required.
B. The OCSS shall assist with air flow balancing of the odor control system including
adjustment of dampers in duct located on and within the pretreatment structure. The
'flow b,alancing services shall occur at least twice during construction and include trial
balancing after completion of all testing for at least five different operational scenarios.
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL SYSTEM-BIOSCRU88ER
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C. The OCSS shall provide a dedicated single project manager for the duration of all
supply and services. This project manager shall be available by telephone for inclusion
in bi-weekly progress meetings with the Owner, Engineer and Contractor. This project
manager shall receive a copy of the Contractor's schedule and schedule updates along
with all actions and communications that could affect the delivery schedule. The OCSS
shall place and coordinate their shipment of equipment, devices and material to conform
to Contractor's updated schedules.
END OF SECTION
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ODOR CONTROL SYSTEM-BIOSCRUBBER
SECTION 13205
ODOR CONTROL CHEMICAL STORAGE TANKS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Furnish all labor, materials, equipment, and incidentals required to install, field test,
complete, and make ready for service three vertical fiberglass reinforced plastic (FRP)
storage tank(s). Two tanks shall be designed for use with 10 to 15 percent commercial
sodium hypochlorite (NaOCI) solution. One tank shall be designed for use with 25 percent
sodium hydroxide (NaOH) solution.
B. Chemical storage tanks shall be furnished complete with all associated appurtenances such
as hardware, anchorage, piping, ultrasonic level indicators, etc., as shown on the Drawings
and as specified herein or as otherwise required.
C. It is the intent of this Specification to obtain an installation complete in every necessary detail
whether or not covered by the Specification. Any omission of required equipment from the
Specification shall not relieve the manufacturer of his responsibility to satisfy this intent.
D. Drawings are for tank dimensions and nozzle orientations only and shall not be used for tank
construction. '
1.02 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. U.S. Department of Commerce Voluntary Product Standard PS-15-69
B. ASTM C 581 - Chemical Resistance of Thermosetting Resins Used in Glass Fiber
Reinforced Structures
C. ASTM C 582 - Reinforced Plastic Laminates for Self-supporting Structures in a Chemical
Environment
D. ASTM D 3299 - Filament Wound Reinforced Polyester Chemical-Resistant Tanks
E. ASTM D 4097 - Contact Molded Glass Fiber Reinforced Thermoset Resin Chemical-
Resistant Tanks
F. ASTM D 3299 - Filament Wound Fiber Reinforced Thermoset Resin Chemical-Resistant
Tanks
G. Shall be as specified in Section 01420 entitled "Reference Standards".
1.03 SUBMITTALS
A. The Contractor shall submit complete Shop Drawings, Performance Affidavit, and other
information as specified in accordance with Section 01600 entitled "Materials and
Equipment" and Section 01330 entitled "Submittals". Required information shall include the
total weight of the shipped materials, Shop Drawings shall also include complete erection,
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ODOR CONTROL CHEMICAL STORAGE TANKS
installation, and adjustment instructions and recommendations.
B. The Contractor shall be responsibie for coordinating all interfaces with related mechanical,
structural, electrical and instrumentation and control work. The Contractor shall be
responsibie for providing all accessory equipment and all work associated with installation of
the equipment.
C, Contractor shall submit manufacturer's catalog information, descriptive literature,
specifications, and materials of construction and chemical resistance. Include complete
resin system information. Submittal shall include the tank manufacturer's written handling
and installation instruction manual. Submittal shall include instructions to the Contractor
that illustrate through drawings and a written narrative how to install the tank anchor boits.
D, Contractor shall submit detailed fabrication drawings including design calculations for
structural design of tanks, tank anchor lugs and anchor bolts, signed and sealed by a
professional Engineer licensed in the State of Florida. Design calculations shall be
submitted with the shop drawing. Submission of design calculations is intended to indicate
that the equipment was designed by a qualified individual. Design calculations will not be
reviewed by the Engineer for completeness or correctness. The design ofthe tanks shall be
the responsibility of the manufacturer.
E. Manufacturer's Qualifications: The Contractor shall submilthe names and experience ofthe
qualified individuals as required in Part 1,06 B of this section.
F. Manufacturer's Certification: The Contractor shall furnish an Affidavit of Compliance
certified by the tank manufacturer that the tanks furnished under this Contract comply with all
applicable provisions ofthis specification. The letter shall certify that the tank manufacturer
has inspected the installation of the storage tanks and that the tanks have been installed in
accordance with all of manufacturer's requirements. No tank will be accepted for use in the
Work on this project until the affidavit has been submitted and accepted in accordance with
Section 01330 - Submittals.
G, Contractor's Certification: Following installation, the Contractor shall provide a letter
certifying construction and installation of units / equipment as the manufacturer's
recommendations and standards and per all applicable provisions of this specification. No
tank will be accepted for use in the Work on this project until the affidavit has been
submitted and accepted in accordance with Section 01330 - Submittals.
H. Contractor shall submit fabricator's recommended bolt torques for all bolted FRP
connections,
1.04 RESPONSIBILITIES AND WARRANTY
A. The tank manufacturer shall be fully responsible for the structural design, structural integrity,
and water tightness of the tanks including all anchorage and connections. The tank
manufacturer shall warrant the tanks for materials and workmanship for a period of five (5)
years after the completion of the project. Warranty shall be submitted with the Shop
Drawings. The tank manufacturer shall replace defective or unsatisfactory tanks during the
warranty period at no cost to the Owner, including removal of existing tanks, and delivery,
installation and placement into satisfactory operation of new tanks.
1.05 MANUFACTURER'S SERVICE REPRESENTATIVE
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ODOR CONTROL CHEMICAL STORAGE TANKS
A. The services of a qualified manufacturer's technical representative who shall adequately
inspect the proper installation of each tank and supply a written installation certification to the
contractor. Initial start-up and operation is not required by the tank representative.
1.06 QUALITY ASSURANCE
A. Manufacturer: The materials covered by these Specifications are intended to be standard
equipment of proven reliability and as manufactured by reputable manufacturers having
experience in the production of such equipment. The equipment furnished shall be
designed, constructed, and installed in accordance with the best practices and methods and
shall operate satisfactorily when installed as shown on the Drawings and operated per
manufacturer's recommendations. FRP tanks shall be manufactured by one ofthe fOllowing
firms, NO SUBSTITUTIONS:
1. Plas-Tanks Industries, Inc.
2. Justin Tanks LLC
3. BELCO Manufacturing Co., Inc.
B, Qualifications
1. Fabricator's Quality Assurance Supervisor: Minimum of 5 year's experience with the
fabrication of fiberglass structures.
2. Desiqner: Registered professional engineer licensed in the state of Florida.
3. Independent FRP Quality Assurance Inspector:
a. Minimum 5 years' as an FRP inspector
b. Representing a corporately and financially independent organization which
can function as an unbiased inspection authority.
c. Professionally independent of manufacturer's, suppliers, and installer of
systems being inspected.
C. Inspection and Testing Requirements: The Engineer reserves the right to reject delivery of
any or all pieces of equipment found, upon inspection, to have any or all of the following:
blisters, chips, crazing, exposed glass, cracks, burned areas, dry spots, foreign matter,
surface porosity, sharp discontinuity or entrapped air at the surface of the laminate. Any
item which does not satisfy the tolerances as below shall be rejected:
Defect Inside Surface Outside Surface
Blister None Max, dimensions: 1/4" diameter by
1/8" high; Max density: 1 per sq. ft,;
Min, separation: 2" apart
Chips None Max. dimension of break: 1/4" and
thickness no greater than 10% of wall
ihickness; Max. density: 1 per sq. ft.
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ODOR CONTROL CHEMICAL STORAGE TANKS
--,'" ---..--.,-,...,. ~'"-_._._--~---_._..__.__.-
." "'-"'~-~-"-'---'-'----_. -
Defect Inside Surface Outside Surface
Crazing None Max. length: 1/2"; Max. density: 5 per
sq. ft.; Min. separation: 2"
Cracks None None
Exposed Glass None None
Scratches None Max. length: 1"; Max. depth: 0.010"
Burned Areas None None
Surface Porosity None None
Foreign Matter None None
Sharp Discontinuity None None
Pits Max, 1/8 inches, dia. by 1/32 Max. 1/8" dia. by 1/16" deep; Max: 10
inches deep; Max: 10 per ft2 per sq, ft,
Dry Spot None 2 sq, in. per sq. ft.
Entrapped Air None at the surface 1/16 1/8" and 4 per sq. in. or 1/16" and 10
inches and 10 per square in, per sq, in. within laminate
max
D. The Engineer reserves the right to be present at the fabricator's facility for visual inspection
of equipment to be supplied,
PART 2 - PRODUCTS
2.01 GENERAL
A. The Contractor is responsible for the coordination and selection of corrosion resistant
materials for the chemical specified below. The chemical storage tank manufacturer shall
become familiar with the characteristics of the specified chemical and guarantee the
suitability of the materials used in manufacturing of the tanks and accessories. The
Contractor and manufacturer shall include all features as necessary for satisfactory
operation of the systems for the specified chemical.
B. All tanks capacities (volumes) specified shall include only that volume in the straight shell
below the overflow pipe invert elevation and above the pump suction connection. At least 4
inches offreeboard shall be provided between the invert elevation of the overflow pipe and
the top of the straight shell.
C. Storage tanks shall be made of materials that can withstand the maximum storage
temperature. Chemical properties are as follows:
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL CHEMICAL STORAGE TANKS
Parameter Sodium Hypochlorite Sodium Hydroxide
CAS Number: 7681-52-9 1310-73-2
Storage Concentration: 10%-15% 25%
pH: 12.0 14.0
Boiling Point, of: 212 212
Chemical Specific Gravity: 1.1 1.15
Design Specific Gravity: 1.3 1.3
Design Temperature, of: 140 140
D. The Contractor and tank manufacturer shall be fully responsible for the structural design and
integrity and water-tightness of the tanks, including all anchorages and connections.
2.02 TANK MATERIALS AND CONSTRUCTION
A. Tanks shall be mounted on level concrete housekeeping pads. Flat bottom tanks shall be
provided with a flush bottom drain. The concrete housekeeping pad shall be provided with
a notch in the pad to accommodate the flush bottom drain. Once the tank is installed, the
notch area must be filled with grout to provide proper support around the drain nozzle.
B. The vinyl ester resin for fiberglass reinforced storage tanks shall be Derakane 411, Hetron
922 or approved equal. The resins and curing shall comply with FDA regulation 21 CFR
177 .2420.
C. The resin used shall not contain any fillers, pigments, dyes, or colorants, which may
interfere with visual inspection of laminate quality, except as required for viscosity control.
D. The initiators used will be of the type, manufacturing origin and amounts specified by the
resin manufacturer.
E. Each major composite, or a statistically relevant sampling of the composite manufacture,
shall be evaluated by the resin manufacturer by Differential Scanning Calorimetry to
establish degree cure. Degree of cure shall be 90% or greater. Resin pastes used to fill
crevices before overlay are permitted.
F. The reinforcing material shall be a commercial grade glass fiber having a coupling agent
which shall provide a suitable bond between the glass reinforcement and the resin and shall
be suitable for the fabrication method used. The reinforcing material shall be comparable to
that used to generate corrosion resistance.
G. The inner surface of the tank shall have two layers of synthetic veil for a total of 20 mils.
Material used as reinforcing on the surface exposed to chemical attack shall be a
commercial grade chemical resistant glass fiber having a coupling agent.
H. The inner surface laminate shall be not less than 0.02-inch thick, shall be resin-rich,
reinforced with chemically resistant surfacing material. The surface shall be smooth, glossy,
and free of pits.
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I. The interior layer shall be not less than 0.1-inch thick, reinforced only with non-continuous
glass strands applied in a minimum of two piles of chopped strand mat or in a minimum of
two passes by the spray-up process. Glass strands shall not be shorter than 1.0 inch or
longer than 2.0 inches,
J. The combined thickness of inner surface and interior layer shall not be less than 0.12 inch.
The inner surface and the interior layer shall be considered a corrosion allowance and shall
not be included in the structural design. Glass content of the inner liner & the interior
combined shall be 27% + 5% by weight.
K. Before the reinforcement ofthe exterior layer is applied, the interior layer shall be allowed to
cure completely so thatthe thickness of the corrosion barrier, consisting ofthe inner surface
and interior layer, will not be reduced. The corrosion barrier shall be cured using BPO-DMA
catalyst cure system.
L. The exterior layer shall provide the strength necessary to meet the tensile and flexural
requirements. The reinforcement shall be filament wound, contact molded or a combination
of both and may consist of continuous roving, woven roving, chopped strand mat or chopped
strands. Where separate layers of reinforcement are used, all layers shall be lapped a
minimum of 1.0 inch. Laps shall be staggered as much as possible. If woven roving or cloth
is used in successive layers, it shall be alternated with a layer of chopped strand glass.
M. The thickness of the filament wound portion of the tank shell may vary with tank height,
provided that all stress and other requirements are met at any height level.
N. Glass content of the exterior layer shall be 50 to 80 percent by weight. All reinforcement
used shall be resistant to corrosion by the particular chemical stored in the tank.
O. Sandwich-type laminate construction, containing fillers such as foams, balsa or any other,
shall not be accepted.
P. The outer surface shall consist of chopped strands or surfacing mat, or both, over which
shall be applied a resin-rich coating. The outer surface shall not be pigmented, painted or
dyed except to prevent ultraviolet degradation of the tank contents or unless noted
otherwise. This surface shall be at least 0,02 inch thick.
Q. All joints between tank components shall be covered by lay up. Internal joints shall be
provided with a resin-rich surface veil overlay. reinforced with chemically resistant surfacing
material.
R. The resin shall not contain fillers except as required for viscosity control. The limit of filler
shall be 5 percent by weight and shall not interfere with visual inspection. No fillers or
bulking agents shall be used in the exterior structural layer to decrease the glass loading
ratio. Tanks shall be dry heat post cured in accordance with resin manufacturer's guidelines.
S. The tank top shall be domed or flat with openings and connections as shown on the
Drawings and specified herein, The tank top shall be able to support a 250-pound load on a
4'-inch by 4-inch area. Tank bottom to side-wall connection shall be seamless, and the tank
bottom shall have no patch or repair as a result from a support or fixture; No exceptions
allowed.
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NCWRF COMPLIANCE ASSURANCE PROJECT
ODOR CONTROL CHEMICAL STORAGE TANKS
T. Structural Design:
1. The Contractor shall assign to the FRP tank manufacturer full responsibility for the
complete structural design of each FRP tank. All tanks located outdoors shall be
designed for anchorage and wind ioads in accordance with the latest edition of the
Florida Building Code as follows:
Wind Speed = 150 MPH (3-second gust)
Exposure Category = C
Importance Factor = 1.15
2. All tanks shall be capable of withstanding a surcharge of 12 inches water column
when full and an under pressure of 6 inches water column when empty.
3. Anchor lugs for ail tanks installed outdoors shall be adequate to withstand these
wind loads. Furthermore, anchor lugs for all tanks installed outdoors and indoors
shall be adequate to withstand flotation. Anchor lugs shall be Fiberglass Coated
Stainless Steel.
4. The tank manufacturer shall design anchors for securing the tanks via the anchor
lugs to concrete housekeeping pads. The anchors shall be fabricated of Hastelloy-C
or titanium. The concrete housekeeping pad will have a compressive strength of
4,000 psi at 28 days.
6. The Contractor shall be responsible for furnishing and installing the Hastelloy-C (or
titanium) anchors. The Contractor shall coordinate with the concrete reinforcing
fabricator the number and location of the anchors.
2.03 CONNECTIONS AND ACCESSORIES
A. Connections: All connections/openings shall be flanged in accordance with ANSI B16.5
Class 150 and provided with flanged gasket. Flanged connections, nozzles, and openings
shall be FRP gusseted and flat face. Threaded connections are not allowed, no exceptions.
B. Nozzles: All nozzles for Sodium Hypochlorite service shall fiush-type per ASTM D3299 or
ASTM D4097. Penetrating-type installation is not allowed for Sodium Hypochlorite service.
Nozzles no less than 2-inch diameter shall be specified in this chemical service. All nozzles
shall be gusseted. The orientation and size of the nozzles shall be as indicated on the
Drawings.
C. Fill Lines: Fill lines shail be as shown on the Drawings. All pipe supports, hardware,
accessories, etc., shall be provided. Vertical piping into the tanks shall be supported every
three feet on-center except where otherwise indicated on the Drawings, and shall be parallel
to the tank wall and not less than 6 inches from the tank wall.
D. Pump Suctions: Metering pump suction lines shail be as shown on the Drawings. All pipe
supports, hardware, accessories, etc. shall be provided. Metering pump suction connection
shall be a siphon drain connection.
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ODOR CONTROL CHEMICAL STORAGE TANKS
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E. .E!pe Su~orts and Pipinq: All pipe supports, hardware, accessories, etc. shall be provided.
Vertical piping into the tanks shall be supported every three feet and shall be parallel to the
tank wall and not less than 6 inches from the tank wall.
F. Vent Lines: Vent lines shall be top-mounted. Vent lines shall be supplied and furnished by
the Contractor as required or as directed by the Engineer. Vent lines shall be as specified
herein and as indicated on the Drawings. Vents shall be covered with fiberglass fibermesh
screen.
G. Overflow and Drain Lines: The tanks shall be provided with an overflow and drain pipe as
specified and as indicated on the Drawings. Drain line shall be as indicated on the Contact
Drawings. Drain connection shall be full-invert type connection.
H. ElPe SUl;1ports and Accessories: Pipe supports, hardware, and accessories on tanks shall
be provided by the tank manufacturer. Vertical piping from the tanks shall be supported
every three feet and shall be parallel to the tank wall and not less than 6 inches from the
tank wall. All supports, hardware, and accessories shall be fabricated from materials
resistant to chemical corrosion by the chemicals being contained in the respective tank.
Provide pipe support clips or brackets to secure all vertical piping to the exterior of the tank.
Pipe support clips shall be laminated to the tank exterior wall and designed for 150 mph
winds.
H. Level Sensor/Element: The tanks shall be provided with a level sensor (by others) in
accordance with Division 17, The tank manufacturer shall coordinate the mounting and
connecting requirements with the Contractor and the instrument supplier.
J. Reverse Float Tank Level Gaugg: Each tank shall be equipped with a reverse float visual
liquid level gauge. The gauge assembly shall be comprised of a float mounted inside the
tank, a cable and pulley system, a clear PVC or polycarbonate sight tube with tank level
graduations mounted outside the tank and a red or orange visual indicator within the sight
tube. All components of the reverse float visual liquid level gauge shall be compatible with
the chemical stored within the tank. The reverse float level gauge shall be as manufactured
by Precision Tank Gauge, Inc., or approved equal.
K. Manways: All tanks shall be provided with flat-faced flanged manway with gasket and blind
flange that are chemically resistant for internal access. Flange hardware (i.e., bolts,
washers, nuts, etc.) shall be titanium. For small, flat topped tanks, tanks shall be provided
with bolted tops for internal access. Gaskets shall be 1/8 inch thick full face Viton gaskets.
L. Access Ladder: Tanks shall be equipped with an exterior access ladder for access to the
manway as shown on the drawings. The ladder shall be constructed of FRP. Ladder shall
meet OSHA requirements. Ladder shall provide 18 inches between side rails and 12 inches
maximum between rungs. Angle clips shall be furnished for mounting the bottom of the
ladder to the concrete pad. The tank top shall be equipped with ladder clips to bolt ladder
handrails thereto.
M. LiWnil Luq~: The tank shall be provided with a minimum of four lifting lugs, three of them
around the top edge of the tank and one at the base of the tanks. Lugs shall be 316
stainless steel. Lifting lugs shall be capable of withstanding weight of an empty tank with a
safety factor of 3 to 1,
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N. Certification Label: The tank shall be provided with a permanently attached label providing
the fOllowing information:
1. Type of material stored
2. Concentration of material stored
3. Specific gravity
4. Design temperature
5. Type of liner resin and reinforcement
6. Type of surface veil
7. Tank capacity
8. Manufacturer
9. Date of manufacture
O. SignaQ~:
1. Each tank shall be provided with two signs to identify the name of the chemical(s)
stored. Signs shall be attached to the tank at locations that are clearly visible or as
directed by the Engineer.
2. Each tank shall be provided with precautionary and hazardous material sign age as
recommended by the Manufacturing Chemists Association and NFPA 704. Signs
shall be attached to the tank at locations that are clearly visible or as directed by the
Engineer and furnished by the Contractor.
P. FRP Platform and Handrail: Tank manufacturer shall design and furnish tanks with FRP
platform with grating and FRP handrail at the top of the tank. The FRP platform shall be
designed to support a concentrated live load of400 pounds on an area of 36 square inches
or a uniform live load of 50 pounds per square foot, whichever is greater. Handrails shall
meet the requirements of Section 06610, Glass Fiber and Resin Fabrications and Section
05520, Handrails and Railings.
2.04 FIBERGLASS REINFORCED PLASTIC STORAGE TANK SCHEDULE
A. Contractor shall provide tanks in accordance with Table 13205-1.
PART 3 - EXECUTION
3.01 INSTALLATION
A. The Contractor shall furnish and install the Fiberglass Reinforced Plastic storage tanks, and
related items in accordance with the manufacturers' recommendations and in accordance
with section entitled "Equipment, General"
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ODOR CONTROL CHEMICAL STORAGE TANKS
B. All piping, valves, fittings, conduit, wiring, etc., required to interconnect system components
shall be furnished and installed by the Contractor. Unless otherwise noted on piping
schedule, piping shall be Schedule 80 CPVC.
3.02 TANK BOTTOM BUFFER PAD
A. Liquid grout such as grout, epoxy, etc. MUST NOT be used under flat bottom tanks.
B, For each tank, install a minimum of 3 layers of 30 pound roofing felt paper between the
concrete housekeeping pad and the flat bottom storage tank, or in accordance with the tank
manufacturer's recommendations.
C. When applying the roofing felt or manufacturer's recommended padding, there shall be no
overlaps of wrinkles which cause raised ridges under the tank bottom.
3.03 FACTORY COATINGS - OUTDOOR EXPOSURE
A. This article applies to tanks scheduled below that are subject to outdoor exposure.
B. The non-process side layer shall be factory finished with two white pigmented exterior gel
coats containing ultraviolet (UV-9) light inhibitors. The outer layer of paraffin wax to promote
completes curing of resin.
3.04 TESTING
A. Upon completion of installation of tanks and prior to connecting piping, the Contractor shall
provide blind flanges or other suitable plugs for all openings in the tanks, fill tanks with clean
water provided by the Owner from a source approved by the Engineer and conduct a
leakage test as specified herein. Tanks shall be filled up to the top of the straight shell ofthe
tank and left to sit over a 2-day test period. There shall be no leakage over the test period.
Leakage around openings in the tanks shall be stopped by tightening nuts and bolts or
repiacing gaskets as required. Upon satisfactory completion of leakage test, Contractor
shall drain the tanks and dispose of water in a suitable manner.
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ODOR CONTROL CHEMICAL STORAGE TANKS
Table 13205-1
Fiberglass Reinforced Plastic Chemical Storage Tanks Equipment Schedule
Location: Odor Control Units 4 & 5 Odor Control Units 4 & 5 Alum/Bleach Feed
Facility
12.5% Sodium 25% Sodium Hydroxide 12.5% Sodium
Service: Hypochlorite Solution Hypochlorite Solution
Solution Storage
Storage Storage
Equipment Tag ST-23421 ST.23411 ST-23411
Nos.:
No. of Tanks: One(1) One(1) One (1)
Min. Tank Capacity 2,000 8,000 3,000
(gal):
Tank Diameter (ft): 7' -0" 12'-0" 7' - 0"
Sidewall Height
Below Overflow 10'-0" 10'-6" 10'-6"
Nozzle (ft):
Total Height (ft): 13'-0" 13'-6" 11'- 8"
Tank Type: Vertical, Cylindrical, Pad Vertical, Cylindrical, Pad Vertical, Cylindrical, Pad
Mounted Mounted Mounted
Dome Dome Dome
Top Type: External Flat, Internal External Flat, Internal External Flat, Intemal
Sloped Sloped Sloped
Connection Openings:
1) Bulk Fill Line: 2" 2" 2"
2) Tank Outlet: 2" 2" 2"
3) Drain Line: 2" 2" 4"
4) Overflow Line: 4" 4" 3"
5) Vent: 6" 6" 6"
6) Manway 2'_QlI 2'_0" 2'-011
Diameter (To.Et
7) Manway 2"_0" 2'_011 2"-0"
Diameter (Side):
8) Ultrasonic Level 'To Suit Instrument (4") 'To Suit Instrument (4") 'To Suit Instrument (6")
Instrument:
9) Reverse float 2" 2" 2"
sight a e
Materials of Titanium Hastelloy C or Titanium Titanium
Construction for
Metal Parts:
Materials of Viton Vilon Vilon
Construction for
Elastomers:
END OF SECTION
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ODOR CONTROL CHEMICAL STORAGE TANKS
SECTION 13300
ALUMINUM ODOR CONTROL COVERS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The aluminum extruded flat cover fabricator-erector (through the Contractor) shall furnish
and install (field erect) the aluminum extruded flat covers and all other miscellaneous items
related to the covers, as shown on the Drawings and described herein.
B. The covers specified herein shall include all vents, louvers, hatches, pipe connections,
structural items, wall support brackets, closure strips, bolts, anchors, gaskets, etc., including
all other necessary appurtenances and accessories required for a complete installation.
1,02 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Without limiting the generality of other requirements of the Specifications, all work specified
herein shall conform to the applicable requirements of the following documents. All
referenced specifications, codes, and standards refer to the most current issue available at
the time of the Bid.
1. Aluminum Association "Specification for Aluminum Structures"
2. Aluminum Association "Aluminum Standards and Data".
3. AWS D1.2 - "Structural Welding Code",
4. Florida Building Code.
5. ASCE 7 - Minimum Design Loads for Buildings and Other Structures.
1.03 CONTRACTOR'S RESPONSIBILITY
A. The services of a qualified fabricator-erector technical representative shall be provided for at
least one trip of two (2) days to check and supervise the equipment installation and field
tests. The times specified are exclusive of travel time to and from the facility and shall not be
construed as to relieve the manufacturer of any additional visits required to place the
equipment in satisfactory operation.
B. It shall be the Contractor's responsibility to ensure that the covers and appurtenances
furnished shall be compatible and have the necessary operating clearances with the
structural elements and equipment shown on the Drawings. The Contractor shall field verify
all dimensions prior to fabrication of the covers,
C. Calculations verifying the cover design conditions shall be prepared under the direction of,
and signed and sealed by, a registered Professional Engineer in the State of Florida, and the
design calculations and fabrication drawings shall be submitted for record purposes prior to
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ALUMINUM ODOR CONTROL COVERS
fabrication of the covers. All work shall be fabricated and erected in accordance with
approved fabricator/erector drawings.
D. The fabricator-erector shall coordinate interfaces with the existing aeration basin Nos. 4A-D,
5A-D, and 6A-D and the existing aeration basin extruded aluminum covers previously
provided by Hallsten. The cover shall interface with existing covers and tanks such thatthere
is no leakage of air at the interface locations.
1.04 SUBMITTALS
A. The CONTRACTOR shall submit the following for review in accordance with Section 01330,
Submittals.
1. The aluminum cover manufacturer shall submit Shop Drawings, signed and sealed
by a registered Professional Engineer in the State of Florida, to the Engineer
showing clearly marked dimensions, sizes, thicknesses, gauges, materials, finishes,
joint attachments, and erection procedures, including erection bracing, guying, and
sequence of work.
2. Structural design calculations showing at least design loads and stresses for all
cover components shall be submitted to the Engineer. Calculations shall be signed
and sealed by a registered Professional Engineer in the State of Florida.
3. Certification from the manufacturer of the aluminum used in the fabrication of the
aluminum cover shall be submitted to the Engineer stating that the alloys have been
tested, inspected, and are in compliance with the requirements of this specification.
4. An affidavit certifying that the specified material alloys, sizes, and quantities have
been furnished shall also be submitted to the Engineer by the cover fabricator-
erector upon completion of the work.
5. Procedures for field testing of the covers for load and deflection as required in Part 3
-- Execution.
1.05 WARRANTY
A. Warranty and Guarantee shall be as specified in Section 11 000 - Equipment General
Provisions.
PART 2 - PRODUCTS
2.01 MANUFACTURERS
A. The aluminum extruded flat covers shall be installed at the location(s) shown on the
Drawings for odor control purposes. The flat covers shall be relatively airtight and shall
operate under a vacuum induced by the odor control system. Acceptable fabricator/erectors
shall be Hallsten Corporation, Ultraflote Corporation or approved equal.
2.02 MATERIALS
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ALUMINUM ODOR CONTROL COVERS
"--.-.,,-. -
,---'-'-,'''-''
- -_.----- "~--""---~'^"~"---'-""'-"---'~"---'~
A. The flat cover shall be clear-span and self-supporting from the structural framing system.
The use of structural members in contact with the contents of the tank is expressly
prohibited. Covers shall be fabricated from an extrusion process, with beams and stiffeners
extruded integrally with cover.
B. All covers shall be amply designed and constructed for the maximum stresses occurring
during fabrication, erection and operation. All materials shall be new and both workmanship
and materials shall be of the very best quality, entirely suitable for the service to which the
covers are to be subjected and shall conform to all applicable Sections of these
Specifications.
C. The cover materials shall be capable of withstanding corrosion, pitting, and other
degradation from the sewage and its associated gases and vapors, containing hydrogen
sulfide in concentrations of at least 200 ppm in air by volume. All metal components of the
cover system shall be 6061-T6 aluminum or type 316 stainless steel. No galvanized,
painted or plated steel shall be used.
D. The flat cover panels shall be designed for a uniform live load of 50 pounds per square foot.
The flat cover panels shall be designed for a concentrated live load of 400 pounds on an
area of 36 square inches, so placed to produce maximum stress in panel and supporting
system. Uniform and concentrated live loads need not act concurrently. All structures shall
also be designed to withstand a vacuum of at least 2 inches water column, acting
concurrently with any of the above live loads, and a wind uplift load in accordance with the
Florida Building Code. Wind loads shall be determined based on a wind speed of 150 MPH
(3 second gust speed), importance factor of 1.0, and exposure category B. Panel deflection
shall be less than or equal to L/240 under total dead load and live loads, excluding specified
vacuum.
E. Uplift Anchorage: All panels shall be adequately anchored to the bearing substrate with
properly sized Type 316 stainless steel anchors for wind upload forces. All projecting bolts
and nuts shall be painted OSHA safety yellow.
F. Covers shall be designed such that each individual panel can be easily removed manually.
No more than twelve fasteners shall be required to be removed for removal of anyone panel
unless otherwise approved by the Engineer. Each panel must be able to be removed
without needing to move more than two adjacent panels. No individual cover panel shall
weigh more than 150 pounds nor shall any individual cover be more than five feet wide to
facilitate removal by maintenance personnel. Each panel shall be easily removable and the
lifting force shall not exceed the deadweight of the panel.
G. The flat covers shall be designed as a nominally airtight and watertight system under the
specified design load conditions. The maximum allowable air leakage rate forthe covers is
0,2 CFM per square foot at 0.2 inches w.c. negative pressure. These conditions shall be
achieved by using gaskets between panels, the perimeter wall, and at walkway supports.
The design shall provide for expansion and contraction due to climate change without
damage to the cover.
H. The aluminum extruded flat covers shall be a clear-span system complete with non-
corrugated closure panels.
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ALUMINUM ODOR CONTROL COVERS
I. All dissimilar materials shall be separated from each other through the use of approved
gaskets or coatings. All aluminum panels shall be sealed and secured to prevent slipping or
disengagement under all load and temperature changes.
J. The flat panels shall be noncorrugated, aluminum alloy 6061-T6, 6063-T6 aluminum
extrusion. Extrusions shall be sized to meet all loading conditions specified herein. All
exterior panel surfaces shall be mill finish. The flat cover shall have an integral bi-directional
slip-resistant surface which extends 0.1 inch above the panel surface. Slip-resistance by use
of paint or adhesive tape will not be allowed. All bolts and fasteners shall be 7075- T73,
2024-T4 anodized aluminum, or 316 stainless steel with a minimum 3/8-inch diameter. All
expansion and/or epoxy anchor bolts shall be 316 stainless steel. All joints shall be sealed
with 3/8-inch (min.) thick Santoprene or Hypalon gaskets and silicone rubber sealant as
manufactured by Dow Corning, General Electric, orequal, or neoprene conforming to ASTM
C864, and installed in accordance with manufacturer's specifications. No foam tape or caulk
shall be allowed.
2.03 ACCESSORIES
A. The following accessories and appurtenances shall be provided and considered in the
design of the covers:
1. Aluminum duct connections with the nominal diameter shown on the Drawings, or
the rectangular equivalent, shall be provided. The duct shall be a minimum of 0.050-
inches thick, 5052-H32, 3004-H14 or H16 aluminum alloy. A square to round
transition shall be provided, if required. The cover fabricator-erector shall be
responsible forthe aluminum ductwork. The aluminum duct shall be provided with a
flanged connection. The aiuminum duct shall connect to the fiberglass duct with a
flanged flexible rubber connector. The duct shall be fastened to the aluminum cover
as recommended by the cover fabricator-erector.
2. Access hatches shall be provided as shown on the Drawings. Access hatch
locations shall be confirmed with equipment manufacturer(s) to ensure that the hatch
locations provide access to the equipment. Access hatches shall be integrated to the
cover system and be gear hinged to adjacent frame/panel. The access hatch panels
shall be of the same design and materials as the rest of the cover components,
including loads, deflection and other specified criteria. Access hatches shall include
recessed lifting handles to allow opening the hatch without posing a tripping hazard.
Hatches shall fold over when open so thatlheir weight completely rests on the cover
without the need for any support hardware.
3. Air vents with nominal diameter shown on the Drawings shall be provided. The air
vents shall be fabricated of aluminum and be provided with integral rain cap and bird
screen. Vents shall be fastened to the aluminum cover by the cover fabricator-
erector.
PART 3 - EXECUTION
3.01 INSTALLATION
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ALUMINUM ODOR CONTROL COVERS
A. All cover components shall be fabricated in a shop where quality work is in accordance with
the highest standards for work of this type.
B. Unless otherwise shown, the aluminum extruded flat cover shall be erected plumb and level
and in proper alignment by the cover fabricator-erector using highly skilled mechanics. The
Contractor shall coordinate the work for prompt completion of the project.
C. Adequate protection and reasonable care shall be provided during fabrication, shipment, site
storage, and erection to prevent damage to the aluminum cover. The Contractor shall be
responsible for protection of the cover before and during erection of the cover to prevent
stains, discoloration, and scratches to the aluminum cover surface by others.
D, Field cutting, drilling of holes, or openings of any type in the cover by other trades shall not
be permitted. All such openings and reinforcements thereof shall be by the coverfabricator-
erector, or under his guidance,
E. The Contractor shall test the covers for leakage by static pressure smoke testing all joints for
leakage. The test shall be designed to quantify the air infiltration rates of the seams and
interfaces of the cover and hatch system. The Contractor shall promptly repair and seal to
the satisfaction of the Engineer any leaks which are unacceptable to the Engineer after
installation and throughout the warranty period.
3,02 CONDITIONS
A. Upon completion of the installation ofthe covers, an independent testing laboratory shall be
retained to conduct load tests on the cover system. The panels shall be field tested with
loads corresponding to the loads specified previously in this Specification. Final acceptance
of the cover system shall be contingent upon in-place conformance to the ioad and
deflection criteria addressed in this Specification.
END OF SECTION
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ALUMINUM ODOR CONTROL COVERS
SECTION 15000
PIPING, GENERAL
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish and install to the required line and grade, all piping together with
all fittings and appurtenances, required for a complete installation. All piping located outside
the face of structures or building foundations and all piping embedded in concrete within a
structure or foundation shall be considered exterior piping.
B. The Contractor shall furnish and install fittings, couplings, connections, sleeves, adapters,
harness rods and closure pieces as required to connect pipelines of dissimilar materials
and/or sizes herein included under this Section and other concurrent contracts for a
complete installation.
C. The Contractor shall furnish all labor, materials, equipment, tools, and services required for
the furnishing, installation and testing of all piping as shown on the Drawings, specified in
this Section and required for the Work. Piping shall be furnished and installed of the
material, sizes, classes, and at the locations shown on the Drawings and/or designated in
this Section. Piping shall include all fittings, adapter pieces, couplings, closure pieces,
harnessing rods, hardware, bolts, gaskets, wall sleeves, wall pipes, hangers, supports, and
other associated appurtenances for required connections to equipment, valves, or structures
for a complete installation.
D. Piping assemblies under 4-inch size shall be generally supported on walls and ceilings,
unless otherwise shown on the Drawings or ordered by the Engineer, being kept clear of
openings and positioned above "headroom" space. Where practical, such piping shall be
run in neat clusters, plumb and level along walls, and parallel to overhead beams.
E. The Contractor shall provide taps on piping where required or shown on the Drawings.
Where pipe or fitting wall thicknesses are insufficient to provide the required number of
threads, a boss or pipe saddle shall be installed.
F. The work shall include, but not be limited to, the following:
1. Connections to existing pipelines.
2. Test excavations necessary to locate or verify existing pipe and appurtenances.
3. Installation of all new pipe and materials required for a complete installation.
4. Cleaning, testing and disinfecting as required.
G. All piping systems shall comply with Collier County Utilities Standards Manual, latest edition
with revisions. In the event of a conflict between the Standards Manual and other Contract
provisions, the more stringent requirement shall govern.
1.02 MATERIAL CERTiFICATION AND SHOP DRAWING SUBMITTALS
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PIPING, GENERAL
A. The Contractor shall furnish to the Owner (through the Engineer) a Material Certification
stating that the pipe materials and specials furnished under this Section conform to all
applicable provisions ofthe corresponding Specifications. Specifically, the Certification shall
state compliance with the applicable standards (ASTM, AWWA, etc.) for fabrication and
testing. The requirements for Certifications shall be as specified in Section 01330 entitled
"Submittals".
B. Shop Drawings for major piping (2-inches in diameter and greater) shall be prepared and
submitted in accordance with Section 01330 - Submittals. In addition to the requirements of
Section 01330 entitled "Submittals", the Contractor shall submit laying schedules and
detailed Drawings in plan and profile for all piping as specified and shown on the Drawings.
C. Shop Drawings shall include, but not be limited to, complete piping layout, pipe material,
sizes, class, locations, necessary dimensions, elevations, su pports, hanger details, pipe
joints, and the details of fittings including methods of joint restraint.
D. No fabrication or installation shall begin until Shop Drawings are accepted by the Engineer.
1.03 DEFINITIONS
A. Exposed Piping: Piping lllst is not buried. Exposed piping includes piping outdoors
aboveground, piping in buildings, piping on the interior of tanks, piping on the interior of
vaults, and piping on the interior of pits.
B. Size: Pipe, fittings, and accessory sizes and references to pipe diameter on the Drawings
and in the Specifications are intended to be normal size or diameter, and shall be interpreted
as nominai size or diameter.
1.04 PIPELINE DESIGNATIONS
Pipelines are designated in the plans with the following identification code- AA"-BB-CC. The
three parts of the code are defined as follows:
A. AA" - Nominal Diameter of the pipeline in inches.
B, BBB - Functional use designation of the pipelines as described in the following sections.
C. CC - Pipeline material. The pipeline materials are as follows:
1. DI - Ductile iron
2. PVC - Polyvinyl chloride
3. CPVC - Chlorinated polyvinyl chloride
4. SS - Stainless steel
5. RCP - Reinforced concrete pipe
6. FRP - Fiberglass reinforced plastic
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PIPING, GENERAL
1,05 WATER PIPING SYSTEMS - NOMENCLATURE
The pipelines that are part of water piping systems are shown in the plans with the following
designations:
A. W, W1, POT - Potable Water Piping Systems
B. NPW - Non-potable Water Piping Systems
C. PSW, W2 - Plant Service Water Piping Sytems
D. RW - Reclaimed Water Piping Systems
1.06 WASTEWATER PIPING SYSTEMS - NOMENCLATURE
The pipelines that are part of wastewater piping systems are shown in the plans with the
following designations:
A. AEI, AI- Aeration Influent
B. CE - Clarifier Effluent
C. CI - Clarifier Influent
D. CHI- Chlorine Contact Tank Influent
E. DFM - Plant Drain Force Main
F. EO - Emergency Overflow
G. FI- Filter Influent
H. ML - Mixed Liquor
I. PE - Plant Effluent
J. RAS, SL - Return Activated Sludge
K. RJW - Reject Water
L RAS, RS, WW - Raw Sewage, Raw Wastewater
M. RML - Return Mixed Liquor
N. SC - Scum
'0. SU - Supernatant
P. TSL, SL - Thickened Sludge
Q. WAS, SL - Waste Activated Sludge
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1.07 GRIT PIPING SYSTEMS - NOMENCLATURE
The pipelines that are part of grit piping systems are shown in the plans with the following
designations:
A. GR - Grit
1.08 CHEMICAL PIPING SYSTEMS - NOMENCLATURE
The pipelines that are part of chemical piping systems are shown in the plans with the
following designations:
A. S - Sample
B. SHCL - Sodium Hypochlorite
C. SH - Sodium Hydroxide
1.09 DRAIN PIPING SYSTEMS - NOMENCLATURE
The pipelines that are part of drain piping systems are shown in the plans with the following
designations:
A. D,DR,DRN
PART 2 - PRODUCTS
2.01 GENERAL
A. All specials and every length of pipe shall be marked with the manufacturer's name or
trademark, size, class, and the date of manufacture. Special care in handling shall be
exercised during delivery, distribution, and storage of pipe to avoid damage and
unnecessary stresses. Damaged pipe will be rejected and shall be replaced at the
Contractor's expense. Pipe and specials stored prior to use shall be stored in such a
manner as to keep the interior free from dirt and foreign matter.
B. Testing of pipe before installation shall be as described in the corresponding ASTM or
AWWA Specifications and in the applicable specifications. Field testing after the pipe is
installed shall be as specified in Section 02505 Pressure Testing of Piping Systems.
C. Joints in piping shall be of the type as specified and shown in the Drawings,
D. All buried Qjpinq shall have restrained joints. All exposed piping shall have flanged joints,
unless otherwise specified or shown on the drawings.
E. The Drawings indicate work affecting existing piping and appurtenances. The Contractor
shall excavate test pits as required of all connections and crossings which may affect the
Contractor's work prior to ordering pipe and fittings to determine sufficient information for
ordering materials. The Contractor shall take whatever measurements that are required to
complete the work as shown or specified.
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PIPING, GENERAL
2.02 GENERAL - MATERIALS
A. Pipe, fittings, valves, and appurtenances furnished as part of the Work shall be in
accordance with Section 01600 - Materials and Equipment.
B. The general requirements, materials, and installation for the types of pipe specified in
this section are listed in the following Sections:
1. Section 15140 - Ductile Iron Pipe
2. Section 15141 - Poiyvinyl Chloride (PVC) and Chlorinated Polyvinyl Chloride (CPVC)
Pipe.
3. Section 15142 - Stainless Steel Pipe
C. Piping materials shall be as described in this Section unless noted otherwise on the
Drawings.
D. All PVC or CPVD pipe used for reuse water shall be Federal Safety purple. All PVC or
CPVC pipe used for potable water shall be blue and white in color.
E, All buried ductile iron pipe and fittings used for reuse water shall have purple
polyethylene encasement as specified in Section 15121 - Ductile Iron Pipe.
2.03 MATERIALS FOR WATER, WASTEWATER AND REUSE PIPING SYSTEMS
A. Buried Piping, unless noted otherwise, shall be:
1. 24" and Larger Piping: Ductile Iron
2, 14" through 20" Piping: Ductile Iron or PVC C905
3. 4" through 12" Piping: Ductile Iron or PVC C900
4. 3" and Smaller Piping: Schedule 80 PVC
B. Interior Exposed and Exterior Continuously Shaded Piping, unless noted otherwise, shall
be:
1. 4" and Larger Piping: Ductile Iron
2. 3" and Smaller Piping: Schedule 80 PVC
C. Exterior Exposed Piping, unless noted otherwise, shall be:
1. 4" and Larger Piping: Ductile Iron
2. 3" and Smaller Piping: Schedule 40S Stainless Steel
D. Gasket Material SBR rubber, Buna-N, Neoprene, Viton or EPDM.
2.04 MATERIALS FOR CHEMICAL PIPING SYSTEMS
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PIPING. GENERAL
A. Sample Piping System Materials
1. Rigid Piping: PVC or CPVC as noted
2. Flange Joint Accessories
a. Fastener Material: AISI Type 316 stainless steel
b. Gasket and Seal Material: Neoprene
B. Sodium Hydroxide Piping System Materials
1, Rigid Piping: CPVC
2. Flexible Piping: Polyethylene
3. Flange Joint Accessories
a. Faastener Material: AISI Type 316 stainless steel
b. Gasket and Seal Material: EPDM
C. Sodium Hypochlorite Solution Piping System Materials
1. Rigid Piping: CPVC
2. Flange Joint Accessories for Sodium Hypochlorite Piping Systems.
a. Fastener Material: Hastelloy C
b, Gasket and Seal Material: Viton
3. Use solvent weld cement and thinner approved for sodium hypochlorite. Submit
proposed cement to Engineer for approval.
2.05 MATERIALS FOR DRAIN PIPING SYSTEMS
A. Drain Piping Beneath Structures: Ductile Iron, concrete encased.
B. Buried Drain Piping Not Beneath Structures: Ductile Iron, PVC C900 or PVC eg05. '
C, Exposed Drain Piping: Ductile Iron.
D. Gasket Material: SBR rubber, Buna-N, Neoprene or Nitrile.
2.06 WALL PIPES
A. Where wall sleeves or wall pipes occur in walls that are continuously wet on one or both
sides, they shall have water stop flanges at the center of the casting or as shown on the
Drawings. Ends of wall pipes shall be flange, mechanical joint, plain end, or bell as shown
on the Drawings, or as required for connection to the piping. Wall pipes shall be of the same
material as the piping that they are connected to. If welded waterstop flanges are employed,
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welds shall be 360 degree continuous on both sides of flange. Unless otherwise shown on
the Drawings, waterstop flanges shall conform to the minimum dimensions shown below:
Waterstop Waterstop
.E!pe Size Flange Diameter Flange Thickness
4"-12" OD + 3.10" 0.50"
14" - 24" OD + 4.15" 0.75"
30" - 36" OD + 4.50" 1.00"
42" - 4811 OD + 5.00" 1.25"
54'1 OD + 5.90" 1.50"
60" OD + 6.00" 1.50"
2.07 SLEEVES
A. Unless shown otherwise, all piping passing through walls and floors shall be installed in
sleeves or wall castings accurately located before concrete is poured, or placed in position
during construction of masonry walls. Sleeves passing through floors shall extend from the
bottom of the floor to a point 3 inches above the finished floor, unless shown otherwise.
Water stop flanges are required on all sleeves located in floors or walls which are continually
wet or under hydrostatic pressure on one or both sides of the floor or wall.
B. Sleeves shall be cast iron, or fabricated stainless steel in accordance with details shown on
the Drawings. If not shown on the Drawings, the Contractor shall submitto the Engineer the
details of sleeves he proposes to install; and no fabrication or installation thereof shall take
place until the Engineer's acceptance is obtained. Steel sleeves shall be fabricated of
structural steel plate in accordance with the standards and procedures of AISC and AWS.
Steel sleeve surfaces shall receive a commercial sandblast cleaning and then be shop
painted in accordance with Section 09850 entitled "Painting".
C. When shown on the Drawings or otherwise required, the annular space between the
installed piping and sleeve shall be completely sealed against a maximum hydrostatic
pressure of 20 psig. Seals shall be mechanically interlocked, solid rubber links, trade name
"Link-Seal", as manufactured by the Thunderline Corp., Wayne, Michigan, or equal. Seals
shall have Type 316 stainless steel hardware. Rubber link, seal-type, size, and installation
thereof, shall be in strict accordance with the manufacturer's recommendations.
D. Cast iron mechanical joint adapter sleeves shall be Clow #1429, as manufactured by the
Clow Corp., or equal. Mechanical joint adapter sleeves shall be provided with suitable
gasket, follower ring, and bolts to effect a proper seal. In general, sleeves installed in walls,
floors, or roofs against one side of which will develop a hydrostatic pressure, or through
which leakage of liquid will occur, shall be so sealed. If welded waterstop flanges are
empioyed, welds shall be 360 degree continuous on both sides of flange.
2.08 SOLID SLEEVE COUPLINGS
A. Solid sleeve couplings shall be used to connect buried service piping where shown on the
Drawings. Solid sleeves shall be ductile iron, long body and shall conform to the
requirements of ANSI A21.10 (AWWA C110). Unless otherwise shown or specified, solid
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-,._".._...~~"",. .-
-"-'-'-'
-----~,,_.......--_.,_.~.._----,----_..
sleeve couplings shall be Style A 11760 as manufactured by American Cast Iron Pipe Co., or
equal.
2.09 FLEXIBLE COUPLINGS
A. Flexible couplings shall be as manufactured by the Red Valve Company and shall consist of
a molded reinforced fabric of cotton and natural rubber. Stainless steel retaining rings shall
be furnished. End connections shall match ANSI 125 pound flanges with a minimum
pressure rating of 140 psi.
2.10 SLEEVE TYPE COUPLINGS
A. Sleeve type, flexible couplings shall be furnished and installed where shown on the
Drawings and as approved by the Engineer. In addition, harnessed, sleeve type flexible
couplings shall be provided on all exposed pipe 3 inches and larger in diameter that spans
any expansion joint in a building or structure.
B. Materials shall be of type 316 stainless steel and couplings shall be rated for the same
pressures as the connecting piping.
C. Gaskets shall be rubber. Bolts and nuts shall be stainless steel.
D. Harnessing
1. Harness couplings to adjacent flanges as shown, specified or otherwise required to
restrain all pressure piping.
2. Dimensions, sizes, and spacing for lugs, tie rods, washers, and nuts shall conform to
the standards for the pipe size, and design pressure specified.
3. No less than two bolts shall be furnished for each coupling.
4. Tie bolts, nuts and washers shall be type 316 stainless steel.
5. Harness rods shall have lengths less than 10 feet between adjacent flanged joints on
fittings.
F. All couplings shall be provided without interior pipe stop.
G. Sleeve Type Coupling suppliers, or equal:
1. Rockwell (Smith-Blair), Style 411 with materials of construction as noted above.
2. Dresser, Style 38 with materials of construction as noted above,
2.11 FLANGED ADAPTERS
A. Flanged adapters shall be furnished as required and as shown on the Drawings.
B. All flanged adapters, 12 inches in diameter and smaller, except as shown on the Drawings
or directed by the Engineer, shall be locking type flanged adapters with joint restraint.
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C. Pressure and service shall be the same as connected piping.
D. Materials shall be high strength steel with'fusion bonded epoxy coating inside and out.
E. Flanged adapters shall receive a field coating compatible with the paint systems specified in
Section 09850 entitled "Painting".
F. Bolts and nuts shall be Type 316 stainless steel.
G. Flanged coupling adapters larger than 12 inches in diameter shall be harnessed by tying the
adapter to the nearest pipe joint flange using Type 316 stainless steel threaded rods and rod
tabs. The threaded rods and rod tabs shall be as shown on the Drawings.
H. Flanged adapters shall be as manufactured by Smith Blair Corporation, Model 923 or 911,
Ford Type FCA, or approved equal from a U.S. manufacturing facility.
2.12 MECHANICAL COUPLINGS
A. Mechanical couplings shall be furnished as specified, shown on the Drawings or required for
proper installation.
B. Materials shall be of malleable iron and couplings shall be rated for the same pressures as
the connecting piping.
C. Gaskets shall be rubbeL Bolts and nuts shall be heat treated carbon steel track bolts and
shall be plated.
D. After installation, buried couplings shall receive two heavy coats of an approved coal tar
which is compatible with the finish of the coupling. Exposed couplings shall be painted in
accordance with Section 09850 entitled "Painting".
E. Couplings shall be as manufactured by Victaulic Company of America, Style 31 or equal.
2.13 UNIONS
A. For ductile iron, carbon steel, and grey cast iron pipes assembled with threaded joints and
malleable iron fittings, unions shall conform to ANSI B16.39.
B. For copper piping, unions shall have ground joints and conform to ANSI B16.18.
C. For PVC and CPVC piping, unions shall be socket weld type with Viton O-ring.
2.14 GROOVED COUPLINGS
A. All grooved couplings shall be in accordance with AWWA C606.
B. For ductile iron pipe with nominal pipe sizes ranging from three inches to twenty-four inches,
groove couplings shall be style 31 or 44 by Victaulic, or equivalent models by Aeroquip or
equal. The joint grooving dimensions shall be in conformance to the rigid joint
specifications. The gasket shall be a flush-seal type.
C. Pipe wall thickness shall be in accordance with AWWA C606 and as specified herein.
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.
PART 3 - EXECUTION
3.01 INSTALLATION
A. All piping shall be installed by skilled workmen and in accordance with the best standard
practice for piping installation as shown on the Drawings, specified or recommended by the
pipe manufacturer. Proper tools and appliances for the safe and convenient handling and
installing of the pipe and fittings shall be used. Great care shall be taken to prevent any pipe
coating from being damaged on the inside or outside of the pipe and fittings. All pieces shall
be carefully examined for defects, and no piece shall be installed which is known to be
cracked, damaged, or otherwise defective. if any defective pieces should be discovered
after having been installed, it shall be removed and replaced with a sound one in a
satisfactory manner by the Contractor and at his own expense. Pipe and fittings shall be
thoroughly cleaned before they are installed and shall be kept clean until they are accepted
in the complete work. All piping connections to equipment shall be provided with unions or
coupling flanges located so that piping may be readily dismantled from the equipment. At
certain applications, Dresser, Victaulic, or equal, couplings may also be used subject to
approval by the Engineer. All piping shall be installed in such a manner that it will be free to
expand and contract without injury to itself or to structures and equipment to which it is
connected. All piping shall be erected to accurate lines and grades with no abrupt changes
in line or grade and shall be supported and braced against movement, temporary, or
permanent. All exposed piping shall be installed with vertical and horizontal angles properly
related to adjoining surfaces or pipes to give the appearance of good workmanship. Unless
otherwise shown or approved, provided a minimum headroom clearance under all piping of
7 feet 6 inches.
B. Unless otherwise shown or specified, all waste and vent piping shall pitch uniformly at a
1/4-inch per foot grade and accessible cleanouts shall be furnished and installed as shown
and as required by local building codes. Installed length of waste and vent piping shall be
determined from field measurements in lieu of the Drawings.
C. All excavation shall be made in such a manner and to such widths as will provide ample
room for properly installing the pipe and permit thorough compaction of backfill around the
pipe. The minimum trench widths shall be in strict accordance with the "Trench Width
Excavation Limits" as shown on the Drawings. All excavation and trenching shall be done in
strict accordance with these specifications and all applicable parts ofthe OSHA Regulations,
29CFR 1926, Subpart P.
D, Enlargements of the trench shall be made as needed to give ample space for operations at
pipe joints. The width of the trench shall be limited to the maximum dimensions shown on
the Drawings, except where a wider trench is needed for the installation of and work within
sheeting and bracing. Except where otherwise specified, excavation slopes shall be flat
enough to avoid slides which will cause disturbance of the subgrade, damage to adjacent
areas, or endanger the lives or safety of persons in the vicinity.
E. Hand excavation shall be employed wherever, in the opinion of the Engineer, it is necessary
for the protection of existing utilities, poles, trees, pavements, or obstructions.
F. No greater length of trench in any location shall be left open, in advance of pipe laying, than
shall be authorized or directed by the Engineer and, in general, such length shall be limited
to approximately one hundred (100) feet. The Contractor shall excavate the trenches to the
full depth, width and grade indicated on the Drawings including the relevant requirements for
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bedding. The trench bottoms shall then be examined by the Engineer as to the condition
and bearing value before any pipe is laid or bedding is placed.
G. No pipe trench shall be backfilled until required pressure testing has been performed. All
testing shall be in accordance with Section 02505, Pressure Testing of Piping Systems.
H. All pipe passing through walls and/or floors shall be provided with wall pipes or sleeves in
accordance with the specifications and the details shown on the Drawings. All wall pipes
shall be of ductile iron and shall have a water stop iocated in the center of the wall. Each
wall pipe shall be of the same class, thickness, and interior coating as the piping to which it
is joined. All buried wall pipes shall have a coal tar outside coating on exposed surfaces.
I. Joint deflection shall not exceed 75 percent of the manufacturer's recommended deflection.
Excavation and backfilling shall conform to the requirements of Section 02317, Trenching,
Bedding and Backfill for Pipe, and as specified herein. Maximum trench widths shall
conform to the Trench Width Excavation Limits shown on the Drawings. All exposed,
submerged, and buried piping shall be adequately supported and braced by means of
hangers, concrete piers, pipe supports, or otherwise as may be required by the location.
J. Following proper preparation of the trench subgrade, pipe and fittings shall be carefully
lowered into the trench so as to prevent dirt and other foreign substances from gaining
entrance into the pipe and fittings. Proper facilities shall be provided for lowering sections of
pipe into trenches. Under no circumstances shall any of the materials be dropped or
dumped into the trench.
K. Water shall be kept out of the trench until jointing and backfilling are completed. When work
is not in progress, open ends of pipe, fittings, and valves shall be securely closed so that no
water, earth, or other substance will enter the pipes, fitting, or valves. Pipe ends left for
future connections shall be valved, plugged, or capped, and anchored as required.
L. All piping shall be installed in such a manner that it will be free to expand and/or contract
without injury to itself or to structures and equipment to which it is connected. All piping shall
be erected to accurate lines and grades with no abrupt changes in line or grade and shall be
supported and braced against movement, temporary, or permanent. All exposed piping
shall be installed with vertical and horizontal angles properly related to adjoining surfaces or
pipes to give the appearance of good workmanship. Pipes crossing within a vertical
distance of less than or equal to one (1) foot shall be encased and supported with concrete
at the point of crossing to prevent damage to the adjacent pipes as shown on the Drawings.
M. The full length of each section of pipe shall rest solidly upon the bed of the trench, with
recesses excavated to accommodate bells, couplings, joints, and fittings. Before joints are
made, each pipe shall be well bedded on a solid foundation; and no pipe shall be brought
into position until the preceding length has been thoroughly bedded and secured in place.
Pipe that has the grade or joint disturbed after laying shall be taken up and re-iaid by the
Contractor at his own expense. Pipe shall not be laid in water orwhen trench conditions are
unsuitable for work.
N. Proper and suitable tools and appliances for the safe convenient handling and laying of pipe
shall be used and shall in general agree with manufacturer's recommendations.
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,...-."--
- _..-._...~.~~-,._,-~..,..~-_..-
O. At the close of each work day the end of the pipeline shall be tightly sealed with a cap or
plug so that no water, dirt, or other foreign substance may enter the pipeline, and this plug
shall be kept in place until pipe laying is resumed.
P. During the laying of pipe, each pipe manufacturer shall provide his own supervisor to instruct
the Contractor's pipe laying personnel in the correct procedure to be followed.
Q. All piping bedding shall be as shown on the drawings, unless otherwise specified herein.
3.02 JOINTS IN PIPING
A. Restrained joints: shall be provided on all pipe joints as specified herein and shown on the
Drawings. Restrained joints shall be made up similar to that for push-on joints. All
underground piping and fittings shall use mechanically restrained joints.
B. Flan!Jed joints: shall be brought to exact alignment and all gaskets and bolts or studs
inserted in their proper places. Bolts or studs shall be uniformly tightened around the joints.
Where stud bolts are used, the bolts shall be uniformly centered in the connections and
equal pressure applied to each nut on the stud. Pipes in all lines subject to temperature
changes shall be cut short and cold sprung into place to compensate for expansion when
hot.
C. Mechanical joints: shall be made up with gaskets, glands and bolts. When a joint is to be
made up, the bell or socket and plain end shall be cleaned and washed with a solution or
mild soap in water; the gland and gasket shall be slid onto the plain end and the end then
entered into the socket until it is fully "home" on the centering ring. The gasket shall then be
painted with soapy water and slid into position, followed by the gland. All bolts shall be
inserted and made up hand tight and then tightened alternately to bring the gland into
position evenly. Excessive tightening of the bolts shall be avoided. All nuts shall be pulled
up using a torque wrench which will not permit unequal stresses in the bolts. Torque shall
not exceed the recommendations of the manufacturer of the pipe and bolts for the various
sizes. Care shall be taken to assure that the pipe remains fully "home" while the joint is
being made. Joints shall conform to the applicable AWWA Specifications.
D, Threaded and/or screwed joints: shall have long tapered full depth threads to be made with
the appropriate paste or jointing compound, depending on the type of fluid to be processed
through the pipe. All pipe up to, and including 1-1/2 inches, shall be reamed to remove burr
and stood on end and well pounded to remove scale and dirt. Wrenches on valves and
fittings shall be applied directly over the joint being tightened. Not more than three pipe
threads shall be exposed at each connection, Pipe, in all lines subject to temperature
changes shall be cut short and cold sprung into place to compensate for expansion when
hot. Joints in all piping used for chlorine gas lines shall be made up with a glycerine and
litharge cement. Joints in plastic piping (PVC/CPVC) shall be laid and joints made with
compounds recommended by the manufacturer. Installation shall conform to the
requirements of ASTM D2774 and ASTM D2855. Unions required adjacent to valves and
equipment.
E. Welded ioints: shall be made by competent operators in a first class workmanlike manner, in
complete accordance with ANSI B31.1 and AWWA C206. Welding electrodes shall conform
to ASTM A233, and welding rod shall conform to ASTM A251. Only skilled welders capable
of meeting the qualification tests for the type of welding which they are performing shall be
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.
employed. Tests, if so required, shall be made at the expense of the Contractor, if so
ordered by the Engineer. Unions shall be required adjacent to valves and equipment.
F. Solvent or adhesive welded ioints: in plastic piping shall be accomplished in strict
accordance with the pipe manufacturer's recommendations, including necessary field
cuttings, sanding of pipe ends, joint support during setting period, etc. Care shall be taken
that no droppings or deposits of adhesive or material remain inside the assembled piping.
Solvent or adhesive material shall be compatible with the pipe itself, being a product
approved by the pipe manufacturer. Unions are required adjacent to valves and equipment.
Sleeve-type expansion joints shall be supplied in exposed piping to permit 1-inch minimum
of expansion per 100 feet of pipe length,
G. Dielectric unions: shall be installed wherever dissimilar metals are connected except for
bronze or brass valves in ferrous piping. Unions shall be provided downstream of each
valve with screwed connections. The Contractor shall provide screwed or flanged unions at
each piece of equipment, where shown, and where necessary to install or dismantle piping.
H. Eccentric reducers: shall be installed where air or water pockets would otherwise occur in
mains because of a reduction in pipe size.
3.03 TESTING
A. All testing shall be in accordance with Section 02505, Pressure Testing of Piping Systems.
3.04 PAINTING
A. All piping specified in this Section shall be painted in accordance with Section 09850 entitled
"Painting".
END OF SECTION
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SECTION 15010
MILL PIPING - EXPOSED AND BURIED
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish and install all exposed and buried mill piping as shown and
specified, complete, including small steel pipe, copper tubing, solvent-welded PVC pipe,
fittings, gaskets, bolts, insulating connections, and such other specialties as required for a
complete and operable piping system in accordance with the requirements of the Contract
Documents.
1.02 REFERENCE SPECiFICATIONS, CODES, AND STANDARDS
A. Commercial Standards
1.
ANSI/ASME B16.3
ANSI/ASME B16.4
ANSI 816.12
ANSI B16.22
Malleable Iron Threaded Fittings, Classes 150 and 300.
2.
Cast Iron Threaded Fittings, Class 125 and 250.
3.
Cast Iron Threaded Drainage Fittings.
4.
Wrought Copper and Copper Alloy Solder Joint Pressure
Fittings.
5.
ANSI/NFPA 70
ASTM A 53
National Electric Code.
6.
Specification for Pipe, Steel, Black and Hot-Dipped,
Zinc-Coated Welded and Seamless.
7. ASTM A 120 Specification for Pipe, Steel, Black and Hot-Dipped
Zinc-Coated (galvanized) Welded and Seamless, for
Ord inary Uses.
8. ASTM B 88 Specifications for Seamless Copper Water Tube.
9. ASTM D 1785 Specification for Poly (Vinyl Chloride) (PVC) Plastic Pipe,
Schedules 40. 80, and 120.
10. ASTM D695 Test for Compressive Properties of Rigid Plastics.
11. ASTM D1599 Test for Short-Time Rupture Strength of Plastic Pipe,
Tubings and Fittings.
12. ASTM D2996 Specification for Filament-Wound "Fiberglass" Pipe.
13. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SUBMITTALS
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A. For the materials and equipment items supplied under the provisions of this Section, the
Contractor shall submit copies of the manufacture~s product specifications and performance
details according to the requirements of Section 01330 entitled "Submittals."
PART 2 -- PRODUCTS
2.01 SMALL GALVANIZED AND BLACK STEEL PIPE
A. Unless otherwise specified, galvanized steel pipe and black steel pipe in sizes 6-inches in
diameter and smaller shall conform to the requirements of ASTM A 53 or ASTM A 120 as
shown, and shall be Schedule 80. Galvanized steel pipe shall not be cement mortar lined
unless otherwise shown. Fittings for galvanized steel pipe shall be of galvanized malleable
iron, with NPT or grooved ends. Black pipe may have welded joints, with standard or extra
strong welded fittings, or fittings called out on the Drawings.
2.02 COPPER TUBING
A. Copper tubing shall be flexible type, 0.035 inch wall thickness (minimum). Fittings shall be
compression type.
-
2.03 MECHANICAL-TYPE COUPLINGS
A. Mechanical-type couplings shall be furnished and installed in accordance with the
requirements of Section 15000 entitled "Piping, General."
2.04 SLEEVE-TYPE COUPLINGS
A. Sleeve-type couplings shall be furnished and installed in accordance with the requirements
of Section 15000 entitled "Piping, General."
2.05 GASKETS AND BOLTS
A. Except as otherwise provided, gaskets for flanged joints shall be in accordance with the
requirements of Section 15000 entitled "Piping, General."
B. Except as otherwise provided, bolls shall conform to the more stringent requirements of the
Collier County Utilities Standards Manual and Section 05500 entitled "Metal Fabrications".
2.06 INSULATING CONNECTIONS
A. Insulating bushings, unions, couplings or flanges, as appropriate, shall be used for joining
pipes of dissimilar metals, and for piping systems where corrosion control and cathodic
protection are involved, in accordance with the requirements of Section 15000 entitled
"Piping, General."
B. Insulating connections shall be of nylon, Teflon, poly- carbonate, polyethylene or other
non-conductive materials, and shall have ratings and properties to suit the service and
loading conditions.
2.07 PIPE SUPPORTS
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A. Pipe Supports, hangers, anchors, and guides shall be in accordance with the requirements
of Section 15020 entitled "Pipe Supports."
2.08 CARBON STEEL FITTINGS
A. All carbon steel fittings shall be suitable for use with ductile iron pipe type per the following
specifications and conform toAWWA C208 Steel shall be new and shall be new and shall
meet or exceed the manufacturer and material requirements of ASTM A53, Grade B or
ASTM A139, Grade B.
B. The AWWA Specification referenced in this Section are supplemented as follows:
1. An affidavit of compliance is required from the pipe manufacturer.
2. The steel manufacturer's certification that the material meets the ASTM Specification
will be accepted in lieu of tests on specimens taken from the fabricated pipe.
C. A parts of the materials furnished shall be amply designed, manufactured and constructed
for the maximum stresses occurring during fabrication and erection. The use of backup
welding strips or rings for shop welds will not be permitted. Fitting shall be rerated for a
pressu re of 250 psi.
D. All materials shall be new and both workmanship and materials shall be of the very best
quality, entirely suitable for the service to which they will be subjected and shall conform to
all applicable sections of these Specifications. Manufacturer's designs shall accommodate
all the requirements of these Specifications,
E. The Contractor shall be responsible for the structural design of the steel pipe fittings and
shall submit certification that the pipe has been designed to resist all loads implied and
reasonable anticipated.
F. All gaskets shall be in accordance with Section 15000 entitled "Piping, General".
G. The lining shall be a fusion bonded epoxy in accordance with AWWA C213. Exterior
coating shall be in accordance with the Section entitled "Painting". Shop coatings and field
touch-ups shall be electrically inspected by the use of a holiday detector in accordance with
AWWA C209 and the Section 09850 entitled "Painting".
H. Flanges shall be flat faced AWWA C207, Class E, Table 3 slip on welding flanges. The
Contractor shall coordinate dimensions and drillings of flanges with the flanges for valves,
pumps, and ductile iron piping,
PART 3 -- EXECUTION
3.01 GENERAL
A. All material found during the progress to have defects will be rejected and the Contractor
shall promptly remove such defective materials from the site of the Work.
B. Small Steel Pi~: Buried galvanized or black steel pipe shall be coated with a primer coating
and tape wrapped. The pipe surface shall be completely covered with a primer coating in
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accordance with the manufacturer's specifications. Primer coating shall be Polyken #1 027
Pipeline Primer as manufactured by Corrosion Control Products Company. After the primer
coating has been applied, the pipe shall be wrapped with Polyken #930 series wrapping tape
as manufactured by Corrosion Control Products Company. The backing shall be low density
Polyethylene and the adhesive shall be Butyl Rubber, Synthetic Resin. Wrapping tape
thickness shall be 50 mils.
C. Drain Tra!22: Drain traps shall be installed at low points in all air and gas lines or elsewhere
where shown. Liquid outlets shall be piped to the nearest floor drain or open sump, subject
to Engineers comment and acceptance.
D. CouplinQ2: Pipe couplings shall be installed in strict accordance with the manufacturer's
printed recommendations, using the correct style coupling and gasket for any given
application.
E. Gaskets for Flanqed Joints: Gaskets shall be in accordance with the requirements of
Section 15000 entitled "Piping, General."
F. Insulatinq Connections: All insulating connections shall be installed in accordance with
manufacturer's printed instructions. Care shall be exercised to prevent damage to insulating
fittings, while making up the joints.
3.02 BEDDING MATERIAL
A. All piping bedding shall be as shown on the drawings, unless otherwise specified herein.
3.03 TRENCHING AND BACKFILL
A. Trench excavation and backfill shall conform to the requirements of Division 2 - Sitework
and as specified herein.
B. The minimum depth of cover over the top of the pipe shall be 36-inches unless otherwise
shown on the Drawings.
3.04 LAYING PIPE
A. Proper implements, tools, and facilities as recommended by the pipe manufacturer's
standard printed installation instructions shall be provided and used by the Contractor for
safe and efficient execution of the Work. All pipe, fittings, valves, and accessories shall be
carefully lowered into the trench by means of backhoe, ropes, or other suitable equipment in
such a manner as to prevent damage to pipe and fittings. Under no circumstances shall
pipe or accessories be dropped or dumped into the trench.
B. Cutting and machining of the pipe shall be accomplished in accordance with the pipe
manufacturer's standard procedures for this operation.
C. The pipe and accessories shall be inspected for defects priorto lowering into the trench. Any
defective, damaged or unsound pipe shall be repaired or replaced. All foreign matter or dirt
shall be removed from the interior of the pipe before lowering into position in the trench.
Pipe shall be kept clean during and after laying. All openings in the pipe line shall be closed
with water tight expandable type sewer plugs or PVC test plugs at the end of each day's
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-_........_--_.,,".'~._-~.- --~".--_.,-_._.,_.~,.....,,_._..,._~-".
operation or whenever the pipe openings are left unattended. The use of burlap, wood, or
other similar temporary plugs will not be permitted.
D. Adequate protection and maintenance of all underground and surface utility structures,
drains, sewers, and other obstructions encountered in the progress of the Work shall be
furnished by the Contractor at its own expense under the direction of the Engineer.
3.05 HANDLING
A. Handling of the pipe shall be done with care to insure that the pipe is not damaged in any
manner during storage, transit, loading, unloading, and installation.
B. Pipe shall be inspected both prior to and after installation in the ditch and all defective
lengths shall be rejected and immediately removed from the working area.
3.06 FIELD JOINTING
A. All pipe joints shall be made in accordance with the manufacturers written instructions.
B. The pipe shall not be deflected either vertically or horizontally in excess of the printed
recommendations of the manufacturer of the coupling.
C. When pipe laying is not in progress, the open ends of the pipe shall be closed to prevent
trench water from entering pipe. Adequate backfill shall be deposited on pipe to prevent
floating of pipe. Any pipe which has floated shall be removed from the trench, cleaned, and
re-Iaid in an acceptable manner. No pipe shall be laid when, in the opinion of the Engineer,
the trench conditions or weather are unsuitable for such Work.
3,07 PROTECTIVE COATINGS
A. Protective coating shall be as indicated in Section 15000 entitled "Piping, General" unless
otherwise specified herein.
3.08 FIELD TESTING
A. Field testing and disinfection of water mains shall conform to the requirements of Sections
02505 and 02707.
END OF SECTION
0:15010 Mill Piping - Exposed and Buried.doc:07-10-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
MILL PIPING - EXPOSED AND BURIED
SECTION 15012
STEEL PIPE
PART 1 -. GENERAL
1.01 THE REQUIREMENT
A. Steel pipe and fittings shall conform to AWWA C200 for nominal pipe sizes 6-inches and
larger. Steel pipe shall be new and shall meet or exceed the manufacturer and material
requirements of ASTM A53, Grade B or ASTM A 139, Grade B.
B. The AWWA Specifications referenced in this section are supplemented as follows:
1, An affidavit of compliance is required from the pipe manufacturer.
2. The steel manufacturer's certification that the material meets the ASTM Specification
will be accepted in lieu of tests on specimens taken from the fabricated pipe.
3. The fabricator may purchase steel plates on the chemical basis only, and shall
furnish to the Owner certified test reports.
4. Joints shall be as flanged unless otherwise indicated on the Drawings.
C. All parts of the materials furnished shall be amply designed, manufactured and constructed
for the maximum stresses occurring during fabrication and erection. All materials shall be
new and both workmanship and materials shall be of the very best quality, entirely suitable
for the service to which they will be subjected and shall conform to all applicable sections of
these Specifications. Manufacturer's designs shall accommodate all the requirements of
these Specifications.
D. The Contractor shall be responsible for the structural design of the steel pipe. The
Contractor shall submit certification that the steel pipe has been designed to resist all loads
implied and reasonably anticipated.
E. Reference Division 15 for Basic Mechanical Requirements.
PART 2 -- PRODUCTS
2.01 STAINLESS STEEL PIPE AND FITTINGS (PROCESS AIR)
A. Stainless steel piping for air piping of nominal sizes ranging from three (3) inches to sixty
(60) inches shall be manufactured from ASTM A240 annealed and pickled sheets and plates
and fabricated in accordance with ASTM A778 in Type 304L stainless steel. Only stainless
steel pipe shall be provided; tubing shall not be allowed. Stainless steel pipe, at a minimum,
shall be service rated for 250 degrees Fahrenheit at 25 psig. Stainless steel pipe shall be as
manufactured by Douglas Brothers, Felker Bros. Corp., or equal.
0:15012 Steel Pipe.doc:07-10~09
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NCWRF COMPLIANCE ASSURANCE PROJECT
STEEL PIPE
B. The following information shall be provided:
1. An affidavit of compliance is required from the pipe manufacturers.
2. The steel manufacturer's certification that the material meets the ASTM specification
will be accepted in lieu of tests on specimens taken from fabricated pipe.
3. The fabricator may purchase steel plates on the chemical basis only, and shall
furnish to the Owner certified test reports.
4. Only seamless or one (1) iongitudinal seam shall be permitted unless otherwise
required for fabrication of large diameter pipe in accordance with ASTM A774.
5. Joints in piping 3-inches in diameter or larger shall be butt welded or flanged, unless
otherwise shown on the Drawings. Joints in piping less than 3-inch diameter shall be
threaded, unless otherwise shown on the Drawings.
C. Fittings shall be fabricated from the pipe specified and shall conform to ASTM A77 4, unless
otherwise shown on the Drawings or required for proper installation.
D. Flanges where shown on the Drawings shall be a lap joint flange assembly consisting of a
304L S.S. slip-on rolled angle ring with a galvanized ductile iron follower flange conforming
to ASTM A536, and shall conform dimensionally to ANSI B16.1, Class 125. Bolts shall be
the size and length called for an in accordance with the "American Standard" and comply
with the requirements of the ANSI/AWWA Standards. The bolts for flanged joints shall be a
minimum ASTM A307; Grade B, hot-dip galvanized carbon steel in accordance with ASTM
A123 and A153, and be in accordance with ANSI A21.10, (AWWA C110) unless otherwise
specified. The bolts shall have hexagonal heads and nuts, no washers shall be used.
E. The angle leg shall not interfere with the flange bolt holes. The back-up flanges shall be
supplied with the following nominal thicknesses,
Nom. Pipe Size (in.)
Flange Thickness (in.)
2-1/2-3
4
6 - 10
12 - 16
18 - 20
24 - 30
36
42
48
54
60
1/2
9/16
5/8
3/4
7/8
1
1-1/8
1-1/4
1-3/8
1-3/8
1-1/2
F. Gaskets for water piping shall be "Ring Gasket" type, 118-inch minimum thickness, cloth
inserted rubber, red rubber or neoprene and shall be suited for the service intended. For
process air, all gaskets shall be 118-inch minimum thickness and shall be of a material
suitable for 250 degrees Fahrenheitcontinuous service at 25 psig. Dielectric gasket material
0:15012 Sleel Pipe.doc:07-1O-09
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STEEL PIPE
service rated for 225 degrees Fahrenheit continuous service at 25 psig shall be provided at
all transitions to material other than mild steel.
G. Welding practices for joints shall conform to those specified for the manufacture of the pipe
and fittings in ASTM A774 and A778, and the specifications contained herein. All welds
shall be free from burrs, snags or rough projections.
H. Welding shall be performed by AWS certified welders in conformance with standard
procedures. Piping with wall thickness up to 11 gauge (0.125 inches) shall be welded with
the TIG (GT AW) process. Heavierwalls shall be properly beveled and have a root pass with
the TIG (GTAW) process followed by subsequent passes with the TIG (GTAW), MIG
(GMAW), or Metallic Arc (SMAW) process. Filler wire of ELC grades only shall be added to
all welds to provide a cross section at the weld equal to or greater than the parent metal.
Weld deposit shall be greater than the parent metal. Weld deposit shall be smooth and
evenly distributed and have a crown of no more than 1/16 inch on the I.D. and 3/32 inch on
the O.D. of the piping or fittings. Concavity, undercut, cracks or crevices shall not be
allowed. Butt-welds shall have full penetration to the interior surface, and inert gas shielding
shall be provided to the interior and exterior of the joint. Excessive weld deposits, slag,
spatter and projections shall be removed by grinding. Angle face rings shall be continuously
welded on both sides to the pipe or fitting. Welds on gasket surfaces shall be ground
smooth.
I. After welding, all welded joints shall be treated with a pickling solution, brushed with
stainless wire brushes and rinsed clean.
J. All fittings shall be welded with 304L filler metal. All elbows through 24 inch size shall be
long radius, die formed and shall be automatically butt welded in accordance with ASTM
A774 of the same material and thickness as the pipe, using gas tungsten-arc procedures
with inert gas backing. Tees, crosses, true Y's and laterals shall be shop fabricated. All
short radius, special radius, and reducing elbows and long radius elbows greater than 24
inch shall be mitered construction with at least (5) miter sections for 90 degree bends, (3)
mitered sections for 45 and 60 degree bends, and (2) mitered sections for 30 degree and
smaller bends. All reducers shall be straight tapered, cone type. Longitudinal welds on all
fittings, except elbows, shall be accomplished by the same procedures as listed for pipe.
Weld seams shall have full penetration and be free of oxidation, crevices, pits, cracks and
protrusions. Fitting dimensions shall be in accordance with ANSI B16.9, and shall be
terminated and dimensioned as indicated on the Drawings.
K. Pipe spools shall be manually welded with 304L filler metal, using gas tungsten-arc
procedures with internal gas purge where internal weld seams are not accessible. Where
they are accessible, seams shall be welded both inside and outside, using manual shielded
metal-arc procedures. Weld seams shall have full penetration and be free of oxidation,
crevices, pits, cracks and protrusions,
L. All pipe, fittings and spools shall be completely pickled and passivated by immersion in a
nitric-hydrofluoric bath at the proper temperature and length of time to insure removal of all
free iron, weld scale and other impurities and to insure the establishment of a passive
surface. A clean water rinse shall follow the acid pickle.
M. The field testing procedure for process air piping shall use air pressure only. Hydrostatic
testing shall be utilized on all other stainless steel piping.
0:15012 Steel Pipe.doc:07-10~09
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NCWRF COMPLIANCE ASSURANCE PROJECT
STEEL PIPE
N. The inspection of all welds shall be required. This shall be a visual inspection for crevices,
pits, cracks, protrusions and oxidation deposits. Presence of any of these items found in the
weld seams shall be considered as grounds for rejection of the joint.
O. All fabricated piping shall have openings plugged and fianges secured for storage and/or
transport after fabrication. All fabricated piping shall be piece marked with identifying
numbers or codes which correspond to the Contractor's layout and installation drawings. The
marks shall be located on the spools at opposite ends and 180 degrees apart.
P. The piping supplier during manufacturing, fabrication and handling stages, and the
Contractor during handling and installation stages, shall use extreme care to avoid the
contact of any ferrous materials with the stainless steel piping. Only manufacturer
recommended saws, drills, files, wire brushes, etc. shall be used for stainless steel piping.
Pipe storage and fabrication racks shall be non-ferrous or stainless steel or rubber lined.
Nylon slings or straps shall be used for handling stainless steel piping. Contact with ferrous
items may cause rusting of iron particles embedded in the piping walls. After installation, the
Contractor shall wash and rinse all foreign matter from the piping surface. If rusting of
embedded iron occurs, the Contractor shall pickle the affected surface with Oakite
Deoxidizer SS or equal, scrub with stainless steel brushes and rinse clean.
Q. FIELD WELDING OF STAINLESS STEEL WILL NOT BE PERMITTED.
R. Pipe shall be manufactured to nominal pipe sizes as listed in ANSI B36.19, Table 2, and
shall have the followinQ minimum wall thicknesses:
Nominal Pipe Size
8-inch diameter and smaller
1O-inch and 12-inch diameters
14-inch thru 18-inch diameters
20-inch diameter
24-inch thru 36-inch diameters
42-inch and 48-inch diameters
54-inch and 60-inch diameters
Schedule/GauQe/Plate
Schedule 5S (.083 inches)
12 gauge (.109 inches)
11 gauge (.125 inches)
10 gauge (.140 inches)
3/16-inch (.187 inches)
1/4-inch (.250 inches)
5/16-inch (.312 inches)
S. All parts of the materials furnished shall be amply designed, manufactured and constructed
for the maximum stresses occurring during fabrication and erection. All materials shall be
new and both workmanship and materials shall be of the very best quality, entirely suitable
for the service to which they will be subjected and shall conform to all applicable sections of
these Specifications. Manufacturer's designs shall accommodate all the requirements of
these Specifications.
1. The Contractor shall be responsible for the structural design of the stainless steel pipe. The
Contractor shall submit certification that the stainless steel pipe has been designed to resist
all loads implied and reasonably anticipated.
U. Process air couplings may be used in lieu of fianges to join sections of piping. Couplings
shall consist of a one piece housing, gasket assembly, bolts and nuts and end rings for pipe
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NCWRF COMPLIANCE ASSURANCE PROJECT
STEEL PIPE
, restraint. Couplings shall be D-O-L Air-Master as manufactured by Brico Industries, Inc., or
equal. The housing shall be type 304L stainless steel conforming to ASTM A-240 of a
specific cross section curved to close around pipe ends that are smooth and free of defects.
The housing generally shall be one-piece but may be fumished in two or more segments to
facilitate installation on existing pipe. The housing shall be sized so thalthe I.D. fits the O.D.
of the intended pipe. The wall thickness shall be sufficient to handle the operating and test
pressures. Minimum thickness of the coupling housing to meelthe requirements of internal
design pressure shall be determined by the formula t = PD/2S. As the coupling housing
closes, it shall compress the elastomeric gasket to create the seal and the closure plates
close over the integral 304L stainless steel sealing plate to maintain the radial seal. The
integral shoulders of the coupling shall provide fuil circumferential bearing against the end
rings that are welded to the pipe ends. The gasket shall be a one-piece cross section
designed to straddle the pipe joint and seal the joint when the coupling is closed properly
over the gasket and joint. Internal pressure shall not be required to effect the seal. Gaskets
supplied shall be EPDM for air service within the temperature range of -20 to 300 degrees
Fahrenheit. Gasket material shall meet or exceed the appropriate requirements of ASTM
D2000. All nuts" bolts and washers shall be type 316L stainless steel conforming to ASTM
A-276.
2.02 PROCESS AIR PIPE SUPPORT AND EXPANSION/CONTRACTION SYSTEM
A. The process air pipe support and expansion/contraction system shall include expansion
couplings as manufactured by Depend-O-Lok; Brico Industries, Atlanta Georgia, orequal as
indicated on the Contract Drawings. As an alternate, an expansion/contraction system using
Dresser Style 38 and/or 63 couplings, or equal may be submitted as a substitute subject to
Engineer review and approval.
B. Couplings shall be designed for stainless steel piping as indicated and shall be suitable for a
pressure of 25 psig and an operating temperature range of 0 degrees Fahrenheit to 240
degrees Fahrenheit.
C. Couplings shall be boited, split-sleeve type and shall consist of 4 components; one-piece
housing, gasket assembly, bolts and nuts, and end rings as required for pipe restraint.
D. Coupling shall be manufactured from 304L stainless steel using 304 stainless steel bolts and
nuts with a minimum tensile strength of 85,000 psi.
E. End rings shall be 304L stainless steel. End rings shall be shop-welded to one end of one
pipe installed in the coupling.
F. Couplings larger than 20 inches diameter shall be Type 2 couplings; couplings 20 inches
diameter and smaller shall be Type 1 couplings per Brico Industries or equal.
2.03 LEAKAGE TESTING
A. General: Perform air test of entire duct system.
B. Ductwork Testing:
1. The installed duct systems shall be pressurized to a test pressure or vacuum of 150
percent of the allowable operating vacuum.
. 0:15012 Steel Pipe-.doc-:07-10-09
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
STEEL PIPE
"_'."._-~'~--.__.-,~.' -
_~.q__" _,n._."_'__'
-- .._"'...._--"~_.._"..,._--- ._"._~.._- ~_._--- ."'..-.-,--.-,..--. ---
2. All joints shall be soap tested for air leakage at the test pressure. All leaks shall be
repaired in accordance with supplier recommendations subject to Engineer's
acceptance before system start-up.
3. Testing must be in accordance with a procedure submitted by the Contractor to the
Engineer for approval. Testing must be witnessed by the Engineer.
END OF SECTION
0:15012 Steel Pipe.doc:07-1 0-09
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
STEEL PIPE
SECTION 15020
PIPE SUPPORTS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall provide all tools, supplies, materials, equipment, and all labor
necessary for the furnishing, construction, and installation of all pipe supports, hangers,
guides, and anchors shown, specified, or required for a complete and operable piping
system, in accordance with the requirements of the Contract Documents.
1.02 REFERENCE SPECIFICATIONS, CODES, AND STANDARDS
A. Commercial Standards:
ANSI! ASME B31.1
Power Piping.
ASTM A 123
Specifications for Zinc (Hot-Galvanized) Coatings on
Products Faoricated from Rolled, Pressed, and Forged
Steel Shapes, Plates, Bars, and Strip.
1.03 CONTRACTOR SUBMITTALS
A. Shop Drawin~~ The Contractor shall furnish complete shop drawings of all pipe supports,
hangers, anchors, and guides, as well as calculations for special supports and anchors, in
accordance with Section 01330 Submittals. Calculations shall be signed and sealed by a
registered Florida Professional Engineer.
PART 2 - PRODUCTS
2.01 GENERAL REQUIREMENTS
A. Code Compliance: All piping systems and pipe connections to equipment shall be properly
supported, to prevent undue deflection, vibration, and stresses on piping, equipment, and
structures. All supports and parts thereof shall conform to the requirements of ANSIIASME
B31.1, except as suppiemented or modified by these Specifications. Supports for plumbing
piping shall be in accordance with the latest edition of the applicable plumbing code, or local
administration requirements.
B. Structural Members: Wherever possible, pipes shall be attached to structural members.
Where it is necessary to frame structural members between existing members, such
supplementary members shall be provided by the Contractor at no additional cost to the
Owner. All supplementary members shall be in accordance with the requirements of the
building code and the American Institute of Steel Construction.
0:15020 Pipe Supports.doc:07-1 0-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
PIPE SUPPORTS
C. .fumport Spacinq~ Supports for piping with the longitudinal axis in approximately a horizontal
position shall be spaced to prevent excessive sag, bending and shear stresses in the piping,
with special consideration given where components, such as flanges and valves, impose
concentrated loads. Spacing of supports shall be as specified herein and/or indicated on the
Drawings.
D. !:ipe Hanqers: Pipe hangers shall be capable of supporting the pipe in all conditions of
operation. They shall allow for free expansion and contraction of the piping, and shall
prevent excessive stress on equipment. All hangers shall have a means of vertical
adjustment after erection. Hangers shall be designed so that they cannot become
disengaged by any movement of the supported pipe. Hangers subject to shock, or thrust
imposed by the actuation of safety valves, shall include hydraulic shock suppressors. All
hanger rods shall be subject to tensile loading, only.
E. Hanqers Subject to Horizontal Movements: At hanger locations where lateral or axial
movement is anticipated, suitable linkage shall be provided to permit such movement.
Where horizontal pipe movement is greater than 1/2-inch, orwherethe hanger rod deflection
from the vertical is greater than 4 degrees from the cold to the hot position of the pipe, the
hanger rod and structural attachment shall be offset in such a manner that the rod is vertical
in the hot position.
F. ~pring-Type Hanqers: Spring-type pipe hangers shall be provided for piping subject to
vibration or vertical expansion and contraction, such as engine exhausts and similar piping.
All spring-type hangers shall be sized to the manufacturer's printed recommendations and
the loading conditions encountered. Variable spring supports shall be provided with means
to limit misalignment, buckling, eccentric loading, orto prevent overstressing of the spring,
and with means to indicate at all times the compression of the spring. The support shall be
designed for a maximum variation in supporting effort of 25 percent for the total travel
resulting from thermal movement.
G. Thermal Expansion: Wherever expansion and contraction of piping is expected, a sufficient
number of expansion loops or joints shall be provided, together with the necessary rolling or
sliding supports, anchors, guides, pivots, and restraints. They shall permit the piping to
expand and contract freely in directions away from the anchored points and shall be
structurally suitable to withstand all loads imposed.
H. Heat Transmission: Supports, hangers, anchors, and guides shall be so designed and
insulated, that excessive heat will not be transmitted to the structure or to other equipment
I. Riser SUIWortS: Where practical, risers shall be supported on each floor with riser clamps
and lugs, independent of the connected horizontal piping.
J, Freestandinq..Eipinq;, Freestanding pipe connections to equipment, like chemical feeders,
pumps, etc., shall be firmly attached to fabricated steel frames made of angles, channels, or
I-beams anchored to the structure. Exterior, freestanding overhead piping shall be
supported on fabricated pipe stands, consisting of pipe columns anchored to concrete
footings, with horizontal, welded steel angles and U-bolts or clamps. securing the pipes.
K. fjpe SUIWOrtS: All piping shall be supported with hangers, brackets, clips, or fabricated
supports and anchors of Type 316 stainless steel, unless otherwise shown.
0:15020 Pipe Supports.doc:07-1 0-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
PIPE SUPPORTS
L. Point Loads: Any meters, valves, heavy equipment, and other point loads on PVC, fiber
glass, and other plastic pipes, shall be supported on both sides, according to manufacturer's
recommendations to avoid undue pipe stresses and failures. To avoid point loads, all
supports on plastic and fiber glass piping shall be equipped with extra wide pipe saddles or
galvanized steel shields.
M. Noise Reduction: To reduce transmission of noise in piping systems, all copper tubes in
buildings and structures shall be wrapped with a 2-inch wide strip of rubber fabric or similar,
suitable material, at each pipe support, bracket, clip, or hanger.
2.02 MANUFACTURED SUPPORTS
A. Stock Parts: Where not specifically shown or detailed, designs, generally accepted as
exemplifying good engineering practice, using stock or production parts, shall be utilized
wherever possible. Such parts shall be locally available, new, of best commercial quality,
designed and rated for the intended purpose. See Article 2.04 of this Section for pipe
support materials in chemical containment areas.
B. fumpliers, or equal:
1. Basic Engineers, Pittsburgh, PA;
2. Bergen-Paterson Corp., Boston, MA;
3. Elcen Metal Products Company, Franklin Park, IL;
4. ITT-Grinnell Corp., Warren, OH;
5. NPS Industries, Inc, Secaucus, NJ.
2.03 COATING
A. Galvanizin~ Unless otherwise shown or specified, all fabricated pipe supports, other than
stainiess steel or non-ferrous supports, shall be blast-cleaned after fabrication and hot-dip
galvanized in accordance with ASTM A 123.
B. Other CoatinQ~ Other than the supports mentioned in Paragraph 2.03A, all supports shall
receive protective coatings in accordance with the requirements of Section 09850 entitled
"Painting."
2.04 PIPE SUPPORTS IN CHEMICAL AREAS
A. Pipe supports in chemical areas shall be wall or slab mounted 1 5/8 X 1 5/8 AIKINSTRUT
(or equal) heavy duty FRP channels with stainless steel Type 316 straps, and lock nuts.
Supports shall be attached to walls and slabs by 318-inch diameter, 6-inch long Type 316
stainless steel anchor bolts with lock nuts. Bolt support spacing shall be maximum 12-inch
O.C.
B. Support spacing shall comply with requirements noted in Table 15020-1.
0:15020 Pipe Supports.doc:07-10-09
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PIPE SUPPORTS
2.05 NON:... METALLIC SUPPORT SYSTEM
A. Non-metallic supports shall be a heavy duty channel framing system. Channel frames shall
be manufactured by the pultrusion process using corrosion grade polyester or vinylester
.
resins.
B. All fiberglass construction shall include suitable ultraviolet inhibitors for exterior UV exposure
and shall have a flame spread rating of 25 or less per ASTM E84.
C. Piping accessories, pipe clamps, clevis hangers, support posts, support racks, fasteners, etc.,
shall be constructed of vinyl ester or polyurethane resin.
D. Non-metallic support systems shall be standard make Aickinstrut by Aickinstrut, Inc., Unistrut
Fiberglass by Unistrut, Inc., Enduro Fiberglass Systems, or equal.
E. Unless otherwise shown or specified the Contractor shall provide support spacings in the
conformance with the pipe and support system manufacturer's requirements.
F. The Contractor shall submit data on the support types and sizes for approval.
PART 3 - EXECUTION
3.01 INSTALLATION
A. General: All pipe supports, hangers, brackets, anchors, guides, and inserts shall be
fabricated and installed in accordance with the manufacturer's printed instructions and
ANSI/ASME B31.1. All concrete inserts for pipe hangers and supports shall be coordinated
with the formwork.
B. 8mJearance: Pipe supports and hangers shall be positioned in such a way as to produce an
orderly, neat piping system. All hanger rods shall be vertical, without offsets. Hangers shall
be adjusted to line up groups of pipes at the proper grade for drainage and venting, as close
to ceilings or roofs as possible, without interference with other Work.
C. E.jpe SU(;lport Spacinq~ The distance between supports for each size of pipe shall not
exceed those listed in the attached schedule. However, if the pipe size to be supported is
not listed in the schedule, the next smaller nominal pipe size spacing shall be used. In all
cases, there shall be a minimum of one support per laying length of pipe on uninterrupted
horizontal runs. This support shall be placed within one foot of the joint. If the pipe
manufacturer recommends a smaller spacing interval than specified herein, then the
manufacturer's spacing shall be used.
D. The distance between supports shall not exceed that listed in the following schedule unless
otherwise noted:
0:15020 Pipe Supports.doc:07-10-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
PIPE SUPPORTS
Nominal Pipe Size
(inch)
y,
Metallic Piping
(feet)
5
6
3/4 to 1-1/2
2 to 3
4
6 and larger
6
10
10
3
4
5
5
3.02 FABRICATION
A. Quality Control: Pipe hangers and supports shall be fabricated and installed by experienced
welders and fitters, using the best welding procedures available. Fabricated supports shall
be neat in appearance without sharp corners, burrs, and edges.
3.03 PAINTING
A. Supports shall be field painted as specified in Section 09850 entitled "Painting".
END OF SECTION
0:15020 Pipe Supports.doc:07-1 0-09
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PIPE SUPPORTS
-----~-,~--~.__.
----,-,~--
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_._.~_._,--_.,,'
n, n__...~_,_^'__
SECTION 15030
PIPING AND EQUIPMENT IDENTIFICATION SYSTEMS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish and install all components of the system for identification of
piping and equipment as specified hereinafter. The system shall include the application of
color coding to all new and altered plant piping. The Contractor shall paint the equipment
and piping of all Contracts in the colors herein specified, and in accordance with the
requirements of Section 09850 entitled "Painting".
B. In addition to the identification systems specified herein the Engineer may order the
Contractor to furnish and install additional identification legends and arrows at no additional
costto the Owner. Such additional signs may be requested near completion ofthe work and
shall be limited to no more than five (5) signs for each type specified herein. The lettering
and color combinations for additional signs shall conform to the requirements specified
herein.
1.02 SUBMITTALS
A. The Contractor shall submit shop drawings and manufacturer's product literature in
accordance with this Section and Sections 01330 and 01600 entitled "Submittals" and
"Materials and Equipment", respectively. In addition, the Contractor shall submit with the
shop drawings a schedule of the colors and designations proposed for each service. A
minimum of four (4) color charts with cross-references to the colors and services listed
herein shall be included with the Submittal. The Owner shall select the final color for each
service during shop drawing review.
PART 2 - PRODUCTS
2,01 PIPING BANDS AND STRIPES
A. All new and altered piping shall receive identification bands, Such bands shall be 6-inches
wide, neatly made by masking, and spaced at intervals of 30 inches on centers regardless of
the diameter of the pipe being painted. The Contractor may use approved precut and
prefinished metal bands on piping, in lieu ofthe masked and painted bands, where approved
by the Engineer. Banding coiors shall be as indicated in Article 2.03.
B. Buried potable water piping shall be identified by continuous blue stripes in accordance with
FDEP 62-555.
2.02 PIPING IDENTIFICATION LETTERING AND ARROWS
A. The Contractor shall apply identification lettering in the form of plain upper-case block
lettering giving the name of the pipe contents and arrows indicating the direction of flow of
liquids to all types and sections of piping.
0:4101 o-023S15030,doc07-1 0-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
PIPING AND EQUIPMENT ID SYSTEMS
B. All lettering and arrows shall be of the vinyl, self-adhesive tape type or the plastic snap-
on/strap-on type with self gripping fasteners. Pipe-marking devices (i.e., tape or snap-
on/strap-on type) shall be suitable for a 5 to 8 year outdoor life without discoloration. Pipe
marking devices shall be as manufactured by Lab Safety Supply, or equal.
C. Identification lettering and arrows shall be placed as directed by the Engineer, but shall
generally be located every ten (10) feet and shall be properly inclined to the pipe axis to
facilitate easy reading.' Lettering shall also appear directly adjacent to each side of any wall
or slab the pipeline passes through, with a minimum of two (2) titles on each pipe in one (1)
structure. Identification lettering shall be located midway between color coding bands where
possible.
D. Lettering, background and arrow colors shall be the manufacturer's standard colors unless
otherwise directed by the Engineer.
E. All lettering and arrows shall have an overall height in inches in accordance with Table
15030-1.
Table 15030-1
Height of Pipe Lettering
Diameter of Pipe or Pipe Covering
3/4 to 1-1/4 inches
1-1/2 to 2 inches
2-1/2 to 6 inches
8 to 10 inches
Over 10 inches
Height of Lettering
1/2 inch
3/4 inches
1-1/4 inches
2-1/2 inches
3-1/2 inches
F. The manufacturer's instructions shall be followed in respect to storage, surface preparation
and application.
G. For piping less than 3/4-inch diameter, the Contractor shall furnish and attach corrosion
resistant color tags with the required lettering.
H. Pipe lettering shall for each service type shall be as indicated in Article 2.03.
END OF SECTION
0:4101 o-023S1503o,doc07 -10-09
January 2010
15030-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PIPING AND EQUIPMENT ID SYSTEMS
SECTION 15110
VALVES AND ACCESSORIES
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for furnishing and instailing valves, valve operators and accessories as
specified in this Section and shown on the Drawings.
1.02 REFERENCES
A. ANSI Standards
1. ANSI B16.1 Cast Iron Pipe Flanges and Flanged Fittings, Class 125
2. ANSI B16.3 Malleable Iron Threaded Fitting, Class 125 and 300
3. ANSI B16,5 Pipe Flanges and Flanged Fittings, Steel Nickel Alloy and Other
Special Alloys
B. ANSI/AWWA Standards
1. ANSI/AWWA C111/A21.1 Rubber-Gasket Joints for Ductile-Iron and Gray-
Iron Pressure Pipe and Fittings
2. ANSI/AWWA C500 Gate Valves
3. ANSI/AWWA C504 Rubber Seated Butterfly Valves
4. ANSIIAWWA C508 Swing Check Valves for Waterworks Service, 2 In. (50
mm) Through 24 In. (600 mm) NPS.
5. ANSI/AWWA C509 Resilient-Seated Gate Valves 3 through 12 Inch NPS,
for Water and Sewage Systems
C. ASTM Standards
1. ASTM A 126 Specification for Gray Iron Castings for Valves, Flanges and
Pipe Fittings
2. ASTM A276 Specification for Stainless Steel and Heat-Resisting Steel Bars
and Shapes
3. ASTM A351 Specification for Steel Castings, Austenitic, for High-
Temperature Services
4. ASTM A743 Specifications for Castings, Iron-Chromium, lron-Chromium-
Nickel and Nickel-Base Corrosion Resistant for General Applications
D. MSS Standards
E. ANSI/NSF Standards
ANSI/NSF 61 Drinking Water System Components-Health Effects
15110-1
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
January 2010
F. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 DEFINITIONS
A. Exposed Valves: Valves that are not buried. Exposed valves include valves
outdoors aboveground, valves in buildings, valves on the interior of tanks,
valves in the interior of vaults and valves in the interior of pits.
B. Size: References to valve sizes on the Drawings and in the Specifications are
intended to be nominal size, and shall be interpreted as nominal size.
1.04 SUBMITTALS
A. General: As specified in Section 01600 - Material and Equipment and Section
01330 - Submittals
B. Manuals as specified in Section 01830 - Operation and Maintenance Data
1.05 WARRANTIES
A. General: As specified in Section 01600 - Material and Equipment and Section
01780 - Warranties and Bonds
B. The Contractor shall warranty all valves, valve operators and appurtenances to
be free from defects in material and workmanship for a minimum period of one
year as noted in the Contract requirements, and furnish and install any such
items found to be defective within the warranty period.
PART 2 - PRODUCTS
2.01 GENERAL
A. Provide valves suitable to the intended service as defined in Division 15 -
Mechanical and to meet the standards of the Owner.
B. Provide valves with joints suitable to connect to adjoining piping.
C. Exposed Valves
1. Exposed valves shall be provided with valve operators, levers, handwheels,
chainwheels and chains, extension stems, bonnet extensions, floor stands,
and other accessories as shown or specified.
2. If distance from operating floor or platform to valve operating wheel is less
than six feet, valve or valve operator shall be furnished with a handwheel. If
the distance from the operating floor or platform to valve operating wheel is
60 inches or more, the valve or valve operator shall be furnished with a
chainwheel and chain. Chains shall terminate four feet above operating
floor or platform.
3. Effort required to operate valve lever shall not exceed 40 pounds applied at
the extreme grip position of the lever. Effort required to operate valve
handwheel shall not exceed 40 pounds applied at the extremity of the
handwheel. Effort required to operate valve chainwheel shall not exceed 40
pounds applied to the chain.
January 2010
15110-2
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
4. Handwheels on valves 14" and smaller shall not be less than 8" in diameter.
Handwheels on valves larger than 14" shall not be less than 12" in
diameter.
5. Operators shall have open direction clearly and permanently marked.
Operators for shut-off valves shali have position indicators.
6. Exposed valves shall have integrally cast flanged joints that meet the
dimension requirements of ANSI B16.1.
D. Buried Valves
1, Buried valves shall be provided with operators, valve boxes, bonnet
extensions, floor stands, and other accessories as shown or specified.
2. Buried valves with valve boxes shall be provide with extension stems.
3. Buried shut-off valves shall have position indicators. Buried valves with
exposed operators shall have position indicator on vaive operators. Buried
valves with valve boxes shall have position indicator on extension stem
beneath valve box lid.
4. Buried valves with motor actuators shall have an extended bonnet to locate
the actuator above ground and a First-Fail shear pin located above ground
in an easily accessible location. Refer to details on the Contract Drawings.
5. Buried valves shall have mechanical joints that meet the requirements of
ANSI/AWWA C111/A21.1 and these specfications.
E. Operators, General
1. Unless otherwise shown or specified, valves 6" and smaller shall have lever
operators. Valves 8" and larger shall have gear-assisted operators.
2. The valve manufacturer shall also provide valve operators. Valve operators
shall be installed, adjusted, and tested by the valve manufacturer at the
valve manufacturer's plant.
3. Operators, unless otherwise specified, shall turn counter-clockwise to open.
2.02 CHAINWHEEL OPERATORS
A. Chainwheel operator shall be fabricated of cast iron with epoxy coated pocketed
type chainwheels with chain guards and guides.
B. Operators shall have Type 316 stainless steel smooth welded link type chain.
Chain that is crimped or has links with exposed ends shall not be acceptable.
C. Chainwheel operators shall be marked with an arrow and the word OPEN
indicating direction to open.
2.03 VALVE BOXES
A. Valve boxes shall be adjustable telescope type, adjustable to grade. Valve
boxes shall be asphalt varnished cast iron, or enameled cast iron, suitable to
withstand heavy traffic. Bases shall be the round type.
January 2010
15110-3
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
B. Valve box covers shall be marked either "WATER", "REUSE" or "SEWER",
depending on service.
C. Valve boxes shall be Model No. F-2452, as manufactured by James B. Clow &
Sons, Mueller or equal.
2.04 VALVE LABELING
A. Label all exposed valves exclusive of hose bibs and chlorine cylinder valves.
B. Labels shall be square or rectangular, 2" across the flats, minimum and shall be
permanently attached to the valve or on a wall adjacent to the valve.
C. Labels for exterior valves shall be 1/16" stainless steel. Labels for interior valves
shall be 1/16" stainless steel or plastic. Text as provided by the Engineer shall
be permanently engraved on the label.
D. Label all underground valves as shown in the Drawings.
2.05 LIMIT SWITCHES
Provide limit switches on valves where limit switches are indicated on the
Instrumentation Drawings.
2.06 BALL VALVES
A. Manufacturers
1. Polyvinyl Chloride (PVC and CPVC) true union ball valves shall be
manufactured by AsahilAmerica, Spears or Heyward.
2. Stainless steel ball valves shall be manufactured by Contromatics,
Jamesbury Corporation, Jenkins Bros., Lunkenheimer Flow Control, WM
Powel Company or Worchester Controls.
B. PVC or CPVC Ball Valves
1. PVC and CPVC ball valves shall be double union type or flanged with a
working pressure of 150 psi, with lever operators.
2. The valve bodies, end pieces, balls and stems shall be constructed of Type
1, Grade 1, PVC or CPVC. The seats shall be constructed of teflon and the
seals constructed of Viton. The seals for CPVC ball valves in sodium
hydroxide application shall be EPDM. The handles shall be PVC.
3. The ends shall be NPT for sizes up to 2-inch and flanged for sizes over 2-
inch.
4. Ball valves for sodium hypochlorite service shall be vented type suitable for
the service.
C. Stainless Steel Ball Valves
January 2010
15110-4
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
.
,1. Stainless steel ball valves shall be C,lass 600, three-piece type, with lever
operators unless noted otherwise.
2. The valve bodies, end pieces, balls and stems shall be constructed of AISI
316 stainless steel. The seats shall be constructed of teflon and the seals
constructed of reinforced teflon.
3. The valves shall have flanged ends, rated 150 psi, for sizes 2 inch and
larger and NPT ends for sizes smaller than 2 inches.
2.07 BUTTERFLY VALVES FOR WATER AND REUSE WATER SERVICE
A. Manufacturers
Manufacturers of butterfly valves shall be DeZurik, Mueller or Pratt.
B, Valve Standard
1. Butterfly valves and operators up to 72" for water service shall conform to
AWWA C504.
2. Valves shall have ductile iron body with stainless steel shaft and disc with
EPDM seat.
.
3. Valves shall have a minimum pressure rating of 150 psi.
4. Valves shall be flanged.
2.08 BUTTERFLY VALVES FOR AIR SERVICE
A. Manufacturers
Manufacturers shall be DeZurick, Mueller or Pratt.
B. Valve Description
1. Valves shall be DeZurik, model BGS with lug ends for ANSI Class 125/150
flange connections,
2. Valves shall have ductile iron body with stainless steel shaft and disc with
EPDM seat.
3. Valves shall have either 10-position lever or infinite position lever as required
by the Engineer. Memory stops shall be included with either lever.
2.09 GATE VALVES
A. Manufacturers
1. Manufacturers of iron, gate valves shall be Kennedy, Mueller, US Pipe or
equal US manufacturer.
B. Valve Standards
15110-5
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
January 2010
1. Exposed iron, gate valves 3" through 48" and buried iron gate valves 18"
through 48" shall meet the requirements of ANSIIAWWA C500.
2. Buried iron gate valves 4" through 16" shall meet the requirements of
ANSI/AWWA C509
C. Description
1. All valves 16" and larger in size shall have bevel gear operator.
2. Buried iron, gate valves 18" through 48" shall have non-rising stems and
bypass valves. Horizontally mounted valves shall be provided with rollers
and tracks.
3. Buried iron gate valves 4" through 16" shall have resilient seats and non-
rising stems.
4. Exposed iron gate valves 18" through 48" shall have outside screws and
yokes and bypass valves. Horizontally mounted valves shall be provided
with rollers and tracks.
5. Exposed iron gate valves 3"through 16" shall have outside screws and
yokes.
D. Materials
1. Buried and exposed iron gate valves shall have cast iron valve bodies and
gates.
2. Buried and exposed iron gate valves shall have 316 stainless steel boits and
nuts.
3. Exposed iron gate valves shall have malleable iron hand wheels.
2.10 GLOBE VALVES, IRON (3" through 10")
E. Manufactures of globe valves 3" through 10" shall be Stockham or equal US
manufacturer.
F. Description
1. Iron globe valves shall be bolted bonnet, rising stem OS&Y type with
renewable seat and metal disc.
2. The valve shall have a working pressure rating of 150 psig and a static test
pressure rating of 300 psig.
3. The valve shall have a stuffing box between the valve body and the stem.
The stuffing box assembly shall include valve packing, backseat bushing,
packing gland and packing gland flange and fasteners.
4. The valve disc shall mate with the valve seat and have machined smoothed
surfaces to provide a drip-tight seal. The valve disc or valve seat shall have
no edges or other irregularities that cause seal wear or damage.
2.11 PLUG VALVES
January 2010
15110,6
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
A.' Manufacturers
1. Manufacturers of plug valves shall be DeZurik or Millikan.
B. Description
1. Plug valves shall be non-lubricated eccentric plug valves with resilient faced
plugs and bolted bonnet. Valves shall have a minimum pressure rating of
150 psi and be drip tight at full valve rating.
2. The port areas all valves shall be 100% of the full pipe area.
3. The valve plug shall be of a one-piece construction and self-supporting.
Plugs requiring strengthening members opposite the plug face will not be
accepted.
4. The valve stem shall be integral with the plug. The vaive stem bearings
shall be of the replaceable, sleeve type and located at each end of the plug.
5. The valve shaft seal shall be multiple ring type with V-shaped packing. The
seals shall be adjustable and replaceabie while the valve is in service.
C. Materials
1 .
The valve body and plug shall be made of cast iron that meets the casting
standards of ASTM A 126, Class B. The resilient facing for the plug shall be
neoprene.
The valve stem bearings shall be made of stainless steel, or corrosive
resisting phenolic backed or fiberglass backed woven Teflon fiber.
The valve shaft seals shall be made of buna-N rubber.
2.
3.
4.
The valve shaft overlay shall be a welded in overlay of 90% nickel content or
stainless steel on surfaces contacting the plug face, Coated non-metallic
materials will not be accepted.
5. Exposed parts such as nuts, bolts, washers and springs shall be 316
stainless steel.
2.12 CHECK VALVES FOR AIR SERVICE, SWING, DUAL DOORS
A. Manufacturers
1. Manufacturers for swing, dual door, check valves shall be APCO or Techno
Corporation,
B. Description
1, Valves shall be wafer or lug style, suitable for use in a horizontal or vertical
position.
2. Each valve shall have two spring-loaded, resilient seated doors hinged on a
shaft through the center of the valve. The doors shall be opened by the
velocity flow and closed by one or more torsion springs the shut the doors
before flow reversal occurs.
15110-7
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
January 2010
3. Valves shall have a minimum pressure rating of 150 pSI and minimum
temperature rating of 2500F.
C. Joints
1. Valves shall fit between two 125 pound or 150 pound ANSI flanges.
D. Materials
1. The valve body, dual doors, hinge pin, stop pin, and torsion springs material
shall be AISI 316 stainless steel.
2. Valve seat material shall be EPDM.
2.13 CHECK VALVES FOR WATER SERVICE, SWING, SINGLE DISC
A. Manufacturers
Manufacturers of iron single disc swing check valves shall be Mueller or equal
US manufacturer.
B. Description
1. Valves shall be the single disc sWing check type suitable for use in a
horizontal position.
2. Valves shall have outside weight and lever, unless otherwise shown on the
Drawings.
3. Valves shall have a pressure rating of 300 pound test.
4. Valves shall have limit switch or proximity switch as shown on the
electricallinstrumentation Drawings.
C. Joints
Valves shall have integrally cast flange joints that meet the dimensions
requirements of ANSI B16.1.
D. Materials
1. The valve body shall be cast iron or ductile iron.
2. Valve accessories shall be bronze.
2.14 CHECK VALVES FOR FILTER EFFLUENT AND REUSE WATER SERVICE,
SLANTING DISC
A. Manufacturers
1. Manufacturers of slanting disk check valves shall be APCO or Val-Matic with
hydraulic buffer system for automatic controlled closing of the valve.
B. Description
1. Valves shall be the single disc, slanting or tilted check type suitable for use
in a horizontal position
January 2010
15110-8
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
, 2. Each slanting disc check valve shall have a disc, attached to a one-piece
shaft that resuits in an offset pivot. When the check valve is open the disc
shall pivot around the shaft.
3. The minimum flow area shall be 100% of the cross-section area of the
specified pipe size.
4. The valve shall have a minimum, non-shock working pressure of 150 psi.
5. Valves shall have limit switch or proximity switch as shown on the
electricallinstrumentation Drawings.
C. Materials
1. The valve body shall be made of cast iron that meets the requirements of
ASTM A 126, Class B.
2. The disc shall be made of cast iron that meets the requirements of ASTM
A126, Class B or bronze.
3. The disc ring and seat ring shall be bronze that meets the requirements of
ASTM B271.
4. The pivot pins and pin bushings shall be bronze or stainless steel.
2.15 CHECK VALVES FOR GRIT, SCUM, MIXED LIQUOR, WASTEWATER AND
SLUDGE SERVICE, SWING RUBBER FLAPPER
A. Manufacturers
1. Manufacturers of rubber flapper swing check valves shall be APCO or Val-
Matic.
B. Description
1. Each rubber flapper swing check valve shall have a flapper, attached to a
one-piece shaft, which swings out the flow path when fully open. When the
check valve is open the flapper shall be captured between the valve body
and valve cover.
2. The valve seating surface shall be at a 450 angle.
3. The minimum flow area shall be 100% of the cross-section area of the
specified pipe size.
4. The valve shall have a minimum, non-shock working pressure of 150 psi.
5. The rubber flapper shall be replaceable through the top of the valve by
removing the valve cover.
6. Valves shall have limit switch or proximity switch as shown on the
electrical/instrumentation Drawings.
C. Joints
15110-9
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
January 2010-
1. Valves shall have integrally cast flanged joints that meet the requirements of
ANSI B16.1.
D. Materials
1. The valve body shall be made of cast iron that meets the requirements of
AST A126, Class B.
2. The flapper shall be Buna-N reinforced with steel. The flapper seal shall be
O-ring type.
2.16 CHECK VALVES, SWING, SINGLE-DISC, STAINLESS STEEL
A. Manufacturers
1. Manufacturers for stainless steel, swing check valves shall be WM Powell
Company or equal US manufacturer
B. Description
1. Stainless steel swing check valves 3" through 8" shall have a single disc that
swings out the flow path when fully open. The disc shall be suspended from
the valve cap.
2. Stainless steel swing check valves 2" and smaller shall have a single disc
that swings out of the flow path when fully open. The disc shall be attached
to a one-piece shaft that extends through the valve body.
3. The minimum pressure rating of 3" through 8" valves shall be 150 psi. The
minimum pressure rating for valves 2" and smaller shall be 200 psi.
C. Joints
1. Valves 3" through 8" shall have integrally cast flange joints that meet the
dimension requirements of ANSI B16.1
2. Valves 2" and smaller shall have NPT joints.
D. Materials
1. For valves 3" through 8" the valve bodies, caps and discs shall be made of
AISI Type 316 stainless steel that meets the requirements of ASTM A351,
Grade CF8M.
2. For valves 2" and smaller the valve bodies shall be made of AISI Type 316
stainless steel that meets the requirements of ASTM A743, Grade CF3M.
The valve caps and discs shall be made of AISI Type 316 stainless steel
that meets the requirements of ASTM A743, Grade CFBM.
2.17 DIAPHRAGM VALVES FOR SODIUM HYPOCHLORITE SERVICE
A. Manufacturer shall be Asahi/America, or equal.
15110-10
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
January 2010
B. Description
5. Valves shall be used for sodium hypochlorite service as shown on the
Drawings. Valves shall be molded CPVC.
6. Valves shall be Type 15 as manufactured by AsahilAmerica
C. Joints
Valve shall have molded flanged ends conforming to ANSI B16.1.
D. Materials
The valve body shall be CPVC, and the diaphragm shall be PTFE with a PVDF
gas barrier.
2.18 HOSE BIBB SIGNAGE
A. Provide 3/16 inch aluminum identification plate at all hose bibs with reuse water.
Plate shall be approximately 6 inches by 8 inches and have permanent lettering
identifying "Non-Potable - Do Not Drink".
B. Secure sign to hose bibb post or adjacent handrail with stainless steel fasteners.
PART 3 - EXECUTION
3.01 INSTALLATION
A. Verify operator orientation with Enqineer prior to valve installation.
B. Install valves, operators, extension stems, valve boxes, and other accessories in
accordance with the manufacturer's written instructions and as shown and
specified. Support valves so that there are no undue stresses on pipe.
C. Install valves with easy access for operation, removal, and maintenance. Install
valves so that there are no conflicts between valve operators and structural
members or handrails.
D. Install valves, sensors, switches, and controls so that all systems are compatible
and operate properly.
E. Install valve boxes perpendicular, centered around and covering the upper
portions of the valve or valve operator, or the pipe. The top of each valve box
shall be flush with finish grade unless otherwise indicated on the Drawings.
3.02 TESTING
A. While testing the appurtenant pipeline and system of which the valve is a part,
operate the valve or test the valve function to ensure proper operation.
B. Operate each valve through the range of operation without fluid flow.
January 2010
15110-11
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
3.03 MANUFACTURERS' REPRESENTATIVE
A. General: As specified in Section 01600 - Materials and Equipment
B. Provide services of valve manufacturer's representative as required to obtain
correct installation of valves and accessories.
END OF SECTION
January 2010
15110-12
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVES AND ACCESORIES
.--"._~-"--'._- ~ '^-..-.---."'.--.--
SECTION 15114
MISCELLANEOUS VALVES AND APPURTENANCES
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish and install miscellaneous valves as shown and as specified
herein, complete and operable including accessories and, where designated, operators, all
in accordance with the requirements of the Contract Documents.
1.02 SUBMITTALS
A. General: As specified in Section 01600 - Material and Equipment and Section 01330 -
Submittals.
B. Manuals as specified in Section 01830 - Operation and Maintenance Data.
PART 2 - PRODUCTS
2.01 FLOW CONTROL VALVE TO POND 4
A. The valve shall be a Model 24" 131 EG-BW BCNSYKCKO D,S. X117D as manufactured by
Cia-Val Co. Newport Beach, CA. or approved equal.
B. The flow control valve will be installed to electronically open and close slowly to control the
flow to a desired rate, as positioned by the 131VC-1 controller. This will be accomplished
through a set of solenoids in the pilot system. It will have one normally closed solenoid
energized to open feeding the cover and another normally open solenoid eXhausting the
cover. The solenoids will be controlled by use of the manufacturer's 131VC-1 controller. The
131VC-1 controller will accept a flow signal/process variable from the upstream flow meter
through the SCADA system. It will compare this flow signal with the operator supplied set
point and position the valve to the desired rate. The pilot control system will have a CRA pilot
in series to maintain a constant back pressure to keep the inlet from dropping too low. The
24" vavle will be designed to handle the 500 gpm flow from one reuse pump up to all six
reuse pumps for a total maximum flow of 18,000 gpm, at the given pressure differential.
C. The main valve will be diaphragm actuated and consist of three components; the body,
cover and diaphragm assembly. It will be ductile iron and have Type 316 stainless steel anti-
cavitation trim. The trim will consist of a stationary seat with radial slots to break the pressure
as it enters the valve. The other component is the disc guide. It has angular radial slots to
break the pressure as it exits the valve seat area. The solenoids, tubing and fittings will also
be of stainless steel. The cover will have a locating lip for ease of maintenance. There shall
be no pinned covers for alignment. Ail ferrous metal surfaces will have an NSF approved
fusion bonded epoxy coating. The diaphragm assembly shall be fully guided by a bearing in
the seat and a bearing in the valve cover. The main valve will have a single diaphragm,
which separates line pressure from the operating chamber in the cover. The valve ends shall
have 150 Ib flanges.
0:15114 Miscellaneous Valves and Appurtenances.doc:07-10-0915114-1
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
MISC. VALVES & APPURTENANCES
D. The pilot system will consist of two solenoids, one for opening and one for closing. They will
be actuated by the manufacturer's 131 VC-1 electronic controller. The 131 VC-1 controller is
120vac and will be set to slowly open and close to position the main valve. It will accept
either a remote 4-20ma signal or a digital dry contact closure to open or close the valve from
the SCADA system. It will compare this set point signal to the flow rate, as indicated by the
meter and open or close the main valve until the set point equals the flow readout. The valve
position signal will be monitored by a X117D valve position indicator. In the case of a power
outage, the valve closing soienoid will open and the opening solenoid will close. This will
cause the 24" valve to go to the closed position. During normal operation the CRA pilot will
monitor inlet pressure and modulate to sustain a back pressure set point, ensuring the inlet
pressure never drops too low. The pilot system will also contain two CV flow control needle
valves designed to help ensure the valve will open and close slowly.
E. The manufacturer shall provide a hinged, JIC oil-tight, NEMA 4X Type 316 stainless steel
local control panel with interior mounting dead front and an outer door with a three point
latch. The 120 volt suppiy power shall be equipped with a surge suppressor, EDCO HSP 121
TVSS device. All analog signals into and out of the panel shall be protected by EDCO signal
surge suppressors.
F. The manufacturer shall provide a direct factory employee for startup three days for services
and training. The manufacturer shall warranty the valve for 2 years from date of substantial
completion of the Pond part of the Contract Work.
2.02 PRESSURE RELIEF VALVE
A. The pressure relief valve shall maintain constant upstream pressure by by-passing or
relieving excess pressure, and shall maintain close pressure limits without causing surges.
The main valve shall be a hydraulically operated, diaphragm or piston actuated, globe valve.
It shail contain a resilient, synthetic rubber disc, having a rectangular cross-section,
contained on the three and one-half sides by a disc retainer and shall form a tight seal
against a single removable seat insert. The diaphragm assembly containing a valve stem
shall be fully guided at both ends by a bearing in the valve cover and an integral bearing in
the valve seat. The diaphragm assembly shall form a sealed chamber in the upper portion
of the valve, separating operating pressure from line pressure. The diaphragm shall consist
of nylon fabric bonded with synthetic rubber and shall not be used as a seating surface. All
necessary repairs shall be possible without removing the valve from the line. The pilot
control shall be a direct-acting, adjustable, spring-loaded, diaphragm valve, designed to
permitflowwhen controlling pressure exceeds spring setting. The pilot control system shall
operate such that as excess line pressure is dissipated the main valve shall gradually close
to a positive, drip-tight seating. The valve shall be class 150 with flanges conforming to ANSI
BI6.1. The valve shall be Model 50-01 as manufactured by Cia-Val Company, Model 6700-D
as manufactured by GA Industries, or equal.
2.03 TAPPING VALVE AND SLEEVE
A. The tapping valves shall conform to the applicable requirements of ANSI/AWWA C500.
Valves shall be installed as shown on the Drawings and shall be designed for 150 psi
working pressure. Valve body shall be cast iron ASTM A 126, Class B or ductile iron ASTM
A 395 or A 536. Valves shall have a bronze trim, double disc, a non-rising stem and parallel
or inclined seats. Stem seals shall be neoprene O-rings. The valve shall open counter
0:15114 Miscellaneous Valves and Appurtenances.doc:07-10-0915114-2
January 201 0
NCWRF COMPLIANCE ASSURANCE PROJECT
MISC, VALVES & APPURTENANCES
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clockwise and have enclosed bevel gears, track rollers and scrapers and a standard bypass
valve. The inlet shall be ANSI sized to match the tapping sleeve. The outlet shall be a
mechanical joint connection. The valves shall be as manufactured by Mueller, American, or
equal.
B. The Contractor shall verify the material and diameter of the existing lines to be tapped prior
to ordering the sleeve.
2.04 CORPORATION STOPS
A. Corporation stops shall be provided with all service saddle connections. Corporation stops
shall be O-ring sealed, balance pressure, plug type valves having a full open unobstructed
flow way. Corporation stops shall be suitable for buried service and shall have threaded inlet
and outlet connections unless otherwise indicated.
B. The suppliers shall be the following or equal:
1. Ford Meter Box Company;
2. James Jones Company;
3. Mueller Company.
2.05 TAPPING SADDLES
A. Tapping saddles shall fit to the maximum O.D. of the saddle's range, and extend a minimum
of 160 degrees around the pipe. When the saddle is used on pipe to the minimum pipe size
of the range, the saddle shall extend 180 degrees around the pipe. Straps shall have ends
chamfered and be provided with Class 2 fit, National Coarse Threads. Saddle casting shall
be ductile iron, double strap and shall have epoxy coating. Straps shall be stainless steel.
Valve gaskets shall be self sealing, neoprene except for chlorine lines which shall be viton.
2.06 SOLENOID VALVES
A. Solenoid valves shall be of the size, type, and class shown and shall be designed for not
less than 150 psi water-working pressure. Valves for water, air, or gas service shall have
stainless steel body with female NPT threaded connections, suitable for installation in any
position, stainless steel trim and spring, Teflon or other resilient seals with material best
suited for the temperature and fluid handled. For chemicals and all corrosive fluids, solenoid
valves with Teflon bodies and springs or other suitable materials shall be used. Enclosures
shall be NEMA 4X.For explosion proof, corrosive, or special purpose NEMA type 7,8,9, 9E,
9F, or 9G enclosures shall be used, as applicable. All coil ratings shall be extra heavy duty
and suitable for continuous duty. For electrical characteristics see the Eiectrical Drawings
and Specifications.
B. Solenoid valve shall be Automatic Switch Co" Circle Seal Control Inc., Hex Valve, or Equal.
2.07 SMALL PRESSURE REDUCING VALVES (AIR AND WATER)
A. Small air and water pressure reducing valves shall be of the spring-loaded diaphragm type
with a minimum pressure rating of 250 psi, with bronze body, nickel alloy or stainless steel
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NCWRF COMPLIANCE ASSURANCE PROJECT
MISC, VALVES & APPURTENANCES
seat, and threaded ends. Each valve shall be furnished with built-in or separate strainer and
union ends.
B. The suppliers shall be the following or equal:
1. Mueller Company.
2.08 PVC DIAPHRAGM VALVES
A. Diaphragm valves shall be manufactured from polyvinylchloride (PVC) compounds and shall
be provided on PVC and fiberglass piping as indicated. Diaphragm valves shall be weir type
with teflon diaphragm and seals, handwheel operator with flanged or true union end
connections to suit piping. Valves shall be Asahi/America, G.F. Plastics, or equal.
2.09 NEEDLE VALVES
A. Needle valves shall be Globe type, stainless steel body with threaded end connections at
400 psi in non-shock coid water service. Needle valves shall be as manufactured by Crane,
Lunkenheimer, or equal.
2.10 GAUGE COCKS
A. Gauge cocks shall be threaded stainless steelall bronze, tee handle, as manufactured by
Crane Co. or equal.
2.11 QUICK COUPLINGS AND DUST CAPS
A Quick couplings and dust caps shall be provided on all fill lines and where shown on the
Drawings or specified. Quick couplings shall be manufactured to the dimensional
specifications of MIL-C-27487 for compatibility with couplings of other manufacturers and
delivery hose systems. Insulating type fittings or Teflon tape shall be provided to prevent
galvanic action between dissimilar metals. Couplings shall be made type OPW Figure 633-
A (threaded) or Figure 633-LAS (flanged) - dust caps shall be OPW 643-B. A 1/16-inch
vent opening shall be frilled in each dust cap to prevent pressurization of the cap. Coupling
and dust cap materials shall be type 316 stainless steel of material suitable for service
intended, subject to Engineer's acceptance.
PART 3 -- EXECUTION
3.01 INSTALLATION
A. All valves shall be installed in accordance with the Supplier's printed recommendations.
B. All air and vacuum release valves shall have piped outlets to the nearest acceptable drain,
firmly supported, and installed in such a way as to avoid splashing and wetting of floors.
END OF SECTION
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January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
MISC. VALVES & APPURTENANCES
SECTION 15116
VALVE ACTUATORS, ELECTRIC
PART 1 - GENERAL
1.01 SECTiON INCLUDES
A. Requirements for furnishing and installing electric valve actuators and
appurtenances as shown on the Drawings.
1.02 SUBMITTALS
A. General: As specified in Section 01330 - Submittals.
B. Affidavit of Compliance.
C. Manuals as specified in Section 01830 - Operation and Maintenance Data.
D. Valve Data Sheet. Refer to Valve Table at the end of this Section.
E. Manufacturer's Certificate of Proper Installation and Operation. Refer to
Certificate at the end of this Section.
F. Written Warranty.
1.03 WARRANTIES
A. General: As specified in the Contract Documents.
B. The manufacturer shall provide a written, two-year full warranty on all materials
and workmanship from the date of Substantial Completion, and shall replace
and install any such items found to be defective within the Warranty period.
PART 2 - PRODUCTS
2,01 SYSTEM DESCRIPTION
A. General: Furnish and install valve actuators for the following valves as shown
on the Drawings. The valves shall be in compliance with Collier County
Standards. The actuators shall be installed on the valves at the actuator
manufacturing facility.
B. Aeration Basins Air Piping
1. Quantity - 12
2. Type - New Butterfly Valve
3. Size - 8 inch
4. Maximum differential across valve when closed - 15 psig
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NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS. ELECTRIC
January 2010
C. South-to-North Reclaimed Water Interconnect - Pond 4
1. Quantity - 1
2. Type - New Gate Valve
3. Size - 18 inch
4. Maximum differential across valve when closed -100 psig
D. New Blower
1. Quantity - 1
2. Type - Butterfly Valve
3. Size - 16 inch
4. Maximum differential across valve when closed -15 psig
2.02 MANUFACTURERS: 3 INCH AND LARGER
A. Rotork is only acceptable manufacturer due to Collier County's standardization.
Valve actuators shall be Rotork ModeIIQ/M.
2.03 ELECTRIC ACTUATORS: 3 INCH AND LARGER
A. The actuators shall be suitable for use on a nominal 480 volt three-phase power
supply, or single phase and are to incorporate motor, integral reversing starter,
local control facilities, terminals for remote control and indication connections,
and a backlit LCD display with digital position indication and alarm icons.
B. Actuators shall be '0' ring sealed, watertight and certified to meet IP68 and
NEMA 4X standards and shall at the same time have an inner watertight and
dustproof '0' ring seal between the terminal compartment and the internal
electrical elements of the actuator fully protecting the motor and all other internal
electrical elements of the actuator from ingress of moisture and dust when the
terminal cover is removed on site for cabling.
C. The actuator shall be sized to guarantee valve closure at the specified
differential pressure. The safety margin of motor power available for seating and
unseating the valve shall be sufficient to ensure torque switch trip at maximum
valve torque with the supply voltage 10% below nominal. The operating speed
shall be such as to give valve full closing and opening in not less than two
seconds per inch of valve diameter, plus or minus 30%.
D. The actuator shall be capable of functioning in an ambient temperature ranging
from minus 22 'F (-30'C) to + 158'F (+70'C).
E. Motor
1. The electric motor shall be Class F insulated with a time rating of at least 15
minutes at 104'F (40'C) or twice the valve stroking time, whichever is the
longer, at an average load of at least 33% of maximum valve torque.
2. The motor shall be 115 volt, single phase for valves 6" and less in size. The
motor shall be 480 volt, 3 phase, 60Hz for valves over 6".
January 2010
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VALVE ACTUATORS. ELECTRIC
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3. Electrical and mechanical disconnection of the motor should be possible
without draining the lubricant from the actuator gearcase. Plugs and sockets
are not acceptable as a means of electrical connection for the motor.
4. For quarter-turn valves 20" or smaller, actuators shall incorporate a motor
speed controller to allow for simple, non-intrusive, field adjustable speed
control. To simplify set-up, speed control shall be adjusted over a 4:1 speed
range (i.e. 30-120 seconds) by any of the following means: IR setting tool,
PDA and laptop PC.
5. Protection shall be provided for the motor as follows:
a. The motor shall be de-energized in the event of stall when attempting to unseat
a jammed valve.
b. Motor temperature shall be sensed by a thermostat to protect against overheating.
c. Single phasing protection.
F. The actuator gearing shall be totally enclosed in an oil- filled gearcase suitable
for operation at any angle. All main drive gearing must be of metal construction.
Where the actuator operates gate valves or large diameter ball or plug valves,
the drive shall incorporate a lost-motion hammerblow feature. For rising spindle
valves, the output shaft shall be hollow to accept a rising stem and incorporate
thrust bearings of the ball or roller type at the base of the actuator, and the
design should be such as to permit the gearcase to be opened for inspection or
disassembled without releasing the stem thrust or taking the valve out of service.
Actuator must incorporate the use of secondary gearing for multi-turn valves
(bevel/spur gear). Secondary gearing must have a visual mechanical indicator.
Standard gear oil shall be used to lubricate the gearcase. Butterfly valve
actuators 20" and smaller shall provide direct quarter-turn output and not
incorporate the use of an intermediate gearbox.
G. A removable, cast iron handwheel shall be provided for emergency operation
engaged when the motor is declutched by a lever or similar means, with the drive
being restored to power automatically by starting the motor. The hand/auto
selection lever should be padlockable in both "Hand" and "Auto" positions. It
should be possible to select hand operation while the actuator is running or start
the actuator motor while the hand/auto selection lever is locked in "Hand" without
damage to the drive train, The handwheel drive must be mechanically
independent of the motor drive, and any gearing should be such as to permit
emergency manual operation in a reasonable time. Clockwise operation of the
handwheel shall give closing movement of the valve unless otherwise stated in
the job specification. For safety purposes, it shall be possible to disengage the
electric drive with the declutch lever, This disengagement and any subsequent
reengagement shall not cause any damage to the valve or operator, even with
the motor running.
H. The actuator shall be furnished with a drive bushing easily detachable for
machining to suit the valve stem or gearbox input shaft. Normally the drive bush
shall be positioned in a detachable base of the actuator. Thrust bearings, when
housed in a separate thrust base, should be of the sealed-for-life type.
January 2010
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VALVE ACTUATORS, ELECTRIC
I. Torque and Turns Limitations
1. An inexpensive setting tool shall be included for non-intrusive set-up,
calibration, and interrogation of the actuator. Using the vendor-supplied
setting tool, torque and turns limitation shall be adjustable as follows:
a. Position setting range: 2.5 to 100,000 turns, with resolution to 7S of
actuator output.
b. Torque setting: 40% to 100% rated torque.
c. Torque sensing must be affected directly electrically or electronically.
Extrapolating torque from mechanically measured motor speed is not
acceptable due to response time. Torque measurement shall be
independent of variations in frequency, voltage or temperature.
d. "Latching" to be provided for the torque sensing system to inhibit torque
off during unseating or during starting in mid-travel against high inertia
loads.
2. The electric circuit diagram of the actuator should not vary with valve type
remaining identical regardless of whether the valve is to open or close on
torque or position limit.
3. It shall be possible to carry out the setting of the torque, turns, and
configuration of the indication contacts without the necessity to remove any
electrical compartment covers.
J. The reversing starter, control transformer, and local controls shall be integral
with the valve actuator unless specified or shown otherwise, suitably housed in a
NEMA 4X enclosure to prevent breathing and condensation buildup. For
ON/OFF service, this starter shall be suitable for 60 starts per hour and of rating
appropriate to motor size. For modulating duty, the starter shall be suitable for
up to a maximum of 1,200 starts per hour. The controls supply transformer shall
be fed from two of the incoming three phases. It shall have the necessary
tappings and be adequately rated to provide power for the following functions:
1. 120V AC energization of the contactor coils
2. 24V DC output where required for remote controls
3. Supply for all the internal electrical circuits
K. Actuators shall be provided with 120 volt space heaters In the switch
compartment and space heaters in the motor.
L. Integral to the actuator shall be local controls for Open, Close, and Stop, and a
local/remote selector Switch, padlockable in anyone of the following three
positions:
1. Local Control Only
2. Off (No Electrical Operation)
3. Remote Control plus Local Stop Only
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS, ELECTRIC
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It shall be possible to select maintained or non-maintained local control. The local
controls shall be arranged so that the direction of valve travel can be reversed without
the necessity of stopping the actuator.
M. Remote Valve Position/Actuator Status Indication
1. In the event of a (main) power (supply) loss or failure, the position contacts
must continue to be able to supply remote position feedback and maintain
interlock capabilities. If batteries are required to maintain contact
functionality the actuator vendor shall provide a supply sufficient for 30
continuous days of un-powered operation with one complete valve cycle
every hour.
2. A backup power source must be provided in the actuator to ensure correct
remote limit switch indication should the actuator be moved manually when
the power supply is interrupted.
3. The position of the actuator and valve must be updated contemporaneously,
even when the power supply is not present.
4. Four contacts shall be provided which can be selected to indicate any
position of the valve with each contact externally selectable as normally
open or normally closed. The contacts shall be rated at 5A, 250V AC, 30V
DC.
5. Provisions shall be made for connectivity with field bus control systems via a
plug in card.
6. As an alternative to providing valve position, any of the four above contacts
shall be selectable to signal one of the following:
a. Valve Opening or Closing
b. Valve Moving (Continuous or Pulsing)
c. Local Stop Selected
d. Local Selected
e. Remote Selected
f. Open or Close Interlock Active
g. ESD Active
h. Motor Tripped on Torque in Mid-Travel
I. Motor Tripped on Torque Going Open
J. Motor Tripped on Torque Going Closed
k. Pre-Set Torque Exceeded
I. Valve Jammed
m. Actuator Being Operated by Handwheel
n. Lost Main Power Phase
o. Customer 24V DC or 120V AC Supply Lost
p, Battery Low
q. internal Failure Detected
r. Thermostat Tripped
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS, ELECTRIC
7. Where required on the drawings, provide a contactless, 4-20 mA current
position transmitter corresponding to valve travel position.
N. Local Position Indication
." 1. The actuator must provide a local LCD display of the position of the valve,
even when the power supply is not present for a minimum of 30 days of un-
powered operation. This requirement necessary for possible extended
outages. The display shall be able to be rotated in 90-degree increments so
as to provide easy viewing regardless of mounting position.
2. The actuator shall include a digital LCD position indicator with a numeric
display from fully open to fully closed in 1 % increments. Red, green, and
yellow lights corresponding to Open, Closed, and Intermediate positions
shall be included on the actuator, including, configurable multilingual text
capability. The digital display shall be maintained even when the power to
the actuator is isolated. The local display should be large enough to be
viewed from a distance of six feet (6') when the actuator is powered up.
3. Provide mechanical-type valve position indicator. Valve position indicator
shall show valve position at all times. Indicator shall be part of an
intermediate gear head or electric motor actuator.
O. Wiring and Terminals
1. Internal wiring shall be of tropical grade PVC insulated stranded cable of
appropriate size for the control and three- phase power. Each wire shall be
clearly identified at each end.
2. The terminal compartment shall be separated from the inner electrical
components of the actuator by means of a watertight seal. The terminal
compartment of the actuator shall be provided with a minimum of two
threaded cable entries.
3. All wiring supplied as part of the actuator to be contained within the main
enclosure for physical and environmental protection. External conduit
connections between components are not acceptable.
4. Control logic circuit boards and relay boards must be mounted on plastic
mounts to comply with double insulated standards. No more than a single
primary size fuse shall be provided to minimize the need to remove single
covers for replacements.
5. A durable terminal identification card showing plan of terminals shall be
provided attached to the inside of the terminal box cover indicating:
a. Serial Number
b. External Voltage Values
c. Wiring Diagram Number
d. Terminal Layout
15116-6
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS, ELECTRIC
January 201 0
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P. Actuator enclosure shall be '0' ring sealed, watertight to IP68 (7 meters-72
hours) and NEMA 4X, and shall at the same time have an inner watertight and
dustproof '0' ring seal between the terminal compartment and the internal
electrical elements of the actuator fully protecting the motor and all other internal
electrical elements of the actuator from ingress of moisture and dust when the
terminal cover is removed on site for cabling. Enclosure protection of NEMA,
IP68, shall be guaranteed without the need of suitable cable glands. Enclosure
must allow for temporary site storage without the need for electrical supply
connection or removal of any components. All external fasteners should be of
stainless steel.
Q. Control Facilities
The necessary wiring and terminals shall be provided in the actuator for the
following control functions:
Connections for external remote controls fed from an internal 24V DC supply
and/or from an external supply of (min. 12V, max. 120V) to be suitable for any
one or more of the following methods of control:
1. Open, Close, and Stop.
2. Open and Close.
3. Overriding Emergency, Shutdown to Close (or Open) Valve from a "Make" Contact.
4. Two-Wire Control, Energize to Close (or Open), De-Energize to Open (or Close).
Selection of maintained or push-to-run control for modes (A) and (B) above shall
be provided and it shall be possible to reverse valve travel without the necessity
of stopping the actuator. The starter contactors shall be protected from
excessive current surges during travel reversal by an automatic time delay on
energization of approximately 300 ms.
Where required on the drawings, modulating actuators shall include a device to
accept a 4-20 mA input from the host system.
The internal circuits associated with the remote control and monitoring functions
are to be designed to withstand simulated lightning impulses of up to 2.0 kV.
R. Monitoring and Diagnostics Facilities
1. The actuator shall include an on-board datalogger to store operational data
such as valve torque profiles, actuator events, and statistics that can be
viewed locally on the actuator LCD display or downloaded via infrared port.
2. Diagnostic status screens must be provided on the LCD display to show
multiple functions simultaneously so troubleshooting can be affected rapidly
and efficiently. All diagnostic information should be contained on no more
than nine (9) screens so multiple functions can be checked simultaneously.
3. Provision shall be made to display valve torque demand as a percent of rated
actuator torque and position simultaneously on the actuator display, so as to
facilitate valve troubleshooting and diagnostics.
.
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NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS, ELECTRIC
January 201 0
4. In addition to "local" monitoring on the actuator's LCD display, the actuator shall
provide an Infrared communications port to facilitate two-way communication via
an IrDA port. This port shall enable download of historical actuator data and
configuration settings to permit analysis of changes in actuator or valve
performance.
5. An intrinsically safe setting tool shall be furnished by the actuator manufacturer
and include actuator diagnostic and configuration software to download, review,
analyze, and reconfigure the actuator. This setting tool shall be capable of data
transfer from actuator to PC to be utilized with software and shall facilitate two-
way communications with the actuator allowing both downloading and uploading
of actuator data and settings.
6. A PC-based software tool shall also be provided to allow configuration and,
graphical diagnostic information to be reviewed, analyzed, and reconfigured.
This software tool shall provide configuration data, a time stamped event log, and
torque profiles. The torque profiling shall plot valve position and torque output in
both the opening and closing direction. In order to facilitate future
troubleshooting, the actuator manufacturer or their representative shall download
an "as installed" torque profile for each actuator and provide on a disk to owner.
S. Each actuator shall be supplied with a startup kit comprising installation instruction,
electrical wiring diagram, and sufficient spare cover screws and seals to make good
any site losses during the commissioning period.
PART 3 - EXECUTION
3.01 INSTALLATION
A. Actuator manufacturer shall install the actuator on each vaive, test and certify
operation at the actuator manufacturing facility. Contractor shall install valve
actuators at the IQ Interconnect sites in accordance with actuator manufacturer's
written instructions.
B. Each actuator must be performance tested and individual test certificates shall
be supplied. The test equipment should simulate a typical valve load and the
following parameters should be recorded:
1. Current at maximum torque setting
2. Torque at maximum torque setting
3. Flash Test Voltage
4. Actuator Output Speed or Operating Time
In addition, the test certificate should record details of specification, such as gear
ratios for both manual and automatic drive, closing direction, and wiring diagram
code number.
3.02 FIELD TESTS
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS. ELECTRIC
A. As specified in Section 01750 - Testing and Start-Up
B. Hydrostatic Test: Test actuators with valves.
C. Functional Test
1. Following installation and inspection, operate valve actuators.
2. After adjustments have been made and the actuator is properly lubricated,
do the following:
a. Operate actuator with selector switch in "LOCAL" position.
(1) Run actuator through one complete cycle from full-closed to full-
open to full-closed.
(2) Verify that "STOP" push-button stops valve motion.
b. Operate actuator with selector switch in "REMOTE" position and test
actuator operation from actuator terminal strip.
(1) Run actuator through one complete cycle from full-closed to full-
open to full-closed.
(2) Verify that remote stop signal stops valve motion.
c. Verify that contacts for remote monitoring of valve position and
operation are functioning properly.
d. Verify that indicator lights are functioning properly.
e. Verify that limit switches are functioning properly.
3.03 MANUFACTURERS' REPRESENTATIVE
A. General: As specified in Section 01600 - Materials and Equipment.
B. A manufacturer's representative shall be present a minimum of four days for
installation inspection, startup and testing and 1 day for operation and
maintenance training.
C. Provide manufacturer's written Certificate of Proper Installation and Operation of
each valve actuator.
END OF SECTION
January 2010
15116-9
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS, ELECTRIC
MANUFACTURER'S CERTIFICATE OF
PROPER INSTALLATION AND OPERATION
Compliance Assurance Project - NCWRF
Date
PRODUCT:
SERIAL NO.:
SPECIFICATION SECTION:
As an authorized representative of the manufacturer, the undersigned certifies the product
identified above has been inspected and is installed in accordance with the manufacturer's
recommended standards, except as noted below.
The undersigned further certifies that the product identified above has been placed into
satisfactory operation, except as noted below.
Exceptions and comments:
Signature:
Printed Name:
A copy of this executed Certificate must be included in the Operation and Maintenance
Data. A copy must be forwarded to the Engineer upon completion of startup and testing.
January 2010
15116-10
NCWRF COMPLIANCE ASSURANCE PROJECT
VALVE ACTUATORS, ELECTRIC
-
SECTiON 15121
PIPING EXPANSION COMPENSATION
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. Reference Section 15000 entitled "Piping, General".
PART 2 -- PRODUCTS
2.01 RUBBER EXPANSION JOINTS
A. Rubber expansion joints shall be of the single wide arch design and shall be rated for 2250F
(dry) or 2100F (wet). Non-submerged units shall be provided with galvanized ductile iron
retaining rings. Exposed expansion joints shall be fully resistant to ultra violet degradation.
Submerged expansion joints shall be fully resistant to attack from organisms or chemicals
found in the associated process liquid.
B. Expansion joints shall be located as shown on the Drawings and shall be for either wet (W)
or dry (D) service. The performance of the expansion joints shall be as indicated in the
following table.
Nominal
Pipe Diameter
_(in)
1 -1-1/2
2-5
6 - 12
14 - 20
24 - 84
Minimum Required Movement
Compo Elong. Lateral
(in) (In) J!nl
5/8
1-3/4
1-3/4
2
2-1/4
1/4
3/4
3/4
7/8
1
1/4
3/4
1
1-1/8
1-1/8
C, Control rods to prevent over extension shall be provided as indicated on the Contract
Drawings or as required by the manufacturer. All expansion joints shall be the product of a
single manufacturer.
D. Expansion joints shall be Style 1015 as manufactured by General Rubber Corporation, or
equal.
2.02 BURIED PIPE EXPANSION JOINTS
A. Buried pipe expansion joints shall be installed at the locations indicated on the Contract
Drawings and shall be manufactured from ductile iron, Grade 60-42-10 and conforming to
ANSI A21.53 (AWWA C153). Buried pipe expansion joints shall be capable of axial
expansion and contraction with a minimum of 4-inches total movement. All joint assemblies
shall be furnished preset for a minimum of 2-inches expansion and 2-inches contraction. All
0:15121 Piping Expansion Compensalion.doc:07~10-09
January 201 0
15121-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PIPING EXPANSION COMPENSATION
pressure containing parts shall be lined with a minimum of 15 mils of Fusion Bonded Epoxy
conforming to AWWA C213. The lining shall also conform to the applicable requirements of
ANSI A21.11 (AWWA C111). All bolts used in the assembly shall be stainless steel and
coated with coal tar epoxy. The buried pipe expansion joint shall be pressure rated at 350
psi with a minimum safety factor of 3:1, and shall be tested to 350 psi prior to shipment.
B. Buried pipe expansion joints shall be similar to the Ex-Tend expansion joint as manufactured
by EBAA Iron Inc., Eastland, Texas, or equal.
END OF SECTION
0:15121 Piping Expansion Compensation.doc:07~10-0g
January 2010
15121-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PIPING EXPANSION COMPENSATION
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SECTION 15122
DUCTILE IRON PIPE
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for materials and installation of ductile Iron piping and fittings as
shown on the Drawings.
1.02 REFERENCES
A. ANSI Standards
1. ANSI B16.1 Cast Iron Pipe Flanges and Flanged Fittings, Class 125
2. ANSI B 16.3 Malleable Iron Threaded Fittings, Class 150 and 300
3. ANSI B 16.5 Pipe Flanges and Flanged Fittings, Steel Nickel Alloy and
Other Special Alloys
B. ANSI/NSF
ANSI/NSF 61 Drinking Water System Components-Health Effects
C. ANSI/AWWA Standards
1. ANSIIAWWA C1 04/A21.4 - Cement-Mortar Lining for Ductile-Iron Pipe and
Fittings for Water
2. ANSI/AWWA C1 05/A21.5 - Polyethylene Encasement for Ductile-Iron Piping
for Water and Other Liquids
3. ANSI/AWWA C110/A21.10 - Ductile Iron and Gray-Iron Fitting 3-inch
through 48 inch for Water and Other Liquids
4. ANSI/AWWA C111/A21.11 - Rubber-Gasket Joints for Ductile-Iron and
Gray-Iron Pressure Pipe and Fittings
5. ANSI/AWWA C1115/A21.15 - Flanged Ductile-Iron Pipe with Threaded
Flanges
6. ANSI/AWWA C150/A21.50 - Thickness Design of Ductile-Iron Pipe
7. ANSIIAWWA C151/A21.5 - Ductile-Iron Pipe, Centrifugally Cast, for Water
and Other Liquids.
8. ANSIIAWWA C600 - Installation of Ductile-Iron Water Mains and Their
Appurtenances
D. ASTM Standards
1. ASTM A 182 Specification for Forged or Rolled Alloy-Steel Pipe Flanges,
Forged Fittings, and Valves and Parts for High Temperature Service
January 2010
15122-1
NCWRF COMPLIANCE ASSURANCE PROJECT
DUCTILE IRON PIPE
2. ASTM A 193 Specification for Alloy-Steel and Stainless Steel Bolting
Materials for High-Temperature Service
3. ASTM A 194 Specification for Carbon and Alloy Steel Nuts for Bolts for High-
Pressure and High-Temperature Service
4. ASTM A351 Specification for Steel Castings, Austenitic, for High
Temperature Service.
5. Collier County Utilities Standards Manual, latest edition with revisions.
1.03 SUBMITTALS
A. General: As specified in Section 01600 - Materials and Equipment and Section
01330 - Submittals.
B. Shop Drawings: Include the following in each submittal:
1. Specification Section number;
2. Catalog data including the following:
a. Specifications;
b. Intended Service;
c. Maximum working pressure;
d. Illustrations in sufficient detail to serve as a guide for assembly and
disassembly;
e. Materials of construction;
f. Dimensions;
3. Linings and Coatings.
4. Additional information required to evaluate the proposed
appurtenance product's compliance with the Contract Documents.
5. Layout and Installation: Include the following: ,
. .
piping
a. Dimensions and elevations;
b. Piece numbers coordinated with the tabulated pipe layout schedule;
c. Weight of all component parts;
d. Design calculations;
e. Tabulated piping layout schedule including the following:
(1) Piece number;
(2) Service;
(3) Pipe, filling and accessory sizes;
(4) Accessory descriptions.
6. Pipe supports and anchors including the following:
a. Location;
b. Support type;
c. Anchor type;
d. Support an anchor dimensions;
e. Hanger rod size;
f. Loads on supports and anchors
January 2010
15122-2
NCWRF ODOR CONTROL-IQ MODS
DUCTILE IRON PIPE
C. Certifications
1. Prior to delivery at project site, furnish an Affidavit of Compliance certified
by the piping product manufacturer that the pipe, fittings, valves, joint
accessories, and other piping appurtenances furnished under this Contract
comply with all applicable provisions of applicable referenced standards and
these Specifications.
2. Do not deliver pipe product to job site until Affidavit of Compliance has been
submitted and accepted by the Engineer.
PART 2 - PRODUCTS
2.01 General
A. Pipe, fittings, and accessories furnished under this section shall be in accordance with
the requirements of Section 01600 - Materials and Equipment.
B. Pipe and fittings shall' be manufactured either within the United States or by a
manufacturer and production factory with current ISO 9001 certification. If applicable, the
ISO certification must be included in the submittal and reference compliance with AWlNA
Standards.
2.02 MANUFACTURERS OF DUCTILE IRON PIPE AND FITTINGS
A. Ductile iron pipe shall be manufactured by:
1. American Cast Iron Pipe Company
2. McWane Cast Iron Pipe Company
3. United States Pipe & Foundry Company
B. Ductile iron fittings shall be manufactured by:
1. American Cast Iron Pipe Company
2. Union Foundry Company
3. United States Pipe & Foundry Company
2.03 DUCTILE IRON PIPE, FITTINGS, AND APPURTENANCES
A. Ductile Iron Pipe
1. Ductile iron pipe shall conform to ANSI/AWWA C151/A21.51.
2. Minimum Thickness - Ductile iron pipe shall conform to the thickness standards in
ANSI/AWWA C150/A21.50 and have the minimum pressure classes as follows:
a. 4" through 12" Pipe: Class 350
b. 14" through 20" Pipe:
(1) Depth of Cover <5'-10': Class 250
(2) Depth of Cover 10' to 15': Class 300
(3) Depth of Cover >15': Class 350
January 2010
-
NCWRF ODOR CONTROL-IQ MODS
DUCTILE IRON PIPE
15122-3
c. 24" through 64" Pipe:
(1) Depth of Cover <5 to 10': Class 200
(2) Depth of Cover 10' to 15': Class 300
(3) Depth of Cover> 15': Class 350
3. Flange Joint Ductile Iron Pipe shall conform to the thickness standards in
ANSI/AWWA C115/A21.15, Table 15.1 and have a minimum working pressure rating
of 250 psi.
B. Fittings
1. Fittings 3" through 48" shall conform to ANSI/AWWA C110/A21.10.
2. Fittings larger than 48" shall conform to ANSI/AWWA C153/A21.53.
3. Minimum Pressure Rating: 150 psi.
C. Pipe and Fitting Joints
1. JointType
a. Joints for buried ductile iron l2iPe and fittinQs shall be restrained. Restrained
joints shall be restrained push-on joints or mechanical joints with retainer glands.
b. Joints for exposed ductile iron pipe and fittings shall be flange joints.
2. Restrained push-on joints for ductile iron pipe shall be:
a. American Cast Iron Pipe Company: Fast-Grip gasket (4" - 12"), Flex-Ring, Field
Flex-Ring and Lok-Ring;
b. McWane Cast Iron Pipe Company: Super Lock;
c. United States Pipe & Foundry Company: Field Lok gasket (4" - 12") and TR-
Flex.
3. Restraint Devices for Mechanical Joints
a. EBAA Iron Sales, Inc., Megalug Series 1100;
b. or equal restraining device by US manufacturer.
4. Flanges for Pipe and Fittings
a. Flanges for ductile iron pipe shall be made of ductile iron that conforms to
ANSI/AWWA C115/A21.15125.
b. Flanges for ductile iron fittings shall be made of ductile iron or cast iron that
conforms to ANSI/AWWA C110/A21.10.
c. All flanges shall have flat faces and meet the dimensions standards of ANSI
B16.1, Class 125.
D. Lifting Eyes for Ductile Iron Blind Flanges
1. Pipe Size: 12" and larger.
January 2010
15122-4
NCWRF ODOR CONTROL-IQ MODS
DUCTILE IRON PIPE
2. Lifting Eyes: Welded or threaded eye bolts.
3. Lifting Eye Material: AISI 316L stainless steel.
E. Lining
1. Ductile iron pipe used in wastewater, sewer, grit or sludge applications shall have an
epoxy lining. The epoxy lining shall be Protecto 401 Ceramic Epoxy as manufactured
by the Protecto Division of Vulcan Painters, Inc., or equal. Line all pipe and fittings
with a minimum dry film thickness of 40 mils, except for the gasket groove and spigot
end up to six inches back from the end of the spigot which shall be lined with ten mils
of the material.
2. Ductile iron pipe used for reclaimed water shall have a double-thick cement mortar
lining that conforms to ANSI/AWWA C1 04/A21.4.
3. Ductile iron pipe used in water systems shall have a single thick cement mortar lining
that conforms to ASNI/AWWA C104/A21.4.
4. The seal coat for cement mortar lining shall meet the requirements of ANSI/NSF 61.
F. Exterior Coatings
1. Buried ductile iron pipe and fittings shall have an exterior asphaltic coating that
conforms to ANSI/AWWA C151/A21.51.
2. Exposed ductile iron pipe and fittings shall have an exterior coating of rust inhibitive
primer as specified in Section 09900 - Paints and Coatings. '
G. Encasement for Ductile Iron Pipe
1. Provide polyethylene encasement for all buried pipe, fittings and valves.
2. Standard for Ductile Iron Pipe Encasement: ANSI/AWWA C105/A21.5.
2.04 JOINT ACCESSORIES
A. Gaskets
1. Flange joint gaskets for ductile iron shall be full face.
2. Gasket Material
a. Joints Outside of Buildings: 1/8" neoprene
b. Joints Inside of Enclosed Buildings: 1/8" neoprene or red rubber.
3. Standard for Ductile Iron and Cast Iron Mechanical Joint, Push-on Joint, and
Restrained Joint Gaskets: ANSI/AWWA C111/A21.11.
4. Union and Strainer Gaskets: Viton
B. Bolts, Studs, and Nuts
1. Bolts, Studs, and Nuts for Flange Joints
a. Boits for flange joints shall be semi-finished, regular hexagon head cap screws
with UNC threads. The bolts shall be AISI 316 stainless steel that meets the
requirements of ASTM A193, Grade B8M.
January 2010
15122-5
NCWRF ODOR CONTROL-IQ MODS
DUCTILE IRON PIPE
,......~...<_.._- -
-
_.'"'.___','n."
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b. Studs for flange joints shall have UNC threads and extend through the nuts a
minimum of 1/4". The studs shall be AISI 316 stainless steel that meets the
requirements of ASTM A193, Grade B8M.
c. Nuts for flange joints shall be semi-finished regular hexagon nuts with UNC
threads. The nuts shall be AISI 316 stainless steel that meets the requirements
of ASTM A 194, Grade 8M.
2. Bolts and Nuts for Mechanical Joints
a. Bolts for mechanical joints shall be tee-head type. The bolts shall be cast iron
that meets the requirements of ANSI/AWWA C111/A21.11.
b, Nuts for mechanical joins shall be hexagon type, The nuts shall be cast iron
that meets the requirements of ANSI/AWWA C111/A21.11.
PART 3 - EXECUTION
3.01 INSTALLATION OF BURIED PIPE
A. Laying Piping: Laying of ductile iron pipe shall meet the requirements of ANSIIAWWA
C600, unless otherwise specified in this Section, and Section 02317 - Trenching,
Bedding and Backfill for Pipe.
1. Provide proper implements, tools, and facilities for safe and expeditious prosecution
of Work.
2. Lay and maintain pipe to lines shown on the Drawings, except as specified in this
Section. Lay and maintain pipe to grade shown on Drawings or to minimum depth
specified in this Section. Install fittings and valves in locations shown on the
Drawings.
3. Where piping is to be constructed parallel to and close to existing buried utilities, the
exact location of which is unknown, adjust alignment of piping to least interfere with
existing buried utilities, unless otherwise shown or specified.
4. Separation of utilities and minimum depth of cover shall be as specified by local
ordinance,
5. Do not lay pipe in water or when trench or weather conditions are unsuitable for
proper installation.
6. Lower pipe, fittings, and valves into trench by hand, by means of hoists or ropes, or
by other suitable tools or equipment that will not damage products, coatings, or
linings. Do not drop or dump pipe, fittings, or valves into the trench.
7. Use laser beam equipment, surveying instruments, or other proven techniques to
maintain accurate alignment and grade.
8. Lay each pipe section in a firm foundation of bedding material.
9. Bell Holes: Excavate bell holes in advance of pipe laying so that entire barrel will
bear uniformly on bedding.
January 2010
15122-6
NCWRF ODOR CONTROL-IQ MODS
DUCTILE IRON PIPE
10. Deflection of pressure pipe from a straight line or grade shall not exceed limits
specified in this Section. If alignment requires joint deflections in excess of allowable
deflection per joint, furnish, and install fittings or a sufficient number of shorter lengths
of pipe.
11. Provide piping, 3" and larger, with two short lengths of pipe, not to exceed 4 feet, for
first two joints outside a building or tank wall unless a greater number of joints is
shown on the Drawings.
12. Provide thrust restraint at horizontal and vertical deflection fittings and at tees, plugs,
tapping sleeves, and tapping saddles as specified in this Section.
13. At the end of each day's work, protect the open ends of all pipes against entrance of
animals, children, earth, or debris by bulkheads or stoppers. Perforate bulkheads or
stoppers to allow passage of water into installed pipeline so that flotation of pipeline is
prevented. Remove any earth or other material that gets into piping.
B. Pipe Bedding and Haunching shall be as specified in Section 02317 - Trenching of
Backfilling for Pipelines.
C. Joining
1. Clean ends of pipe laying pipe, and make each joint in a satisfactory manner in
accordance with the recommendations of the manufacturer of each particular type of
joint and as specified in this Section. Joint work shall be done by experienced
workmen.
2. Push or pull each length of pipe "home" into bell of previously installed pipe.
a. Push pipe by means of block and push bar. Do not use backhoe bucket, or
other mechanically, electrically, or hydraulically powered excavating equipment,
to join or move pipe to grade.
b. Do not push pipe if pushing will damage pipe being installed or pipe previously
installed. Where pushing will damage pipe or joint, use mechanical means
consisting of cable placed inside pipe with winch, jack, or come-along to pull
pipe "home".
c. Do not push pipe if joint gaskets are "rolled", cut, or otherwise damaged by
pushing.
3. Hold each length of pipe in place until trench and bedding are prepared for next pipe
section.
D. Setting Valves and Valve Boxes
1. Clean interiors of valves of foreign matter before installation. Tighten stuffing boxes.
Inspect valves in opened and closed positions to ensure parts are in working
condition.
2. Set buried valves and valve boxes plumb. Center valve boxes on valves, or valve
operators. Tamp backfill around each valve box to a distance of four feet on all sides
of box, or to undisturbed trench face if less than four feet.
E. Installation of Tracer Tape - Install 3" wide, metalized labeled tracer tape in ditch, over
piping, and 12" below finished grade. Install tracer tape in the following locations:
January 2010
15122-7
NCWRF ODOR CONTROL-Ia MODS
DUCTILE IRON PIPE
__<~._.__._.___ _ ~. ~.M ~_'_"_"
_. ..~.' ._~."._-~..
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1. Full length of pipe.
2. End of stub outs for future connections, including, but not limited to, plugged
branches of tees and wyes.
3. End of services not connected.
3.02 INSTALLATION OF EXPOSED PIPING
A. Alignment
1. Install pipe to accurate lines and grades with fittings, valves and appurtenances at
locations shown on Drawings and as specified.
2. Whenever possible, install piping parallel to walls and floors.
B. Installation
1. Clean debris, dirt, and other deleterious substances out of piping before installing
piping. Keep piping clean until accepted at completion of work. Do not place debris,
tools, clothing, lumber, or other materials in pipe during installation.
2. Inspect pipe, fittings, valves, and appurtenances for defects prior to installation.
3. Use proper implements, tools, and facilities. Do not damage piping. Do not damage
linings and coating.
4. Install piping so no undue strain is placed upon piping joints, equipment, or
structures.
C. Supports
1. Provide supports necessary to hold pipe and appurtenances at lines and grades
shown on Drawings.
2. Support piping so that there is no undue strain on piping joints, equipment, or
structures.
3. Provide hangers and supports where required to support pipe and fittings rn
accordance with the manufacturers recommendations.
D. Wall Pipe and Sleeves
1. Set each wall pipe and each sleeve cast in concrete to line and elevation sown on the
Drawings, + 0.01 foot.
2. Align sleeves so that piping passes through sleeves without contacting sleeves.
3. Align wall pipe and sleeves so that joints between pipes and wall pipes, and between
pipes and sleeves are water-tight.
3.03 SETTING APPURTENANCES
Install fittings, valves, hydrants, couplings, adapters, sleeves, saddles, and other plprng
appurtenances, in piping as indicated on the Drawings.
3.04 JOINT DEFLECTION
A. General: Deflect pipe and fittings as required to provide horizontal and vertical alignment
as shown and specified. Deflection of pipe and fitting joints shall not exceed limits
January 2010
15122-8
NCWRF ODOR CONTROL-IO MODS
DUCTILE IRON PIPE
specified in this Section. If alignment requires joint deflections in excess of allowable
deflection joint, furnish and install fittings or a sufficient number of shorter lengths of pipe.
B. Maximum Allowable Joint Deflection
1. Maximum Allowable Deflection for Ductile Iron Pipe and Fittings with ANSI/AWWA
C111/A21.11 Push-on Joints shall be as specified by the push-on joint manufacturer.
2. Maximum Allowable Deflection for Ductile Iron Pipe and Fittings with ANSI/AWWA
C111/A21.11 Mechanical Joints:
a. 4" Pipe and Fittings: 31 inches in 18 feet (80 18')
b. 6" Pipe and Fittings: 27 inches in 18 feet (7" 07')
c. 8" through 12" Pipe and Fittings: 20 inches in 18 feet (50 21 ')
d. 14" and 16" Pipe and Fittings: 13.5 inches in 18 feet (3035')
e. 18" and 20" Pipe and Fittings: 11 inches in 18 feet (30 00')
f. 24" and 30" Pipe and Fittings: 9 inches in 18 feet (20 23')
g. 36" through 48" Pipe and Fittings: 8 inches in 18 feet (20 00')
3.05 FLUSHING AND CLEANING
Flush and clean ductile iron piping as specified in Section 02503 - Cleaning and Flushing of
Piping Systems.
3.06 HYDROSTATIC TEST
Test ductile iron piping as specified in Section 02505 - Pressure Testing of Piping Systems.
3.07 DISINFECTION
Disinfect ductile iron piping used in potable water systems as specified in Section 02507 -
Disinfection of Potable Water Piping.
3.08 MANUFACTURER'S REPRESENTATIVE
A. Provide services of pipe and fitting manufacturer's representatives as required to obtain
correct piping installation, jointing, connections to structures, connections to existing
piping systems, and piping supports.
B. If an epoxy pipe lining is specified, the lining material manufacturer shall provide a
representative to inspect the installation, and to instruct and demonstrate to the
Contractor's personnel the procedure for field touch-up of the lining. The representative
shall be at the job site a minimum of one (1) day.
END OF SECTION
January 2010
15122-9
NCWRF ODOR CONTROL-IQ MODS
DUCTILE IRON PIPE
SECTION 15123
POLYVINYL CHLORIDE (PVC) AND
CHLORINATED POLYVINYL CHLORIDE (CPVC) PIPE
PART 1 - GENERAL
1.01 SECTION INCLUDES
Requirements for materials and installation of Polyvinyl chloride (PVC) and
Chlorinated polyvinyl chloride (CPVC) pipes and fittings as shown on the Drawings.
1.02 REFERENCES
A. ANSI Standards
1. ANSI B16.1
2. ANSI B16.3
Cast Iron Pipe Flanges and Flanged Fittings, Class 125
Malleable Iron Threaded Fittings, Class 150 and 300
B. ANSI/NSF
ANSI/NSF 61
Drinking Water System Components-Health Effects
C. ANSI/AWWA Standards
1. ANSI/AWWA C900 Polyvinyl Chloride (PVC) Pressure Pipe 4 In. Through
12 In. for Water Distribution
2. ANSI/AWWA C905 Polyvinyl Chloride (PVC) Water Transmission Pipe,
Nominal Diameters 14 In. Through 36 In.
D. ASTM Standards
1. ASTM A 193 Specification for Alloy-Steel and Stainless Steel Bolting Materials
for High-Temperature Service
2. ASTM A 194 Specification for Carbon and Alloy Steel Nuts for Bolts for High-
Pressure and
3. ASTM 01784 Specification for Rigid Poly (Vinyl Chloride) (PVC) Compounds
and Chlorinated Poly (Vinyl Chloride) (CPVC) Compounds
4. ASTM 01785 Specification for Poly (Vinyl Chloride) (PVC) Plastic Pipe,
Schedules 40, 80, and 120
5. ASTM 02464 Specification for Threaded Poly (Vinyl Chloride) (PVC) Plastic
Pipe Fittings, Schedule 80
6. ASTM 02467 Specification for Socket-Type Poly (Vinyl Chloride) (PVC)
Plastic Pipe Fittings, Schedule 80
7. ASTM 02564 Specification for Solvent Cements for Poly (Vinyl Chloride)
(PVC) Plastic Pipe and Fittings
January 2010
15123-1
NCWRF COMPLIANCE ASSURANCE PROJECT
pvc AND CPVC PIPE
8. ASTM 03139 Specification for Joints for Plastic Pressure Pipes Using Flexible
Elastomeric Seals
9. ASTM 04024 Specification for Reinforced Thermosetting Resin (RTR)
Flanges
10. ASTM F437 Specification for Threaded Chlorinated Poly (Vinyl Chloride)
(CPVC) Plastic Pipe Fittings, Schedule 80.
11. ASTM F439 Specification for Socket-Type Chlorinated Poly (Vinyl Chloride)
(CPVC) Plastic Pipe Fittings, Schedule 80
12. ASTM F441 Specification for Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic
Pipe, Schedules 40 and 80
13. ASTM F477 Specification for Elastomeric Seals (Gaskets) for Joining Plastic
Pipe
14. ASTM F493 Specification for Solvent Cements for Chlorinated Poly (Vinyl
Chloride) (CPVC) Plastic Pipe and Fittings.
E. AWWA Standards
AWWA Manual PVC Pipe - Design and Installation
1.03 SUBMITTALS
General: As specified in Section 01330 - Materials and Equipment and Section
01330 - Submittals.
PART 2 - PRODUCTS
2.01 GENERAL
Pipe materials furnished shall follow the requirements of Section 01600 - Materials
and Equipment. .
2.02 MANUFACTURERS OF PVC PIPING
A. PVC (C900 and C905) pipe and fittings shall be manufactured by:
1. Certain Teed Corporation
2. The Harrington Corporation
3. Or equal US manufacturer of C900 and C905 PVC pipe and fittings.
B. PVC and CPVC (Schedule 80) pipe and fittings shall be manufactured by:
1. Eslon Thermoplastics
2. Harvel Plastics, Inc.
3. NIBCO Inc.
4. Or equal US manufacturer of Schedule 80 PVC pipe and fittings.
January 2010
15123-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PVC AND CPVC PIPE
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-
2.03 PVC PIPE, FITTINGS AND APPURTENANCES, 4" THROUGH 36"
A. PVC Pipe 4" through 36" shall conform to ANSI/AWWA C905 and have a
pressure rating of 200 psi.
B. Fittings for pipe 4" through 36" shall be ductile iron fittings as specified in Section
15140 - Ductile Iron Pipe.
C. Pipe and Fitting Joints for Buried PVC Piping, 4" through 36"
1. Joints for buried ~pe and fittinqs, 4" throuqh 36" shall be restrained.
2. Restrained joints for buried pipe and fittings, 4" through 36" shall be as
follows:
a. Restrained push-on joint, or push-on joint with restraining device.
b. Restrained mechanical joint.
2.04 PVC AND CPVC PIPE, FITTINGS, AND APPURTENANCES, 3" AND SMALLER
A. PVC and CPVC Pipe, 3" and Smaller
1. PVC pipe shall conform to the pipe standards in ASTM 01785, Schedule 80
and to the material standards in ASTM 01784, Class 12454-B.
2. CPVC pipe shall conform to the pipe standards in ASTM F441, Schedule 80
and the material standards in ASTM 01784, Class 23447.
B. PVC and CPVC Fittings, 3" and Smaller
1. PVC fittings shall conform to ASTM 01784, Class 12454-B and the following
fitting standards:
a. Socket Solvent Weld Fittings: ASTM 02467.
b. Threaded Joint Fittings: ASTM 02464.
2. CPVC fittings shall conform to ASTM 01784, Class 23447 and the following
fitting standards:
a. Socket Solvent Weld Fittings: ASTM F439
b. Threaded Joint Fittings: ASTM F437
C. PVC and CPVC Pipe and Fitting Joints, 3" and Smaller
1. Joints for buried and above ground pipe and fittings, 3" and smaller shall be
solvent socket weld, threaded or flange joint.
2. Flanges for PVC and CPVC Pipe and Fittings, 3" and Smaller
a. Flanges shall be of like material that conforms to ASTM 04024
b. All flanges shall have flat faces that conform to the dimension standards
in ANSI B16.5, Ciass 150.
January 2010
15123-3
NCWRF COMPLIANCE ASSURANCE PROJECT
PVC AND CPVC PIPE
3. Primer for PVC and CPVC solvent socket weld pipe and fittings shall be
stabilized tetrahydrofuran, or equal supplied by the pipe and fitting
manufacturer.
4. Solvent Joint Cement
a. Solvent cement for PVC shall conform to ASTM 02564
b. Solvent cement for CPVC shall conform to ASTM F493
c. Cement for pipe and fittings in bleach service shall be specifically
approved by the manufacturer for use in sodium hypochlorite solution.
d. Solvent cement shall be provided in containers no larger than one pint
and equipped with a dauber secured to the lid.
D. Coatings for exposed PVC and CPVC Pipe and Fittings, 3" and Smaller: Coat
exposed PVC pipe and fittings as specified in Section 09900 - Paint and
Coatings.
2.05 JOINT ACCESSORIES
A. Gaskets
1. Flange joint gaskets shall be full face.
2. Gasket Material
a. Joints Outside of Buildings: 1/8" neoprene.
b. Joints Inside of Enclosed Buildings: 1/8" neoprene or red rubber.
3. Union and Strainer Gaskets: Viton.
B. Bolts, Studs, and Nuts
1. Bolts, Studs, and Nuts for Flange Joints
a. Bolts for flange joints shall be semi-finished, regular hexagon head cap
screws with UNC threads. The bolts shall be AISI 316 stainless steel
that meets the requirements of ASTM A193, Grade B8M.
b. Studs for flange joints shall have UNC threads and extend through the
nuts a minimum of )1..". The studs shall be AISI 316 stainless steel that
meets the requirements of ASTM A 193, Grade B8M.
c. Nuts for flange joints shall be semi-finished regular hexagon nuts with
UNC threads. The nuts shall be AISI 316 stainless steel that meets the
requirements of ASTM A194, Grade 8M.
2. Bolts and Nuts for Mechanical Joints
a. Bolts for mechanical joints shall be tee-head type. The bolts shall be
cast iron that meets the requirements of ANSI/AWWA C111/A21.11.
b. Nuts for mechanical joints shall be hexagon type. The nuts shall be
cast iron that meets the requirements of ANSI/AWWA C111/A21.11.
January 2010
151234
NCWRF COMPLIANCE ASSURANCE PROJECT
PVC AND CPVC PIPE
_ ,._.u. ',. "__ .., __..."n'._______.__.,
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C. Threaded Joint Sea/ant - Sealant material for the threaded joints shall be Teflon
tape, Y:," wide. Tape thickness shall be as recommended by manufacturer of
threaded fittings.
2.06 DOUBLE CONTAINMENT PIPE SYSTEMS
A. Contractor shall provide all double contained piping, fitting and valving for the
bleach piping as shown on the Drawings.
1. All bleach piping shall be CPVC.
a. Manufacturer: Eslon Thermoplastic, Harvel Plastic or equal.
b. All chemical piping, fitting and valving shall be schedule 80 CPVC and
all O-rings, seats, seals and gaskets shall be Viton.
c. All cleaner and glue shall be industrial grade, pressure rated, silica free
and approved for use with NaOCI.
d. Pressure test per manufacturer testing procedures at 150% working
pressures.
2. All double contained piping system shall be schedule 80 CPVC carrier pipe
and schedule 80 CPVC containment pipe.
a. Manufacturer: Custom Guard (IPEX) or equal. (Harrington Industrial
Plastics Inc.)
(1) Contractor shall provide double contained piping system that must
be compatible with leak detection system.
(2) Contractor must coordinate and supply all piping for the leak
detection system.
b. ASTM: 01784 and F-441.
c. Provide sufficient termination fitting with tap and termination fittings for
pressure testing system.
d. All gaskets, seals, o-rings, & seats shall be Viton.
e. The leak detector panels and sensors are specified in Division 17. The
Contractor shall:
(1) Provide tees and saddles for the leak detector sensors
(2) Provides tee and fittings and valves for the drains.
f. All cleaner and glue shall be industrial grade, pressure rated, silica free
and approved for use with NaOCI.
g. Pressure test per manufacturer testing procedures at 150% working
pressures.
January 2010
15123-5
NCWRF COMPLIANCE ASSURANCE PROJECT
PVC AND CPVC PIPE
2.07 PRE-MANUFACTURED CHANNEL SYSTEM FOR DOUBLE CONTAINED PIPE
SYSTEMS
A. The Contractor is responsible determining the length of the channel system, core
drill the tops for piping entrances, installing pipe supports, installing pipes,
excavating, providing & installing gravel bedding, support blocks, backfilling and
grading as shown on the Drawings.
B. The manufacturer shall be: Plastibeton, Oldcastle Precast, Inc. (239.574.8896)
or approved equal.
C. Models: 2016 for dual pipes and 1216 for single pipe, as shown on the Drawings.
D. Standard Length: 9'-10 1/8"
E. Material: High Density Polymer Concrete with excellent resistance rating for 15%
NaOCI solution.
F. Covers:
1. Rated for H20 loading
2. Weight/Model: 115 Ib I 2016 and 82 Ib 11016
3. Number of covers: 3 per standard length channel
4. Protection Rods:
a. Material/Number: Stainless steel/6 bars per std. length of channel
b. Size: As determined by the manufacturer
5. Two hand holes per cover
G. Pipe Supports:
1. Manufacturer: Underground Devices, Inc.
2. Catalog NumberlSize: MM18"
3. Spacing at 5 foot interval
4. Fasteners:
a. SS Drop -In anchors Catalog Number FSRM-38
b. SS Hex head cap screw with washer
c. Pipe Strapping: each support wI )1," wide wire tie
PART 3 - EXECUTION
3.01 INSTALLATION OF BURIED PVC PIPE
January 2010
15123-6
NCWRF COMPLIANCE ASSURANCE PROJECT
pvc AND cPVC PIPE
,..---.----., "
>------
....."_..~..~.-._"'--" ."..- .-" .~,--_.,-,-" -,-
A. Laying Piping
1. Install pipe in accordance with AWWA -C605 and Section 02317 -
Trenching, Bedding and Backfill for Pipe. Provide proper implements,
tools, and facilities for safe and expeditious prosecution of Work.
2. Lay and maintain pipe to lines shown on the Drawings, except as
specified in this Section. Lay and maintain pipe to grade shown on
Drawings or to minimum depth specified in this Section. Install fittings
and valves in locations shown on the Drawings.
3. Where piping is to be constructed parallel to and close to existing buried
utilities, the exact location of which is unknown, adjust alignment of piping
to least interfere with existing buried utilities, unless otherwise shown or
specified.
4. Separation of utilities and minimum depth of cover shall be as specified
by local ordinance.
5. Do not lay pipe in water or when trench or weather conditions are
unsuitable for proper installation.
6. Lay each pipe section in a firm foundation of bedding material.
7. Bell Holes: Excavate bell holes in advance of pipe laying so that entire
barrel will bear uniformly on bedding.
8. Lower pipe, fittings, and valves into trench by hand, by means of hoists or
ropes, or by other suitable tools or equipment that will not damage
products, coatings, or linings. Do not drop or dump pipe, fittings, or
valves into the trench.
9. Use laser beam equipment, surveying instruments, or other proven
techniques to maintain accurate alignment and grade.
10. Provide piping, 3" and larger, with two short lengths of pipe, not to
exceed 4 feet, for first two joints outside a building or tank wall unless a
greater number of joints is shown on the Drawings.
11. Provide thrust restraint at horizontal and vertical deflection fittings and at
tees, plugs, tapping sleeves, and tapping saddles as specified in ASTM
03139.
12. Properly protect open excavations at all times. At the end of each day's
work, protect the open ends of all pipes against entrance of animals,
children, earth, or debris by bulkheads or stoppers. Perforate bulkheads
or stoppers to allow passage of water into installed pipe line so that
flotation of pipe line is prevented. Remove any earth or other material
that gets into piping.
B. Pipe Bedding and Haunching shall be as specified in Section 02317 - Trenching
and Backfilling for Pipelines.
C. Joining
January 2010
15123-7
NCWRF COMPLIANCE ASSURANCE PROJECT
pvc AND CPVC PIPE
1. Clean ends of pipe before laying pipe, and make each joint in a satisfactory
manner in accordance with the recommendations of the manufacturer of
each particular type of joint and as specified. in this Section. Joint work shall
be done by experienced workmen.
2. Push or pull each length of pipe "home" into bell of previously installed pipe.
a. Push pipe by means of block and push bar. Do not use backhoe bucket,
or other mechanically, electrically, or hydraulically powered excavating
equipment, to join pipe or move pipe to grade.
b. Do not push pipe if pushing will damage pipe being installed or pipe
previously installed. Where pushing will damage pipe or joint, use
mechanical means consisting of cable placed inside pipe with winch, jack,
or come-along to pull pipe "home".
c. Do not push pipe if joint gaskets are "rolled", cut, or otherwise damaged
by pushing.
3. If a restrained mechanical joint or mechanical joint is required, install the
joint.
4. Hold each length of pipe in place until trench and bedding are prepared for
next pipe section.
D. Setting Valves and Valve Boxes
1. Clean interiors of valves of foreign matter before installation. Tighten
stuffing boxes. Inspect valves in opened and closel:! positions to insure
parts are in working condition.
2. Set buried valves and valve boxes plumb. Center valve boxes on valves, or
valve operators. Tamp backfill around each valve box to a distance of four
feet on all sides of box, or to undisturbed trench face if less than four feet.
E. Installation of Tracer Tape for Buried Piping: Install 3" wide labeled metalized
tape in ditch, over piping, and 12" below finished grade. Install metallic tracer
tape in the following locations:
1. Full length of pipe
2. End of stub outs for future connections, including, but not limited to, plugged
branches of tees and wyes.
3. End of services not connected.
3.02 INSTALLATION OF EXPOSED PVC PIPING
A. Alignment
1. Install pipe to accurate lines and grades with fittings, valves and
appurtenances at locations shown on Drawings and as specified.
2. Wherever possible, install piping parallel to walls and floors.
B. Installation
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NcWRF COMPLIANCE ASSURANCE PROJECT
pvc AND CPVC PIPE
1. Clean debris, dirt, and other deleterious substances out of piping before
installing piping. Keep piping clean until accepted at completion of work.
Do not place debris, tools, clothing, iumber, or other materials in pipe during
installation.
2. Inspect pipe, fittings, valves, and appurtenances for defects prior to
installation.
3. Use proper implements, tools, and facilities. Do not damage piping or its
linings and coating.
4. Install piping so no undue strain is placed upon piping joints, equipment, or
structures.
C. Supports
1. Provide supports necessary to hold pipe and appurtenances at lines and
grades shown on Drawings
2. Support piping so that there is no undue strain on piping joints, equipment,
or structures.
3. Provide hangers and supports where required to support pipe and fittings in
accordance with manufacturer's recommendations.
3.03 SETTING APPURTENANCES
A. Install fittings, valves, hydrants, couplings, adapters, sleeves, saddles, and other
piping appurtenances, in piping as indicated on the Drawings.
3.04 JOINT DEFLECTION
A. General
1. Defiect pipe and fittings as required to provide horizontal and vertical
alignment as shown and specified.
2. Deflection of pipe and fitting joints shall not exceed limits specified in this
Section. If alignment requires joint deflections in excess of allowable
deflection joint, furnish and install fittings or a sufficient number of shorter
lengths of pipe.
B. Maximum Allowable Joint Deflection
specified maximum by the pipe
manufacturer.
maximum joint deflection shall be as
manufacturer or the restrained joint
3.05 FLUSHING AND CLEANING
A. Flush and clean PVC and CPVC piping used for potable water, wastewater,
sludge or reclaimed water as specified in Section 02503 - Cleaning and Flushing
of Piping Systems.
B. Purge PVC and CPVC used for chemical piping with dry compressed air (DCA) or
nitrogen (N) as indicated in the following table:
January 2010
15123.9
NCWRF COMPLIANCE ASSURANCE PROJECT
PVC AND CPVC PIPE
Service Purge Gas Dew Point
Alum DCA _400 F
Chlorine Gas N -400 F
Chlorine Solution DCA _400 F
Pol mer DCA _400 F
Pol mer Solution DCA _400 F
Sample DCA -400 F
Sodium Hvdroxide DCA _400 F
Sulfur Dioxide Gas N _400 F
Sulfur Dioxide Solution DCA _400 F
3.06 HYDROSTATIC TEST
Test PVC and CPVC piping as specified in Section 02505 - Pressure Testing of
Piping Systems.
3.07 DISINFECTION
A. Disinfect PVC pipe used in potable water systems as specified in Section 02507
- Disinfection of Potable Water Piping.
3.08 MANUFACTURERS' REPRESENTATIVE
A. Provide services of pipe and fitting manufacturers' representatives as required to
obtain correct piping installation, jointing, connections to structures, connections
to existing piping systems, and piping supports.
B. Provide assistance of pipe and fitting manufacturers' representatives at no
additional cost to the Owner.
END OF SECTION
January 2010
15123-10
NCWRF COMPLIANCE ASSURANCE PROJECT
PVC AND CPVC PIPE
.-..--.-- ~~ .. ~ ,,-
-..---.-.-,.,.
SECTION 15141
HOUSEKEEPING PADS, CONCRETE
PART 1 -- GENERAL
1.01 RELATED DOCUMENTS
A. Drawings and general provisions of Contract, including General and Special Conditions and
Division-1 Specification sections, apply to work of this section.
1.02 SCOPE
A. Provide concrete housekeeping pads for the equipment listed in this section. This work shall
be performed by the concrete installer.
1.03 RELATION TO OTHER WORK
A. Refer to the section, "General Mechanical Provisions", for related requirements. Refer to
other sections of Division 15 and to all other applicable portions of the drawings and
specifications.
B. This section directly related in particular to sections (which mayor may not be included in
this division) which describe concrete in other divisions.
PART 2 -- PRODUCTS
2.01 GENERAL
A. All concrete and steel for concrete housekeeping pads shall comply with those sections of
the specification division describing concrete and steel.
2.02 HOUSEKEEPING PADS
A. Provide reinforced (#4's @ 12" both ways with 1-1/2" top cover) concrete housekeeping
pads for each individual machine. Pads shall extend six inches beyond the machine bases
in all directions and be continuous beneath the machine. Pads shall have chamfered edges
and shall be poured and finished smooth and level to insure proper and continuous support
for the bearing surfaces of the machine.
B. Coordinate exact length and width of each pad and any penetrations that may be necessary
for piping or conduit with the actual equipment approved for use on the project.
.
PART 3 -- EXECUTION
3.01 GENERAL
0:15141 Housekeeping Pads Concrete.doc:07-10-09
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15141-1
NCWRF COMPLIANCE ASSURANCE PROJECT
HOUSEKEEPING PADS. CONCRETE
A. Refer to the section describing vibration isolation for equipment which is to rest on concrete
housekeeping pads.
3.02 PAD HEIGHTS
A. Provide 4" high concrete pads for the following:
1. All equipment specified or shown to be on a concrete pad if no height is given.
2. Air handlers.
END OF SECTION
0:1-5141 Housekeeping Pads Concrete.doc:07-10-09
January 201 0
15141-2
NCWRF COMPLIANCE ASSURANCE PROJECT
HOUSEKEEPING PADS, CONCRETE
-~-
-~~~_..
SECTION 15161
VIBRATION ISOLATION EQUIPMENT
PART 1 - GENERAL
1.01 RELATED DOCUMENTS
A. Drawings and general provisions of Contract, including General and Special Conditions and
Division-1 Specification sections, apply to work of this section.
1.02 SCOPE
A. Provide vibration isolation supports for all equipment and piping as may be required to
prevent transmission of vibration to building structure. This shall include air handling units,
fans and similar items.
1.03 RELATION TO OTHER WORK
A. Refer to the section, "General Mechanical Provisions", for related requirements. Refer to
other sections of the Division 15 and to all other applicable portions of the drawings and
specification.
1.04 SHOP DRAWINGS
A. Refer to Section entitled "General Mechanical Provisions". Submittal data shall show type,
point loading information, size and deflection of each isolator proposed and any other
information as may be required for the Architect/Engineer to check isolator selections for
compliance with specifications. Include clearly outlined procedures for installing and
adjusting the isolators.
1.05 MANUFACTURERS
A. Products of the following manufacturers will be acceptable, provided they comply with all of
the requirements of this specification: Consolidated Kinetics; Mason Industries; Amber-
Booth; Keflex; Flexonics; Vibration Eliminator Company or equivalent. Any model numbers
listed are from one or more of these manufacturers and are given to provide an example of
item(s) required.
1.06 OTHER REQUIREMENTS
A. All vibration isolation equipment shall be both recommended by the manufacturer and
approved by the Architect/Engineer for each particular application on this project.
PART 2 -. PRODUCTS
2.01 BASIC REQUIREMENTS
0:15161 Vibration Isolation Equipment.doc:07-10-09
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15161-1
NcWRF COMPLIANCE ASSURANCE PROJECT
VIBRATION ISOLATION EQUIPMENT
A. Unless otherwise noted, neoprene vibration isolators shall be used for all equipment. It shall
be the responsibility of isolation manufacturer to determine the amount of deflection required
for each isolator to achieve optimum performance, prevent the transmission of objectionable
vibration and meet noise criteria referenced herein.
PART 3 -- EXECUTION
3.01 GENERAL
A. All isolators shall be installed in strict accordance with the manufacturer's instructions and
shall be properly adjusted prior to requesting final inspection or the performance of any
vibration testing specified.
B. Each item of equipment (machinery, piping, etc.) which is provided with vibration isolation
equipment shall rest in its intended, proper operating position (i.e; exactly level, etc.) after
installation of vi brat ion isolation equipment. Approval of such vibration isolation equipment
by Engineer shall not relieve the Contractor of this responsibility.
END OF SECTION
0:15161 Vibration Isolation Equipment.doc:07-10-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
VIBRATION ISOlATION EQUIPMENT
SECTION 15210
FRP DUCTWORK
PART 1 - GENERAL
1.01 REQUIREMENTS
A. Requirements to provide complete fiberglass reinforced plastic (FRP) duct systems as
indicated. The duct systems shall include, but not be limited to, the odor control
systems (inlet and discharge ducts) as shown on Drawings. The duct system shall
include, but not be limited to, dampers, drains, sample connections, strapping, supports
and modifications to existing ducts. Drawings do not include all offsets, fittings, and like
items; however, these items shall be installed as required for the actual project
conditions. Additionally, the quantity, location and fit of ducting must be field determined
after the odor control units are set in-place on site.
1.02 RELATED SECTIONS
The following Specification Sections are provided for general reference only and are not
intended to identify all Contract requirements.
A. Section 01330 - Submittals
B. Section 01600 - Materials and Equipment
C. Sections 13200 and 13201 - Odor Control Systems
D. Section 15000 - Piping, General
E. Section 15020 - Supports and Anchors for Exposed Piping
1.03 SUBMITTALS
A. General: As specified in Section 01330 entitled "Submittals" and Section 01600 entitled
"Materials and Equipment".
B. A registered Professional Engineer shall certify in writing that all materials supplied have
been tested in accordance with these specifications using referenced ASTM Standards
and Test Methods. The certification must also state that the materials are in
conformance with this specification.
C. Static pressure loss calculations from each unit process shall be provided. Flow rates
shall be based on the FRP Fans, and Odor Control Systems.
D. The Supplier shall be responsible for submitting calculations, signed and sealed by a
Professional Engineer registered in the State of Florida, verifying the suitability of the
proposed supports and compliance with all applicable regulatory requirements.
E. Manufacturer's written warranty.
1.04 REFERENCED STANDARDS
0:15210 FRP DUCTWORK.DOC:09-30-09
January 2010
15210-1
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
A. ASTM Standards
C581
C582
0618 -
0638
0695 -
0790
0883 -
01180 -
01599-
01693 -
02150 -
02412 -
02563 -
02583 -
02584 -
02837 -
02996 -
03567 -
03982 -
Test for Chemical Resistance of Thermosetting Resins used in Glass Fiber
Reinforced Structures.
Specification for Reinforced Plastic Laminates for Self Supporting Structures.
Conditioning Plastics and Electrical Insulating Materials for Testing.
Test for Tensile Properties of Plastics.
Test for Compressive Properties of Rigid Plastics.
Test of Flexural Properties of Plastics and ElectricallnsuJating Materials.
Definition of Terms Relating to Plastics.
Test for Bursting Strength of Round Rigid Plastic Tubing.
Test for Short-Time Rupture Strength of Plastic Pipe, Tubing and Fittings.
Test Methods for Environmental Stress-Cracking of Ethylene Plastics
Specification for Woven Roving Glass Fabric for Polyester Glass Laminates
Test for External Loading Properties of Plastic Pipe by Parallel-Plate Loading.
Recommended Practice for Classifying Visual Defects in Glass - Reinforced
Plastic Laminate Parts.
Test for Indentation Hardness of Plastics by means of Barcollmpressor.
Test for Ignition Loss of Cured Reinforced Resins
Method for Obtaining Hydrostatic Design Basis for Thermoplastic Pipe
Materials.
Specification for Filament-Wound "Fiberglass" (Glass-Fiber-Reinforced-
Thermosetting-Resin) Pipe
Practice for Determining Dimensions of "Fiberglass" (Glass-Fiber Reinforced
Thermosetting Resin) Pipe and Fittings
Contact Molded "Fiberglass" (Glass Fiber Reinforced Thermosetting Resin)
Duct and Hoods
B. Other Standards:
Standard Building Code
National Fire Protection Agency No. 91
MIL-M-15617 Mats, Fibrous Glass for Reinforcing Plastics
BS Voluntary Product Standard PS 15-69 Custom Contact-Molded Reinforced Polyester
Chernical Resistant Process Equipment
Air Movement and Control Association, Inc. (AMCA).
ASME RTP-1
Arnerican Society of Mechanical Engineers
1.05 QUALITY ASSURANCE
0:15210 FRP DUCTWORK.DOC:09-30-09
January 2010
15210-2
NcWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
A. Inspection for shipping damage shall be performed at the job site prior to ductwork
installation. Damaged ductwork and fittings shall not be used.
B. A random selection of 10% of the duct joints shall be tested for proper resin cure before
the system is tested or used. Proper resin cure shall be a minimum of 97% of
theoretical cure as determined by a differential scanning calorimeter.
C. All fiberglass duct field joints shall be made by fabricators who have been certified by
the duct manufacturer. Certification by the manufacturer shall be in compliance with
ANSI B31.3 Section A328.2, for the type of joint being made.
1.06 WARRANTY
A. Manufacturer shall provide a written full warranty covering all labor and materials for a
period of two years after the date of Substantial Completion.
PART 2 - PRODUCTS
2.01 GENERAL
A. Fiberglass reinforced plastic duct shall be used to convey and distribute air, foul or
corrosive exhaust air as shown on the Drawings.
B. Ductwork shall have ports and valves as needed for fiow measurement to balance
control systems.
2.02 MANUFACTURERS
A. FRP Duct shall be manufactured by:
1. Indusco Environmental Services, Inc., or
2. Industrial Plastic Systems, Inc., or
3. Belco Manufacturing Co., Inc.
2.03 MATERIALS
A. FRP Duct (For Exposed Exterior Installation)
1. All straight lengths shall be manufactured utilizing the filament winding method of
fabrication.
2. All laterals, wyes, tees, and crosses shall be constructed from straight lengths of
filament wound ducting and shall be joined by hand lay-up type laminates.
3. All elbows shall be manufactured by utilizing the hand lay-up method of fabrication.
4. Hoop Winding method shall be utilized for filament winding.
0:15210 FRP DUCTWORK.DOC:09-30-09
January 2010
15210-3
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
5. The interior liners and/or corrosion barrier shall be 100 mil thick for each laminate.
With 10-20 mils resin reinforced with "C" veil followed by 80-90 mils reinforced with
non-continuous chop strand mat having maximum glass reinforcement of 27% +/-
5%.
6. After ductwork is assembled in spooled segments, all duct and fittings will receive a
12 mil exterior gel with UV-inhibitors. The color of the gel coat shall be submitted
for approval.
7. The duct wall thicknesses are based on duct without stiffeners with 5 to 1 design
factor of safety. Duct dimensions shall be as listed below:
Flange
Inside MinWall Outside Flange Bolt Circle Bolt Hole No. of
Diameter Thickness Diameter Thickness Diameter Diameter Bolt Holes
(Inches) (Inches) (Inches) (Inches) (Inches) (Inches)
6 0.188 10-3/8 1/4 9 7/16 8
8 0.188 12-3/8 1/4 11 7/16 8
10 0.188 14-3/8 3/8 13 7/16 12
12 0.188 16-3/8 3/8 15 7/16 12
14 0.188 18-3/8 3/8 17 7/16 12
16 0.188 20-3/8 1/2 19 7/16 16
18 0.188 22-3/8 1/2 21 7/16 16
20 0.188 24-3/8 1/2 23 7/16 20
24 0.188 28-3/8 1/2 27 7/16 20
26 0.188 30-3/8 1/2 29 7/16 24
30 0.250 34-3/8 1/2 33 7/16 28
36 0.250 40-3/8 1/2 39 7/16 32
42 0.250 46-3/8 5/8 45 7/16 36
48 0.250 54-3/8 5/8 52 9/16 44
54 0.313 60-3/8 5/8 58 9/16 48
60 0.313 66-3/8 5/8 64 9/16 52
72 0.375 78-3/8 5/8 76 9/16 60
8. All ducts shall be designed for not less than 60 inches water column pressure and
10 inches water column vacuum.
9. Maximum deflection of rectangular ducts under dead load and operating conditions
shall not exceed 1 percent of the width of the longest side.
0:15210 FRP DUCTWORKDOC:09-30-09
January 2010
15210-4
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
10. The Type A resin used shall be selected to meet the exposures and temperatures
of the air to be exhausted. Fillers other than those added for flame retardance
when required, shall not be allowed, and should not exceed 5% by weight. Flame
spread rating shall be 25 or less per ASTM E-84.
2.04 Structural layer shall be filament wound of Type A premium grade isophathalic polyester
resin and glass as required for the specific working pressure, bedding conditions, and
design conditions.
A. FRP Duct manufacturer must coordinate final duct dimensions with installed odor control
units and aeration tank covers. Duct manufacturer shall verify the following:
1. Existing ducting locations, including outlets from aeration tank covers.
2. New Odor Control unit's location.
3. New Equalization Tank outlet location.
B. The Contractor shall make all necessary duct modifications and provide all necessary
new FRP ducting to complete the duct work for the following:
1. Modify the existing aeration tank aluminum covers to accommodate the odor control
duct work penetration size shown on the Drawings.
2. Connecting the new duct work to the aerations tank covers as shown on the
Drawings.
3. Connecting the new ductwork to the equalization tank cover.
4. Installing FRP dampers in new duct as shown on the Drawings.
2.05 FRP DUCT SUPPORTS AND STRAPPING
A. The FRP Duct Supplier shall furnish and install duct supports and strapping for the
ducting to the odor control units as shown on the Drawings. The support designs shall
be suitable for the loads imposed including loads determined based on a wind speed of
150 (3 second gust speed), importance factor of 1.0, and exposure category per FBC
requirements. The Supplier shall be responsible for submitting calculations, signed and
sealed by a Professional Engineer registered in the State of Florida, verifying the
suitability of the proposed supports (as shown on the Drawings) and compliance with all
applicable regulatory requirements.
2.06 FLANGE CONNECTIONS AND ACCESSORIES
A. Flange gasket shall be full face EPDM, 1/8 in minimum thickness.
B. Flange hex head nuts, washers and bolts shall be Type 316 stainless steel.
C. Specials:
0:15210 FRP DUCTWORK.DOC:09-30.09
January 2010
15210-5
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
1. For applications requIring fabricated duct specialties, filament wound duct with
welds according to NBS PS 1569 for the specified pressure and temperature rating
shall be used.
2. Supports and hangers: FRP ductwork shall be supported at intervals no greater
than 10-foot centers. Supports and hangers shall transmit all ductwork loads into
the building structural frame or the odor scrubber structures through a system of
intermediate beams and struts as necessary to accommodate requirements of
these specifications.
3. The Odor Control Systems Supplier shall provide angle clips on the scrubber
structures to support odor control ducts. The angle clip locations and configuration
shall be provided by the Contractor and shall be coordinated with the shop drawings
for the odor control ducting and the shop drawings for the scrubber structures,
which will be provided by the Odor Control Systems Supplier.
4. Chain wheel operators shall be as per Section 15110.
D. Dampers - Butterfly-type. Contractor shall provide and install butterfly-type, flanged
dampers as shown on the Contract Drawings.
1. Manufacturer: Belco Manufacturing Co., Inc. Model 204, Indusco Environmental
Services, Inc. Model IE104 as modified below, or approved equal from U.S.
manufacturer.
2. NumberlSize: (The following list is not guaranteed. The Contractor shall provide
the size and quantity as shown on the Contract Drawings.)
a. MLE Aeration Basins
(1) Two (2) 48", worm gear actuated, hand wheel operated manual damper,
one (1) at each aeration odor control fan inlet.
(2) Twelve (12) 20-inch, worrn gear actuated, hand wheel operated manual
dampers, one for each basin.
(3) Three (3) 4" dampers with lockable quadrant lever operator.
b. Pretreatment & Sludge Tanks
(1) One (1) 48" worm gear actuated, manual damper with wheel operator.
(2) Two (2) 36" worm gear actuated, manual dampers with wheel operators.
(3) Seven (7) 24" worm gear actuator manual dampers.
i. Four (4) with wheel operators.
ii. Three (3) with chain wheel operators.
Iii. One (1) with extended chain wheel operators.
(4) Two (2) 18" worm gear activiated dampers with chain wheel operators.
0:15210 FRP DUCTWORK.DOC:09-30-09
January 2010
15210-6
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
(5) Five (5) 10" dampers with lockable quadrant hand lever operators.
3. Material: Hetron 922 Fiberglass reinforced resin wI 20 mil C-veil interior with
minimum wall thickness of 3/16"
4. Dampers shall be designed and certified to be bubble tight with zero leakage.
5. Type 316 stainless steel axle with FRP blade.
6. Axle bearings to be PTFE machined bearing encapsulated in fiberglass.
7. EPDM 0 rings, blade seal and shift seal.
8. Blade stop with EPDM gasket, full circumferential, wiper type.
9. Minimum of 2" shaft adapter.
10. Flanges shall be as per ASTM D-3982 with drilling and thickness per Table 2.
11. Damper shall be designed for exterior use in Florida environment. Gel coat shall be
suitable for use in sunlight and tropical environment.
12. Each damper shall have enclosed worm gear actuator.
E. Dampers - Backdraft. Contractor shall provide and install FRP horizontal, duct blade
backdraft damper as shown on the Contract Drawings.
1. Backdraft damper shall be as manufactured by Belco Manufacturing Co or
approved equal from U.S. manufacturer.
2. Materials of construction shall be required for butterfly-type dampers.
3. Damper shall have adjustable counterweight of all Type 316 stainless steel
construction.
F. Condensate Drains: Provide 2" diameter drains w/PVC ball valves on bottom of the duct
as shown on the Drawings. Also refer to Part 3.09 in this Section.
G. Provide permanent air sampling connections on inlet and discharge ducts to each odor
control unit.
1. Coordinate locations, types and requirements with H2S monitoring manufacturer.
2. Connection shall be 16" diameter and 4' long duct at a 450 degree angle to the
longitude axes of the inlet and discharge pipe, as shown on the Drawings.
a. Provide flange with sample connection piping, valving and tubing adapters as
required by monitor manufacturer and as shown on the Drawings.
H. Provide pressure taps:
0:15210 FRP DUcTWORK.DOC:09-30-09
January 2010
15210-7
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
1. Inlet ducts to Odor units provide tap with Y, NPT PVC coupling, valve and W PVC
tubing adapter.
PART 3 - EXECUTION
3.01 INSPECTION
A. Prior to ductwork fabrication, verify if all ductwork as dimensioned and generally shown
will satisfactorily fit allocated spaces. Take precautions to avoid space interferences
with beams, columns, joists, pipes, lights, conduit, other ducts, equipment, etc. Notify
Engineer if any spatial conflicts exist, and then obtain Engineer's approval of necessary
routing. Make any such necessary revisions.
B. The fabricator shall have established quality control standards and procedures
implemented by an established quality control staff.
C. Inspection by the Engineer, or his failure to provide inspection, shall not relieve the
fabricator of his responsibility to provide materials, perform the work and deliver finished
products in accordance with the specifications. Advance notice of 24 hours must be
given prior to the time an item that will be available for inspections.
D. The Engineer shall have the right to sample and test any of the specimens even after
the delivery, and to reject any item represented by the specimen which fails to comply
with the specified requirements.
3.02 FABRICATION
A. Reinforced plastic laminates shall be of high quality with no areas that are excessively
resin-rich or poorly wetted-out. The laminate shall be dense, without dry spots or
cracked or crazed surfaces. Small air bubbles should be evenly distributed. Clusters of
large air bubbles in the laminate will be cause for rejection.
B. The outer surface of the laminate shall be smooth and free from exposed glass fibers.
All reinforcing fibers exposed by cross-cutting through a section of the laminate must be
protected by coating with resin.
C. Each part shall be checked visually without the aid of magnification. Visual examination
of a laminate should be made prior to the addition of any colorants or pigments.
Inspection should be made by placing a light behind the wall or section of the structure
to permit the detection of air bubbles, dry spots, internal cracking, or other conditions
that would indicate possible weaknesses in the structure.
D. The edges of sections cut from the fabricated piece at manhole positions, nozzle
locations, etc., should be inspected to determine the depth of the resin-rich inner layer
and to check the placement and type of structural glass reinforcement.
E. The outside pigment coat shall not be applied until the ends of the lay-up and the edges
of the cut-outs have been checked for possible de-lamination.
0:15210 FRP DUCTWORK.DOC:09-30-09
January 2010
15210-8
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
F. The plastic laminates exposed to liquid chemicals or corrosive air service should be
uniform and free from cracks, holes, blisters, dry spots, chalking and other similar
defects. The laminates shall be essentially free of voids or air pockets.
G. Defects in exterior or areas of laminates may be repaired except where such repairs
might affect the serviceability of the laminate. For critical areas, the repaired surface
should not exceed 1 percent of the unit surface area.
H. Defects shall be repaired by sanding or grinding to remove defective areas, followed by
recoating with an overlay of resin and reinforcement consisting of a minimum of one
layer of 1.5 ox chopped strand glass mat plus a glass surfacing mat. All repaired areas
shall be built up until the surface is at least flush and the original thickness is regained.
Pits or other small, deep defects first shall be filled with resin putty before making the
overlay.
3.03 MATERIAL TESTING
A. Tests shall be made on specimens cut from waste areas such as manhole or nozzle
cutouts. Otherwise, the specimens shall be cut from flat laminates prepared in the
same construction, by the same techniques, from the same resin compound batch and
preferably at the same time as the product. In all cases the average value of the
indicated number of specimens shall be used to determine conformance with the
detailed requirements. The physical properties shall be tested as follows:
1. Glass Content: The glass content shall be determined in accordance with ASTM
D2584 Test for Ignition Loss of Cured Reinforced Plastics except that specimens
tested shall be 1-inch square in area and low temperature pre-ignition prior to
replacement in muffle furnace is recommended. The average for five specimens
shall be considered to be the glass content.
2. Barcol Hardness: The Barcol Impressor (Model GYZJ 934-1) shall be used for
determining hardness. Calibration of the Barcol instrument shall be verified by
comparing with blanks having known readings of 85-87 and 42-46. Ten readings of
the clean resin rich surface shall be made. After eliminating the two high and the
two low readings, the average of the remainder shall be the reported hardness
reading Refer to Method 02583.
3. Wall Thickness: Measure with a micrometer, caliper or gauge with graduations of
0.01 inch or less and make a series of four measurements equally spaced around
the circumference. The average of all measurements shall meet or exceed the
minimum value specified in Table 2, and each individual measurement shall be at
least 90 percent of the value shown.
4. The following additional test shall be conducted on hand lay up laminate:
a. Flexural Strength and Flexural Modulus Target: Procedure "A" of ASTM Method
0790, Test for Flexural Properties of Plastics, except that the specimens shall be
the actual thickness of the fabricated article and the width shall be one-inch.
Other dimensions of specimens shall be as designated in Table 1 of Method
0:15210 FRP DUCTWORK.DOC:09-30-09
January 201 0
15210.9
NcWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
0790. Specimens shall not be machined on the surface. Tests shall be made
with resin-rich surface I compression using five specimens.
b. Tensile Strength: ASTM Method 0638. Test for Tensile Properties of Plastics,
except that the specimens shall be the actual thickness of the fabricated article
and the breaking distance shall be at least one inch. Other dimensions of
specimens shall be as designated in Figure 1 of Method 0638 for Type I
specimens over 1/2-1 inch inclusive. Specimens shall not be machined on the
surface.
c. Compressive Strength: ASTM Method 0695. Compressive Properties of Rigid
Plastics using a standard test specimen except that its width and thickness shall
be the actual thickness of the fabricated article and its length shall be twice its
thickness.
5. Hydrostatic pressure and strain tests shall be performed on ducts made of filament
wound products 24-inches in diameter and greater. A minimum of two tests shall
be run on each size. The fabricator shall induce hydrostatic test pressures as
required in order to obtain adequate strain readings.
6. Copies of all test results shall be furnished to the Engineer in accordance with
Division l' of the specifications.
7. It shall be the responsibility of the Fabricator to retain all cut-outs of nozzles,
manholes, etc., and the trim from at least one and of each piece of pipe used for
nozzles, manholes, etc. These pieces of laminate shall be delivered to the
Engineer for his disposition.
3.04 INSTALLATION
A. All duct systems shall be free of noise, chatter, vibration and pulsation under all
conditions of operation. Remove, replace or reinforce as directed by the
Architect/Engineer if necessary to correct such conditions.
B. If field conditions are determined to exist which would limit the guarantee of air delivery
or system performance, due notice in writing shall be submitted to the
Architect/Engineer of such conditions prior to starting erection.
C. Properly support and align ductwork. Ducts to be free of sag and bulge. Hang ductwork
below concrete floors or roof deck with hangers set prior to pouring concrete, or from
self drilling screw anchors.
D. Where it is necessary that ducts be divided due to pipes or other obstructions which
must pass through these ducts, the Contractor shall, at locations as noted or directed,
provide air-stream deflectors in the duct and the duct shall be increased in size to
maintain equivalent area around deflectors. Such changes shall receive Engineer's
approval and shall be shown on Contractor's As-Built Drawings.
E. Do not route ductwork through electrical equipment spaces and enclosures.
0:15210 FRP DUCTWORK.DOC:09-30.09
January 2010
15210-10
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
F. Construct all ductwork and accessories in accord with the latest indicated editions of
applicable (SMACNA) construction standards. (Sheet Metal and Air Conditioning
Contractors' National Association.)
G. Streamline all ductwork to the full extent practical and equip with proper and adequate
devices to assure proper balance and quiet draftless distribution of indicated air
quantities.
H. Protect all ductwork and system accessories from damage during construction until
Engineer's final acceptance of project.
I. Carefully correlate all duct connections to air handling units and fans to provide proper
connections elbows and bends which minimize noise and pressure drop.
J. Provide all curved elbows with radius ratios of not less than 1.5 unless otherwise shown
or approved by Engineer. Provide all mitered elbows with turning vanes. Mitered elbows
shall have segments which do not exceed 18 degrees per segment.
K. Properly suspend all ductwork so that no objectionable conditions result (such as
vibration, sagging, etc.)
L. Coordinate any and all dimensions at interfaces of dissimilar type of ductwork and at
interfaces of ductwork with equipment so that proper overlaps, interfaces, etc., of
insulation and continuity of vapor barriers are maintained.
3.05 FLANGE CONNECTIONS
A. Flange bolts and nuts shall be Type 316 stainless steel. Washers shall be provided
under bolt head and nuts and shall be Type 316 stainless steel.
B. Flange gaskets shall be full face EPDM, minimum 1/8" thick.
3.06 DUCT CONNECTIONS FOR PORTABLE AIR FLOW METER
A. Connections in New Duct
1. One Y:," diameter, 3" long, schedule 80 nipple with cap shall be installed on 10"
diameter duct and small as shown on the Drawings and specified.
2. Two Y:,' diameter, 3" long, schedule 80 nipples with cap shall be installed on duct
greater than 10" diameter as sown on the Drawings and specified.
3. The nipples shall be installed at factory on all new ducts. To install nipple in the
existing ducts, the contractor shall use an experienced laminator with a minimum of
three years experience in fiberglass pip or ducts.
4. Nipple is washed with acetone to soften it up to accept the FRP buildup.
5. Drilling the duct and then inserting the PVC nipple.
6. Use 1 Yz oz. chopped strand mat.
0:15210 FRP DUCTWORK.DOC:09-30.09
January 2010
15210-11
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
7. Laminator must verify the resin used for this modification will be compatible with the
resin used for each existing duct modification and meet the requirements in the
Specifications.
8. Resin rich puddy of resin and Cab-O-Sil (or equal) shall be used to seal the nipple
and then a glass and resin buildup is applied to seal the nipple.
9. FRP buildup depth at the nipple shall be a minimum of 1 y," for 10" diameter duct
and smaller and 2" depth for ducts greater than 1 0" in diameter.
10. Provide 12 mil of exterior gel with UV-inhibitors with a color to match existing.
B. Modifications to Existing Ducts for Connection
1. The Contractor shall use an experienced field laminator with a minimum of three
years experience in fiberglass pipe or ducts.
2. Laminator must verify the resin used for the duct modification is compatible with the
resin used for each existing duct and meet the requirements in the Specifications.
3. Provide 12 mil of exterior gel with UV-inhibitors with a color to match existing ducts.
C. The Contractor shall provide up to six additional connections for a portable air flow
meter. These six connections are in addition to those shown on the Contracto
Drawings and shall be installed in locations as determined by the Engineer. The
Contractor shall plan for connections to be made on existing duct as on new installed
duct.
3.07 HANGERS AND SUPPORTS
A. General: Comply with Section - Supports and Anchors for Exposed Piping.
B. Supports: Vertical risers and other duct runs where the method of support specified
above is not applicable shall be supported by substantial angle brackets designed to
meet field conditions and installed to allow for duct expansion.
C. Fasteners: Secure hangers to steel beams or metal deck with beam clamps or drop
through connections from the metal or concrete deck.
D. Duct supports for all ducting to and between structures and odor control units as shown
on the Drawings shall be provided by FRP Duct Supplier. The support designs shall be
suitable for the loads imposed. The Supplier shall be responsible for submitting
calculations, signed and sealed by a Professional Engineer registered in the State of
Florida, verifying the suitability of the proposed supports and compliance with all
applicable regulatory requirements and wind speed of 150 mph.
3.08 CHANGES IN SHAPE OR DIMENSION
Where duct size or shape is changed to effect a change in area, the following shall
apply:
0:15210 FRP DUCTWORK.DOC:09-30-09
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
A. Where the area at the end of the transformation results in an increase in area over that
at the beginning, the slope of the transformation shall not exceed one inch in seven
inches.
B. Where the area at the end of the transformation results in a decrease in area from that
at the beginning, the slope of the transformation may be one inch in four inches, but one
inch in seven inches is preferable, space permitting.
C. The angle of transformation at connections to equipment shall not exceed thirty degrees
from a line parallel to the air flow on the entering side of the equipment, nor fifteen
degrees on the leaving side. The angle of approach may be increased to suit limited
space conditions when the transformation is provided with vanes approved by the
Engineer.
3.09 CONDENSATE DRAIN ASSEMBLIES
A. Provide up to four additional condensate drain assemblies at locations to be determined
by the-Engineer. These four assemblies are in addition to those shown on the Contract
Drawings.
B. The four assemblies shall be identical to the assemblies shown on the Contract
Drawings for Odor Control Unit NO.1.
3.10 CHANGES IN DIRECTION
Changes in direction shall be basically as indicated on the Drawings and the following
shall apply:
A. Duct turns of ninety degrees in duct shall be made with mitered elbows, as specified
hereinbefore for supply ducts, unless radius elbows are indicated in which case they
shall be constructed with a turning radius one and one-half (1 %) times the width (with
width considered as the dimension in the plane of the turn) as measured to the duct
centerline.
B. Tees in duct shall conform to the design requirements specified hereinbefore for elbows.
3.11 IMPROPER MATERIALS OR CONFIGURATION
A. If ductwork materials or ductwork configurations are installed which do not meet these
specifications, Contractor shall remove such ductwork and replace with materials or
configurations which are acceptable. Any delay in job progress will be the responsibility
of the Contractor.
3.12 OTHER REQUIREMENTS
A. Control Devices: Properly install all control related devices which are part of the duct
systems.
3.13 LEAKAGE TESTING
A. General: Perform air test of entire duct system.
0:15210 FRP DUCTWORK DOC:09-30-09
January 2010
15210-13
NcWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
B. Ductwork Testing:
1. The installed duct systems shall be pressurized to a test pressure or vacuum of 150
percent of the maximum operating pressure vacuum. Zero leakage is allowed.
2. All joints shall be soap tested for air leakage at the test pressure. All leaks shall be
repaired in accordance with supplier recommendations subject to Engineer's
acceptance before system start-up.
3. Testing must be in accordance with a procedure submitted by the Contractor to the
Engineer for approval. Testing must be witnessed by the Engineer.
END OF SECTION
0:15210 FRP DUCTWORK.DOC:09-30-09
January 2010
15210-14
NCWRF COMPLIANCE ASSURANCE PROJECTS
FRP DUCTWORK
--- ---,,--.....,..-.--. "-_._-^..~-
SECTION 15290
INSULATION
PART 1 -- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish and install insulation as shown on the Drawings or otherwise
specified. Insulation shall not be installed until piping has been field tested and approved by
the Owner. The Contractor shall protect the insulation from moisture at all times.
B. Reference Section 15000 entitled "Piping, General".
PART 2 -- PRODUCTS
2.01 INSULATED AIR PIPING
A. Fiberglass insulation shall be provided for exposed exterior blower discharge piping as
shown on the Drawings and as specified herein. Insulation shall be a roll of semi-rigid
fiberglass board insulation. The fibrous insulation is adhered to the ASJ jacket with the end
grain of the insulation perpendicular to the jacket surface. Each section of insulation may be
secured on the longitudinal seam by using staples and mastic or vapor barrier ASJ pressure
sensitive tape. Adjacent sections shall be butted together and sealed with vapor barrier ASJ
tape. The insulation shall be 2-1/2 inches thick with a fiberglass density of at least 3 pounds
per cubic foot.
B. Insulation for fittings and flanges shall be mitered segments of nominal 6 pounds per cubic
foot density fiberglass pipe covering. Cover with a coat of insulating cement then embed a
20 x 20 weave white glass reinforcing cloth between two 1/16 inch coats of Benjamin Foster
30-36. The glass cloth and second coat shall overlap adjacent covering by two inches.
Insulation shall be Fiberglass Pipe Wrap Series 705 as manufactured by Owens-Corning,
Johns Mansfield, or equal.
C. The insulation shall be covered with a smooth, weatherproof, embossed aluminum jacket
with integral Kraft-polyethylene vapor barrier separating the insulation from the metal. The
factory applied aluminum jackets shall be at least .016 inches thick for interior installation
and at least .031 inches thick for exterior installation. They shall be at least 36" long as
measured along the pipe.
D. Circumferentially, the width of the sheets shall be 1/2" to 2" greater than the circumference
of the pipe insulation, with a Pittsburgh locktype on the longitudinal edge.
E. The metal jackets shall be held in place by .020" thick, 3/4 inch wide, metal bands on 9"
centers.
F. Special care shall be taken to make all exterior insulation jackets completely waterproof by
the use of an appropriate silicone base sealant at all joints, etc.
0:15290Insulation.doc:01-15-10
January 2010
15290-1
COLLIER COUNTY NCWRF
COMPLIANCE ASSURANCE PROJECT
PART 3 -- EXECUTION
(NOT USED)
- END OF SECTION -
0:15290 Insulation.doc:01-15-1 0
January 201 0
15290-2
COLLIER COUNTY NCWRF
COMPLIANCE ASSURANCE PROJECT
SECTION 16015
ELECTRICAL REFERENCE SYMBOLS
1.01 SYMBOLS
A. In general the symbols used on the drawings conform to the Standard Symbols of
the Institute of Electrical and Electronic Engineers with the exception of special
systems or agencies as hereinafter noted or as shown in schedules or legends.
1.02 ABBREVIATION
A. The following abbreviations or initials are used.
A1C
A.C.
AFF
AFG
AHU
AIC
AL
AMP
ANSI
ASA
ATS
AUX
AWG
b.c.
BIL
BKR
oC
CAB
C.
C.B.
CBM
CFM
CKT.
Clg.
CONDo
Conn.
CPU
CRT
CSP
CSTC
C.T.
CU.
C.w.
D.C.
Deg.
Disc.
D.O.
Air Conditioning
Alternating Current
Above Finished Floor
Above Finished grade
Air Handler Unit
Amps interrupting Capacity
Aluminum
Ampere
American National Standards Institute
American Standards Association
Automatic Transfer Switch
Auxiliary
American Wire Gauge
Bare Copper
Basic Impulse Level
Breaker
Degrees Centigrade
Cabinet
Conduit or Conductor
Circuit Breaker
Certified Ballast Manufacturers
Cubic Feet per Minute
Circuit
Ceiling
Conductor
Connection
Central Processing Unit
Cathode Ray Terminal
Closed Standpipe (Sprinkler)
Communications System Terminal Cabinet
Current Transformer
Copper
Cold Water
Direct Current
Degree
Disconnect
Draw Out
16015-1
NcWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL REFERENCE SYMBOLS
January 2010
ON.
DPST
E.C.
EEPTS
EMT
E.O.
ESIC
of
FLA
FM
FPS
FT.
FZ
GFI
gnd.
Horiz.
hp.
hr.
IIC
ICU
IEEE
IES
IMC
Down
Double Pole Single Throw
Electrical Contractor
Elevator Emergency Power Transfer Switch
Electric Metallic Tubing
Electrically Operated
ElevatorlSystems Interface Cabinet
Degrees Fahrenheit
Full Load Amperes
Factory Mutual
Feet per Second
Feet
Fire Protection Zone (Sprinkler)
Ground Fault Interrupting
Ground
Horizontal
Horsepower
Hour
Intercom
Intensive Care Unit
Institute of Electrical and Electronic Engineers
Illuminating Engineering Society
Intermediate Metallic Conduit
Inches
Insulated Power Cable Engineers Association
Junction Box
Kilovolt
Kilo-Volt-Amps
Kilowatts
Pounds
Light Emitting Diode
Light
Lighting
Maximum
Main Circuit Breaker
Motor Circuit Protector
Microphone
Minimum
Main Lugs Only
Miles Per Hour
Mounted
Multiplex (Transponder) Panel
Mega Volt Amps
Neutral
National Electric Code
National Electrical Contractors Association
National Electrical Manufacturers Association
National Fire Protection Association
Not in Contract
Non Fused
Number
.
In.
IPCEA.
J.B.
KV
KVA
KW
LBS
LED
It.
Itg.
max.
MCB
MCP
MIC
.
min.
M.L.a.
MPH
MTD
MUX
MVA
N.
NEC
NECA
NEMA
NFPA
NIC.
NF
No.
January 201 0
16015-2
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL REFERENCE SYMBOLS
-
ph Phase
OCU Odor Control Unit
O.L. Overload
OLS Overloads
OSHA Occupational Safety and Health Act
OS&Y Outside Screw and Yoke (Sprinkler)
P. Pole
PB Pullbox
Ph. Phase
PNL Panel
PR Pair
PWR Power
PF Power Factor
Pri. Primary
psi Pounds Per Square Inch
P.T. Potential Transformer
PVC Polyvinyl Chloride
RMS Root-Means-Square
RPM Revolutions Per Minute
Recept. Receptacle
RSTC RadiolSound Terminal Cabinet
RTD Resistance Temperature Device
SCA Short Circuit Amps
Sec. Secondary
SIN Solid Neutral
SPKR Speaker
SPST Single Pole Single Throw
SW. Switch
SWBD Switchboard
TEL (Telco) Telephone; Telephone Demarkation
TSP Twisted Shielded Pair
TTB Telephone Terminal Board
TTC Telephone Terminal Cabinet
TYP Typical
temp. Temperature
U.L. Underwriters Laboratories
UNO (U.N.O.) Unless Noted Otherwise
V Volt
VFC Variable Frequency Controller
VFD Variable Frequency Drive
W Wire
W.P. Weatherproof
END OF SECTION
January 2010
16015-3
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL REFERENCE SYMBOLS
SECTION 16020
WORK INCLUDED
1.01 DESCRIPTION OF SYSTEM
A. The work required under this Division shall include all materials, labor and auxiliaries
required to install a complete and properly operating electrical system.
B. The electrical system required under this Division consists basically of, but is not
limited to the following:
1. Complete distribution system for power including feeders, and connections to
motors and other power loads.
2. A complete grounding system and special grounds as required or noted.
3. Motor control and modifications to Motor Control Centers.
4. Lightning Protection Bonding and Grounding Systems.
5. Power, instrumentation and control Surge Suppression systems.
6. Building and Site lighting systems.
7. Instrumentation and control conduit and wiring systems.
8. Concrete work for pad mounted equipment, encased raceways, etc.
9. Electrical testing of equipment.
10. Variable Frequency Drive Systems.
END OF SECTION
16020-1
NCWRF COMPLIANCE ASSURANCE PROJECT
WORK INCLUDED
January 201 0
SECTION 16025
CODES, FEES, AND STANDARDS
PART 1 - GENERAL
1.01 CODES AND FEES
A. Install in accordance with latest edition of the National Electric Code and the
regulations of governing local, State, County and othef applicable codes, including
the Utilities Company. Pay for all required licenses, fees and inspections. All articles,
products, materials, fixtures, forms Of types of construction covered in the
specifications will be required to meet or exceed all applicable standards of
manufacturer, testing, performance, capabilities, procedures and installation
according to the requirements of ANSI, NEMA, IEEE, and NEC referenced
documents where indicated and the manufacturer's recommended practices.
Requirements indicated on the contract documents, which exceed but are not
contrary to governing codes shall be followed.
B. Compliance and Certification: The installation shall comply with the governing state
and local codes or ordinances. The completed electrical installation shall be
inspected and certified by all applicable agencies that it is in compliance with all
codes. Utility Company: Comply with latest utility company regulations.
C. All work and equipment under this Division shall be in strict compliance with the
latest edition of the following codes and standards:
1. Life Safety Code - NFPA 101
2. National Fire Protection Association (NFPA)
3. National Electrical Code - NFPA 70; 2008
4. National Electrical Safety Code (NFPA70E-2009)
5. Requirements of Local Power Company.
6. Florida Building Code
1.02 STANDARDS
A. All materials shall be new and free of defects, and shall be U.L. listed, bear the U.L.
label or be labeled or listed with an approved, nationally recognized Electrical
Testing Agency. Where no labeling or listing service is available for certain types of
equipment, test data shall be submitted to prove to the Engineer that equipment
meets or exceeds available standards.
1.03 UTILITY COMPANY FEES, CHARGES, COSTS
A. It is the contractor's responsibility to contact the required Utility Company to
determine if any fees, charges or costs will be due the Utility Company, as required
by the Utility Company for temporary power, installations, hook-ups, etc. This fee,
charge or cost shall be included in this contractor's bid price.
END OF SECTION
16025-1
NCWRF COMPLIANCE ASSURANCE PROJCT
CODES. FEES & STANDARDS
January 2010
SECTION 16035
ACCEPTANCE TESTS AND PERFORMANCE VERIFICATION
PART 1 - GENERAL
1.01 GENERAL SCOPE
A. The Contractor shall engage the services of a recognized corporately and financially
independent testing firm for the purpose of performing inspections and tests on all
new electrical equipment supplied in this contract and on existing modified
equipment as herein specified. All tests shall be documented. The testing firm shall
send directly to the engineer a copy of all individual test documentation within 48
hours of performing the tests. Documentation being sent to the engineer shall not be
contingent on contractor's approvals. It is the intent of these specifications that the
testing firm work in direct communication with the engineer of record with frequent
testing data updates as the work progresses.
B. The testing firm shall provide all material, equipment, labor and technical supervision
to perform such tests and inspections. Testing shall be supervised by qualified
professional engineering staff.
C. It is the purpose of these tests to assure that all tested electrical equipment, is
operational and within industry and manufacturer's tolerances and is installed in
accordance with design specifications. Tests shall be performed with and in
cooperation with certification tests performed by the switchgear manufacturer. The
testing contractor shall be an integral part in assuring the coordinated testing and
startup of the power system. The tests and inspections shall determine suitability for
energization.
D. An itemized description of existing equipment to be inspected and tested is as
follows:
1 . Provide testing of existing feeders that are relocated, extended or disturbed
in any way by this project.
2. Provide testing of existing breakers that are re-fed, relocated, re-cabled or
disturbed in any way by this project.
E. The above electrical testing shall be used in the development of the final testing
report encompassing all new and existing electrical equipment; submitted with the
operation and maintenance manuals prior to substantial completion of the project.
The testing report shall be submitted on 8.5" X 11" paper bound with all field test
data in appendix form. All tested breakers shall be fitted with a sticker indicating the
testing firm, date and technician performing the test.
1.02 APPLICABLE CODES, STANDARDS, AND REFERENCES
A. All inspections and test shall be in accordance with the following codes and
standards except as provided otherwise herein:
January 201 0
16035-1
NcWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCE TESTING
1. National Electrical Manufacturer's Association - NEMA
2. American Society for Testing and Materials - ASTM
3. Institute of Electrical and Electronic Engineers - IEEE
4. International Electrical Testing Association - NETA Acceptance Testing
Specifications - A TS-1991
5. American National Standards Institute - ANSI C2: National Electrical Safety
Code.
6. State and local codes and ordinances
7. Insulated Cable Engineers Association - ICEA
8. Association of Edison Illuminating Companies - AEIC
9. Occupational Safety and Health Administration - OSHA
10. National Fire Protection Association - NFPA
a. ANSIINFPA 70: National Electrical Code
b. ANSI/NFPA 70B: Electrical Equipment Maintenance
c. NFPA 70E: Eiectrical Safety Requirements for Employee
Workplaces
d. ANSIINFPA 780: Lightning Protection Code
e. ANSIINFPA 101: Life Safety Code
B. All inspections and test shall utilize the following references:
1. Project design specifications
2. Project design drawings
3. Manufacturer's instruction manuals applicable to each particular apparatus
1.03 QUALIFICATIONS OF TESTING FIRM
A. The testing firm shall be an independent testing organization which can function as
an unbiased testing authority, professionally independent of the manufacturers,
supplier, and installers of equipment or systems evaluated by the testing firm.
B. The testing firm shall be regularly engaged in the testing of electrical equipment
devices, installations, and systems.
C. The testing firm shall meet OSHA criteria for accreditation of testing laboratories,
Title 29, Part 1907, or be a Full Member company of the International Electrical
Testing Association (NETA).
D. The lead, on-site, technical person shall be currently certified by the International
Electrical Testing Association (NETA) or National Institute for Certification in
Engineering Technologies (NICET) in electrical power distribution system testing or
be a electrical professional engineer in the state of Florida.
E. The testing firm shall utilize engineers and technicians who are regularly employed
by the firm for testing services. The testing firm shall provide in house electrical
studies and reports as specified. The testing firm shall have a Florida registered
professional electrical engineer on staff.
. F. The testing firm shall submit proof of the above qualifications when requested.
16035-2
NcWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCETESl1NG
January 2010
G. Pre-qualified testing firms for this project are:
1. Emerson Electrical Reliability Services, Inc.
2. Industrial Electrical Testing, Inc.
3. Electric Power Systems
Other firms will be considered by the engineer on submittal of qualifications on or
before 20 days prior to bid.
1.04 DIVISION OF RESPONSIBILITY
A. The contractor shail perform routine insulation-resistance, continuity, and rotation
test for all distribution and utilization equipment prior to and in addition to tests
performed by the testing firm specified herein.
B. The contractor shall supply a suitable and stable source of electrical power to each
test site.
C. The contractor shall notify the testing firm when equipment becomes available for
acceptance tests. Work shall be coordinated to expedite project scheduling.
However the testing firm shall visit the job a minimum of once a week to perform
coordination duties required and make reports to the engineer of the installation
progress.
D. The testing firm shall notify the engineer prior to commencement of any testing.
E. Any system, material, or workmanship which is found defective on the basis of
acceptance tests shall be reported to the engineer.
F. The testing firm shall maintain a written record of all tests and, upon completion of
project, shall assemble and certify a final test report.
G. Safety and Precautions
1. Safety practices shall include, but are not limited to, the following
requirements:
a. Occupational Safety and Health Act.
b. Accident Prevention Manual for Industrial Operations, National Safety
council
c. Applicable state and local safety operating procedures.
d. Owner's safety practices.
e. National Fire Protection Association - NFPA 70E
f. American National Standards for Personnel Protection
2. All test shail be performed with apparatus de-energized. Exceptions must be
thoroughly reviewed to identify safety hazards and devise adequate
safeguards. .
3. The testing firm shall have a designated safety representative on the project
to supervise the testing operations with respect to safety.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCETEScNG
1.05 SUITABILITY OF TEST EQUIPMENT
A. All test equipment shall be in good mechanical and electrical condition.
B. Digital multimeters used shall be RMS sensing when the variable be measured
contains harmonics or dc offset or any deviation from a pure sine wave. Accuracy of
metering in test equipment shall be appropriate for the test being performed but not
in excess of 2 percent of the scale used.
PART 2 - INSPECTION AND TEST PROCEDURES
2.01 SWITCHGEAR AND SWITCHBOARD ASSEMBLIES (modifications to existing)
A. Visual and Mechanical Inspection
1. Inspect for physical, electrical, and mechanical condition.
2. Compare equipment nameplate information with latest one-line diagram.
3. Check for proper anchorage, required are clearances, physical damage and
proper alignment.
4. Inspect all doors, panels, and sections for paint, dents, scratches, fit and
missing hardware.
5. Verify that fuse andlor circuit breaker sizes and types correspond to
drawings.
6. Verify that current and potential transformer ratios correspond to drawings.
Inspect all bus connections for high resistance. Use low resistance
ohmmeter, or check tightness of bolted bus joints by using a calibrated
torque wrench. Refer to manufacturer's instructions for proper torque levels.
7 . Test all electrical and mechanical interlock systems for proper operation and
sequencing. Closure attempt shall be made on locked open devices.
Opening attempt shall be made on locked closed devices. Key exchange
shall be made with devices operated in off normal positions.
8. Clean entire switchgear using manufacturer's approved methods and
materials.
9. Inspect insulators for evidence of physical damage or contaminated
surfaces.
10. Verify proper barrier and shutter installation and operation.
11. Lubrication: Verify appropriate contact lubricant on moving current carrying
parts. Verify appropriate lubrication on moving and sliding surfaces.
12. Exercise all active components.
13. Inspect all mechanical indicating devices for proper operation.
B. Electrical Tests
1. Perform tests on all instrument transformers.
2. Perform ground resistance tests.
3. Perform insulation resistance on each bus section, phase-to-phase and
phase-to-ground for three (3) minutes. Test voltages and minimum
resistances shall be in accordance with NETA recommendations.
4. Perform an overpotential test on each bus section, each phase-to-ground, for
three (3) minutes at values indicated in ANSIIIEEE C37.20.2. or
16035-4
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCETESTING
January 2010
manufacturer's recommended potential.
5. Perform insulation-resistance test on control wiring except where connected
to solid state components.
6. Perform control wiring performance test. Use the elementary diagrams of the
switchgear to identify each remote control and protective device. Conduct
tests to verify satisfactory performance of each control feature.
7. Perform secondary voltage energization test on all control power circuits and
potential circuits as detailed in this specification. Check voltages levels at
each point on terminal boards and at each terminal on devices.
8. Perform current injection tests on the entire current circuit in each section of
switchgear. Perform current test by primary injection where possible;
secondary injection if not.
9. Determine accuracy of all meters and calibrate watthour meters. Verify
multipliers.
10. Perform phasing check on double-ended switchgear to ensure proper bus
phasing from each source.
11. Control Power Transformers - Dry Type
a. Inspect for physical damage, cracked insulation, broken leads,
tightness of connections, defective wiring, and overall general
condition.
b. Verify proper primary and secondary fuse ratings or circuit breakers.
c. Verify proper interlock function and contact operation.
d. Perform insulation-resistance test. Perform measurements from
winding-to-winding and windings-to-ground.
e. Perform secondary wiring integrity test. Disconnect transformer at
secondary terminals and connect secondary wiring to proper
secondary voltage. Check potential at all devices. Verify proper
secondary voltage by energizing primary winding with system voltage.
Measure secondary voltage with the secondary wiring disconnected.
12. Potential Transformer Circuits
a. Perform secondary wiring integrity test. Disconnect transformer at
secondary terminals and connect secondary wiring to proper
secondary voltage. Check for proper potential at all devices.
b. Verify secondary voltage by energizing primary winding with system
voltage. Measure secondary voltage with the secondary wiring
disconnected.
C. Test Values: Verify Bolt-torque values, Insulation resistance, overpotentiallevels in
conformance to NETA standards or specified by manufacturer.
202 CABLES - LOW VOLTAGE - 600V MAXIMUM (all except 20 and 30amp lighting and
receptacle circuits)
A. Visual and Mech;3nicallnspection
1. Inspect cables for physical damage and proper connection in accordance
with drawings.
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
16035-5 ACCEPTANCE TESTING
__ _..___.,._...._._. ,_,~"_,__,____,,,,"~"'_~'"''___''_'__''' '.'" v-~_____...__.,_._._._"__."___._
2. Test cable mechanical connections to manufacturer's recommended values
or NETA Standards using a calibrated torque wrench.
3. Check cable color coding with applicable engineer's specifications and
National Electrical Code standards.
B. ElectricalTests
1. Perform insulation-resistance test on each conductor with respect to ground
and adjacent conductors. Applied potential shall be 1000 volts dc for 3
minutes.
2. Perform continuity test to insure proper cable connection.
3. Test Values; Evaluate results by comparison with cables of same length and
type. Minimum acceptable value shall be no less than 50 megohms for new
feeders; 5megohms for existing reused, renovated, rerouted or extended
feeders.
2.03 CIRCUIT BREAKERS (all except 20 and 30amp breakers; test all GFCI breakers)
A. Circuit Breakers - Low Voltage insulated caselmolded case
1. Visual and Mechanical Inspection
a. Check circuit breaker for proper mounting and compare nameplate
data to drawings and specifications.
b. Operate circuit breaker to ensure smooth operation.
c. Inspect case for cracks or other defects.
d. Check tightness of connections using calibrated torque wrench.
Refer to manufacturer's instructions or NET A standards for proper
torque levels.
2. Electrical Tests
a. Perform a contact-resistance test.
b. Perform an insulation-resistance test at 1000 volts dc from pole to
pole and from each pole to ground with breaker closed and across
open contacts of each phase.
c. Determine long-time minimum pickup current by primary current
injection where practical.
d. Perform long-time delay time-current characteristic tests by passing
three hundred percent (300%) rated current through each pole
separately. Record trip time.
e. Determine short-time pickup and delay by primary current injection, if
applicable.
f. Determine ground-fault pickup and time delay by primary current
injection, if applicable.
g. Determine instantaneous pickup current by primary injection using
run-up or pulse method.
3. Test Values
a. Compare contact resistance or millivolt drop values to adjacent poles
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
AcCEPTANcETESTING
and similar breakers. Investigate deviations of more than fifty
percent (50%). Investigate any value exceeding manufacturer's
recommendations.
b. Insulation resistance shall not be less than 100 megohms.
c. Trip characteristic of breakers shall fall within manufacturer's
published time-current characteristic tolerance band, including
adjustment factors.
d. All trip times shall fall within NETA Standards. Circuit breakers
exceeding specified trip time at three hundred percent (300%) of
pickup shall be tagged defective.
e. Instantaneous pickup values shall be within NET A standards.
2.04 METERING AND INSTRUMENTATION
A. Visual and Mechanical Inspection
1. Examine all devices for broken parts, shipping damage and tightness of
connections.
2. Verify that meter types, scales and connections are in accordance with
drawings and specifications.
B. Electrical Tests
1. Determine accuracy of meters at 25/50175/1 00% of full scale.
2. Calibrate watthour meters to one-half percent (0.5%).
3. Verify all instrument multipliers.
4. Verify calibration of all instrumentation is accurate to the operator interface
terminals
2.05 GROUNDING SYSTEMS: (new and upgraded grounding systems)
A. Visual and Mechanical Inspection
B. Inspect ground systems for compliance with drawings and specifications.
C. Electrical Tests (Small Systems)
D. Perform ground-impedance measurements utilizing the fall-of-potential method per
ANSIIIEEE Standard 81 "IEEE Guide for Measuring Earth Resistivity, Ground
Impedance, and Earth Surface Potentials of a Ground System." Instrumentation
utilized shall be as Approved by NET A Standards and shall be specifically designed
for ground impedance testing. Provide sufficient spacing so that plotted curves
flatten. In large ground grid systems where adequate pole distance is not practical
provide Tagg Slope technique of calculating system resistance.
E. Electrical Tests (Large Systems)
F. When sufficient spacing of electrodes is impractical, perform ground-impedance
measurements utilizing either the intersecting curves method or the slope method.
(Ref. Nos. 40 and 41 in IEEE Std. 81.)
16035-7
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCE TESTING
January 201 0
G. Equipment Grounds
H. Utilize two-point method of IEEE Std. 81. Measure between equipment ground
being tested and known low-impedance grounding electrode of system.
I. Test Values within the ground system should be 5 ohms or less tested with a clamp
on ground test instrument. Down conductor tests at grade level should be 2 ohms or
less. Investigate high resistance connections and correct readings above these
limits.
J. The main ground electrode system impedance-to-ground should be no greater than
one (1) ohms. Equipment grounds, depending on size and length of grounding
conductor, should be only fractionally higher than system ground.
2.06 GROUND-FAULT SYSTEMS (NEC 230-95)
A. Visual and Mechanical Inspection
1. Inspect for physical damage and compliance with drawings and
specifications.
2. Inspect neutral main bonding connection to assure:
a. Zero-sequence sensing system is grounded.
b. Ground-strap sensing systems are grounded through sensing device.
c. Ground connection is made ahead of neutral disconnect link on zero-
sequence sensing systems.
d. Grounded conductor (neutral) is solidly grounded.
3. Inspect control power transformer to ensure adequate capacity for system.
4. Manually operate monitor panels (if present) for: Trip test; No trip test; Non-
automatic reset.
5. Record proper operation and test sequence.
6. Set pick-up and time-delay settings in accordance with the settings provided
by the manufacturer.
B. Electrical Tests
1. Measure system neutral insulation resistance to ensure no shunt ground
paths exist. Remove neutral-ground disconnect link. Measure neutral
insulation resistance and replace link.
2. Determine the relay pickup current by current injection at the sensor and
operate the circuit interrupting device.
3. Test the relay timing by injecting three hundred percent (300%) of pickup
current, or as specified by manufacturer.
4. Test the system operation at fifty-seven percent (57%) rated control voltage,
if applicable.
5. Test zone interlock systems by simultaneous sensor current injection and
monitoring zone blocking function.
6. On multiple source, tie breaker, etc., systems, devise a simulation scheme
that fully proves correct operation.
16035..8
NcWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCE TESTING
January 201 0
C. Test Parameters
1. System neutral insulation shall be a minimum of one hundred (100) ohms,
preferable one (1) megohm or greater.
2. Relay timing shall be in accordance with manufacturer's published time-
current characteristic curves but in no case longer than cine (1) second for
fault currents equal to or greater than 3,000 amperes.
3. Relay pickup value shall be within \/10% of setting and in no case greater
than 1200A.
2.07 MOTORS (5hp and greater)
A. Visual and Mechanical Inspection
1. Inspect for physical damage.
2. Inspect for proper anchorage, mounting, grounding, connection and
lubrication.
3. When applicable, perform special tests as air gap spacing and pedestal
alignment.
B. Electrical Tests -Induction Motors
1. Perform insulation resistance tests in accordance with ANSI/IEEE Std. 43.
2. Motors 200Hp and Less - Test duration shall be for one minute with
resistances tabulated at 30 and 60 seconds and calculate the dielectric
absorption ratio. Motors larger than 200 horsepower perform tests for ten
minutes and calculate polarization index. Minimum acceptable polarization
index for Class B or F insulated motors shall be 2.0.
3. Perform insulation resistance test on pedestal per manufacturer instructions.
4. Perform insulation resistance test on surge protection device in accordance
with this specification.
5. Check that the motor space heater circuit is in proper operating conduction.
6. Check all protective devices in accordance with other sections of these
specifications.
7. Perform a rotation test to ensure proper shaft direction if the motor has been
disconnected.
8. Measure running current and evaluate relative to load conditions and
nameplate full load amperes. Verify proper overload relays.
2.08 MOTOR CONTROL (all motors)
A. Visual and Mechanical Inspection
1. Inspect for physical damage, proper anchorage, and grounding.
2. Inspect equipment for compliance with drawings and specifications.
3. Motor-running protection
a. Compare overload heater rating with motor full-load current rating to
verify proper sizing.
b. If motor-running protection is provided by fuses, verify proper rating
considering motor characteristics and power-factor correction
.January 2010
16035-9
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCE TESTING
.___~_._._.",,".__..,___.,_,.,.~_.,.,_......,._.__.".,n'._,_._..
capacitors if applicable. Check tightness of bolted connections using
calibrated torque wrench.
B. Electrical Tests
1. Insulation tests:
a. Measure insulation resistance of each bus section phase-to-phase
and phase-to-ground for three (3) minutes. Test voltage shall be in
accordance with NETA Standards.
b. Measure insulation resistance of each starter section phase-to-phase
and phase-to-ground with the starter contacts closed and the
protective device open. Test voltage shall be in accordance with
NETA Standards.
c. Measure insulation resistance of each control circuit with respect to
ground.
2. Test motor overload units by injecting current through overload unit and
monitoring trip time at three hundred percent (300%) of motor full-load
current.
3. Three phase power unbalance: Run motor at full load steady state conditions
and take current readings on ail three leads. Roll the motor leads maintaining
the proper rotation and take motor current readings on all three possible
hook-ups. Choose the least unbalance hookup for each motor. The
maximum acceptable unbalance is 10 percent at fuilload. If the unbalance
cannot be corrected by rolling leads, the source of the unbalance must be
located and corrected. If on the three possible hook ups, the leg of "greatest
unbalance" (furthest from the average) stays on the same power lead then
most of the unbalance is being caused by the power source. However, if the
leg of greatest unbalance moves on each of the hookups with a particular
motor lead, the primary source of unbalance is on the motor side of the
starter. Check for damaged cable, leaking splices, poor connections, or faulty
motor winding.
2.09 Transformers - Dry Type Transformers - Small Dry Type, Air-Cooled (600 Volt and Below)
A. Inspect for physical damage, broken insulation, tightness of connections, defective
wiring, and general condition.
B. Thoroughly clean unit prior to making any tests.
C. Perform insulation-resistance test.
D. Energize primary winding with system voltage. Measure secondary voltage with the
secondary load disconnected. Record resuits.
2.10 THERMOGRAPHIC SURVEY (all new or modified switchgear, bus ducts, transformers,
points of power connection equal to or greater than 40amps, MCC's and distribution
centers)
A. Visual and Mechanical
January 2010
16035-10
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCETESllNG
1. Remove all necessary covers prior to scanning.
2. Inspect for physical, electrical, and mechanical condition.
B. Equipment to be Scanned
1. All new and existing equipment with ratings of 1 OOamps or more.
C. Provide report indicating the following:
1. Problem area (location of "hot spot")
2. Temperature rise between "hot spot" and normal or reference area.
3. Cause of heat rise
4. Phase unbalance, if present
5. Areas scanned
D. Test Parameters
1. Scanning distribution system with ability to detect 10C between subject area
and reference at 30oC.
2. Equipment shall detect emitted radiation and convert detected radiation to
visual signal.
3. Infrared surveys should be performed during periods of maximum possible
loading but not less than twenty percent (20%) of rated load of the electrical
equipment being inspected.
4. Provide photographs andlor the thermogram of the deficient area as seem
on the imaging system
2.11 Low Voltage Surge Suppressors
Ac Visual and mechanical inspection
1. Verify suppressors are installed with minimum length leads to the protected
equipment. Verify connections to bus.
2. Verify ground connections to ground bus.
B. Electrical Tests
1. Test clamping voltage and verify meets specified ratings; test in accordance
with ANSI C62.33 section 4.4 and 4.7
2.12 Low Voltage Air Switches (disconnect switches, manual & automatic transfer switches)
A. Visual and Mechanical Inspection
1. Compare equipment nameplate data with drawings and specs.
2. Inspection for mechanical and physical damage. Cleaning of interior,
insulators, arc chutes.
3. Testing of mechanical operator. Cleaning and lubrication of contacts and
mechanism, as applicable.
4. Verification of contact alignment and wipe. Verify phase barrier installaitn.
5. Inspect anchorage, alignment, grounding, and required clearances..
January 201 0
16035-11
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCE TESTING
6. Documentation of fuse and types are in accordance with drawings, short
circuit studies and coordination study.
7. Verification of tightness of accessible bolted electrical connections by
calibrated torque-wrench method.
8. Verification of presence of expulsion-limiting devices on all holders having
expulsion-type elements.
9. Verification of interlocking systems for proper operation and sequencing.
10. Verify proper lubrication on current carrying and moving sliding parts.
B. Electrical Tests
1. Contact resistance testing across each switch blade and fuse holder.
2. Measurement of fuse resistance.
3. Insulation resistance testing on each pole, phase-to-phase and phase-to-
ground with switch closed and across each open pole for one minute.
4. AC or DC overpotential testing phase-to-phase and phase-to-ground.
5. Verification of proper space heater operation.
END OF SECTION
16035-12
NCWRF COMPLIANCE ASSURANCE PROJECT
ACCEPTANCE TESTING
January 201 0
SECTION 16037
SHORT CIRCUIT, COORDINATION AND ARC FLASH STUDIES
PART 1 - GENERAL
1.01 GENERAL SCOPE
A. Provide the services of a recognized corporately and financially independent firm for
the purpose of performing electrical studies and reports on all new electrical
equipment supplied in this contract and on existing equipment as herein specified. It
is the intent of these specifications that the study firm work in direct communication
with the engineer of record with frequent updates as the work progresses. The study
firm shall provide all material, equipment, labor and technical supervision required to
perform the studies and reports.
B. Provide a short circuit, coordination and arc-flash study for Utility Service #1, #2 and
#4 (injection well pump station). Verify and update short circuit and coordination
study of service#1. Provide a single final electrical study report incorporating the
short circuit, coordination and arc flash study. The final document shall become part
of the operation and maintenance manuals for the facility. The report shall be
submitted on 8.5" X 11" paper bound with all field data in appendix form. Drawings
within the testing report shall be on 11" X 17" paper folded to 8.5" X 11" and drawn
with a computer aided design (CAD) package. The computer aided design package
shall be Autocad or converted to Autocad. All adjustable breakers shall be fitted with
a sticker indicating the coordination values for the equipment.
C. Provide a short circuit, coordination and arc-flash study from the Utility Service to all
points downstream. Provide system studies in latest release of SKM Power Systems
software. Provide CD-Rom electronic version of SKM Power Systems software data
files bound in study report for future use by owner. The electrical system studies
shall be signed and sealed by a Florida registered electrical engineer. The signing
engineer shall visit the site and be familiar with the electrical systems. All
documentation and record drawings provided by the client shall be verified by the
signing engineer. The Signing engineer shall meet at the site with the electrical
design engineer during the information gathering phase and after system evaluation
to discuss remedial changes necessary for code compliance. The remedial work
study changes shall be incorporated within the electrical studies at no additional cost
to the owner.
1.02 APPLICABLE CODES, STANDARDS, AND REFERENCES
A. All inspections and test shall be in accordance with the following codes and
standards except as provided otherwise herein:
1. National Electrical Manufacturer's Association - NEMA
2. American Society for Testing and Materials - ASTM
3. Institute of Electrical and Electronic Engineers - IEEE
4. International Electrical Testing Association - NETA Acceptance Testing
Specifications - ATS-1991
January 2010
16037-1
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL SYSTEM STUDIES
5. American National Standards Institute - ANSI C2: National Electrical Safety
Code.
6. State and local codes and ordinances
7. Insulated Cable Engineers Association - ICEA
8. Association of Edison Illuminating Companies - AEIC
9. Occupational Safety and Health Administration - OSHA
10. National Fire Protection Association - NFPA
a. ANSIINFPA 70: National Electrical Code
b. ANSIINFPA 70B: Electrical Equipment Maintenance
c. NFPA 70E:2009; Standard for Electrical Safety in the Workplace
d. ANSIINFPA 780: Lightning Protection Code
e. ANSIINFPA 101: Life Safety Code
1.03 Qualifications
A. The study firm shall be regularly engaged in the study of electrical equipment
devices, installations, and systems. The lead, technical person shall be an electrical
professional engineer in the state of Florida. The study firm shall provide in house
electrical studies and reports as specified. The study firm shall submit proof of 5
similar studies with the above qualifications when requested. At least two of the
similar project examples shall include arc flash studies with variable frequency
drives.
B. Pre-qualified study firms for this project are:
1. Emerson Electrical Reliability Services, Inc. (239)-693-7100
2. Industrial Electrical Testing, Inc. (904) 260-8378
3. Electric Power Systems 407-578-6424
4. GRD Engineering 239-222-0790
Other firms will be considered by the engineer on submittal of qualifications on or
before 20 days prior to bid.
1.04 SHORT-CIRCUIT ANALYSIS AND COORDINATION STUDY (for all new and existing
electrical equipment. Provide an integrated complete study for the total electrical system.
A. Provide a current and complete short-circuit study, equipment interrupting or
withstand evaluation, and a protective device coordination study for the electrical
distribution system.
B. The studies shall include all portions of the electrical distribution system from the
normal and alternate sources of power throughout the low-voltage distribution
system. Normal system operating method, alternate operation, and operations which
could result in maximum fault conditions shall be thoroughly covered in the study.
C. The studies shall be submitted to the project electrical engineer prior to granting final
approval of the distribution equipment shop drawings andlor prior to release of
equipment for manufacture.
D. The study shall be in accordance with applicable ANSI and IEEE Standards. The
January 2010
16037-2
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICALSYS1EMSTUDIES
study input shall include the utility company's short circuit single and three phase
contribution, with the X1R ratio, the resistance and reactance components of each
branch impedance, motor and generator contributions, base quantities selected,
and all other applicable circuit parameters.
E. Short circuit momentary duties and interrupting duties shall be calculated on the
basis of maximum available fault current at each switchgear bus, switchboard, motor
control center, distribution panel board, pertinent branch circuit panelboards, and
other significant locations through the system.
F. . An equipment evaluation study shall be perfollTled to determine the adequacy of new
and existing circuit breakers, controllers, surge arresters, busways, switches, and
fuses by tabulating and comparing the short circuit ratings of these devices with the
available fault currents. Any problem areas or inadequacies in the existing
equipment shall be documented back to the project engineer with recommended
remedial actions. The study firm shall coordinate with the supplier of the new
equipment to assure all specifications of the new equipment meet or exceed the
ratings required by the study at no additional costto the owner.
G. A protective device coordination study shall be performed to select or to check the
selections of power fuse ratings, protective relay characteristics and settings, ratios
and characteristics of associated voltage and current transformers, and low-voltage
breakenrip characteristics and settings. The coordination study shall include all
voltage classes of equipment from the utility's incoming line protective device down
to and including each motor control center andlor panelboard. The phase and
ground overcurrent protection shall be included, as well as settings for all other
adjustable protective devices.
H. The time current characteristics of the specified protective devices shall be plotted
on appropriate log-log paper. The plots shall include complete titles, representative
one-line diagram and legends, associated power company's relays of fuse
characteristics, significant motor starting characteristics, complete parameters of
transformers, complete operating bands of low voltage circuit breaker trip curves,
and fuse curves. The coordination plots shall indicate the types of protective devices
selected, proposed relay taps, time dial and instantaneous trip settings, ANSI
transformer magnetizing inrush and withstand curves per ANSI C37.91, cable
damage curves, symmetrical and asymmetrical fault currents. Ail requirements of
the current National Electric Code shall be adhered to. Reasonable coordination
intervals and separation of characteristic curves shall be maintained. The
coordination plots for phase and ground protective devices shall be provided on a
complete system basis. Sufficient curves shail be used to clearly indicate the
coordination achieved to each utility main breaker, primary feeder breaker, unit
substation primary protective device rated or more. There shall be a maximum of
four protective devices per plot.
1. The selection and settings of the protective devices shall be provided separately in a
tabulated form listing circuit identification, IEEE device number, current transformer
ratios, manufacturer, type, range of adjustment, and recommended settings. A
tabulation ofthe recommended power fuse selection shall be provided for all fuses in
the system. Discrepancies, problem areas, or inadequacies shall be coordinated
with the equipment suppliers and resoived with in the scope of the project and at no
January 2010
16037-3
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL SYSTEM S11JDIES
-" '_._"--'-"' " -.-
additional cost to the owner.
J. The results of the power system study shall be summarized in a final report and
made part of the operation and maintenance manuals. The report shall include the
following sections;
1. Description, purpose, basis written scope, and a single line diagram of the
portion of the power system which is included within the scope of study.
2. Tabulations of circuit breaker, fuse and other equipment ratings versus
calculated short circuit duties, and commentary regarding same.
3. Protective device time versus current coordination curves, tabulations of
relay and circuit breaker trip settings, fuse selection and commentary
regarding same.
4. Fauit current tabulations including a definition of terms and a guide for
interpretation.
K. The contractors certified study firm shall be responsible for setting the breakers.
Each breaker shall be fitted with an engraved tag or permanent vinyl label indicating
the breaker name and the settings listed.
1.04 Arc Flash Evaluation
A. General
1. Provide an investigation to quantity the arc-flash hazard to which workers
could be exposed to throughout the facility. Establish arc-flash intensity data
for all electrical equipment where there may be an occasion to open doors,
remove covers or work on the electrical equipment in such a way that
workers are exposed to energized conductors.
2. Provide a safety policy to include procedures and information regarding the
arc flash data developed for the site. Provide a written recommendation for
PPE equipment. The site safety manual to include procedures and methods
related to energized work, PPE standards, and the arc-flash data developed
in the analysis.
B. Provide an arc-flash evaluation for the complete electrical system at the facility.
C. Provide arc flash evaluations in conformance to IEEE Std. 1584-2002 IEEE Guide
for Performing Arc-Flash Hazard Calculations and NFPA 70-2008 (NEC) and NPPA
70E-2009 Standard for Electrical Safety in the Workplace. The arc flash study shall
be performed using computer software that uses methods based on IEEE Std. 1584-
2002. The software used must be capable of modeling all protective devices at the
site and any mitigation devices used to limit the incident energy. The software used
must have the capability of modeling user defined PPE descriptions and A TPV
values as well as limiting the maximum clearing time where engineering judgment
deems it prudent.
D. The study firm shall collect all data required forthe arc flash evaluation. The existing
settings and equipment types and ratings shall be field verified. Any data that should
be determined to be unverifiable (due to safety or operational concern) shall be
identified and alternate means to determine the data shall be used.
16037A
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL SYSTEM STUDIES
January 2010
E. Where the calculations determine that the existing settings result in prohibitive
incident energy levels (>40 cal/cm2), the study engineer shall provide recommended
settings or other mitigation recommendations to reduce the incident energy to a level
where energized work is capable of being performed. The study finm shall document
the recommended changes and provide time-current curves indicating the
coordination that reflects the recommended settings.
F. Provide color coded labels per ANSI Z535.4; Yellow=Caution, Orange Warning,
Red=Danger. Use yellow "Caution" labels for Category O. Provide arc flash hazard
category 1-4 equipment with Orange "Warning" Labels. Provide Red "Danger" labels
with the words "Energized Work Prohibited" in areas of extreme hazard above
40cal/cm2.
G. Provide permanent labels for each electrical enclosure or equipment where workers
could be exposed to energized conductors. Provide die-cut 4" x 6" labels with
preprinted headers. Organize safety information in approved order to communicate
quickly, clearly and accurately. Provide Die-cut labels made from industrial grade
indoorloutdoor vinyl, providing a long label life. Labels shall not include study firm
information. Label layout shall be approved by the project engineer. Provide yellow
Caution; orange Warning and red Danger labels for category zero, 1-3,4 and above
incident energy categories. Study firm shall supervise installation of labels and
provide a statement in the project report that the labels are approved as installed.
These labels shall comply with the requirements of NFPA 70E-2009 and include at
least the following information:
. Voltage (phase to phase).
. Flash Protection Boundary (inches).
. Incident Energy at the working distance (cal/cm2).
. PPE Class and Description (Including glove rating).
. Restricted Approach Boundary (inches).
. Limited Shock Approach Boundary (inches).
. Prohibited Shock Approach Boundary (inches).
. Location Identification
H. Provide a comprehensive report that includes the basis for and results of numerical
assessments. The report shall include any significant conclusions and
recommendations for corrective or mitigative action as appropriate. In addition, the
report shall include the following:
. Summary of project.
. Description of system and equipment included in the assessment.
. Identification of the methods or software used.
. Date work was performed.
. Identification of the person that performed the assessment.
. Tabular data indicating; the incident energy and required PPE for all locations
evaluated.
January 2010
16037-5
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL SYSTEM STUDIES
. Detailed datasheets for each location studied.
. Tabular data of recommended settings changes.
. Time-current curves for the locations with recommended settings changes.
. A one-line diagram of the computer model.
END OF SECTION
January 201 0
16037-6
NCWRF COMPLIANCE ASSURANCE PROJECT
ELECTRICAL SYSTEM STUDIES
SECTION 16040
IDENTIFICATION
PART 1 - GENERAL
1.01 General
A. Provide materials and installation for the identification of electrical equipment,
components, cables and wiring and safety signs.
B. Related Work Specified in Other Sections Includes: Section 16050 -Basic Electrical
Materials and Methods; Section 16035 Electrical Testing, Section 16120 Wires and
Cables, Section 16850/16910 Control Panels, Section 16430 Underground Ducts.
1.02 References
A. Codes and standards incorporated within this Section are:
1. ANSIC2/NFPA70E National Electrical Safety Code (NESC)
2. ANSI Z535.1 Safety Color Code
3. ANSI Z535.2 Environmental and Facility Safety Signs
4. ANSI Z535.3 Criteria for Safety Symbols
5. OSHA Occupational Safety and Health Act
1.03 Submittals: Furnish all product submittals used
A. Product Data and Information: Furnish manufacturer's catalog data for safety signs,
nameplates, labels and markers.
B. Furnish manufacturer's instructions indicating application conditions and limitations
of use; and storage, handling, protection, examination and installation of product.
PART 2 - PRODUCTS
2.01 Manufacturers
A. Acceptable Manufacturers: Acceptable manufacturers are listed below. Other
manufacturers of equivalent products may be submitted for review.
1. W. H. Brady Company
2. Seton
3. Thomas & Betts A.
4. Approved Equal
2.02 Materials
A. General: Provide identification materials listed and classified by UL or tested by an
acceptable Electrical Testing Company certifying the equivalence of the materials to
UL listing requirements and OSHA approved.
January 2010
16040-1
NCWRF COMPLIANCE ASSURANCE PROJECT
IDENTIFICATION
__,_.,..."_._..___,_."_.,..._.._,.._~_._ ,~, _ _~~w_..~..,.._."_'."_" __.,___._.~__
B. Laminated Plastic Nameplates: Provide engraved three layer laminated plastic
nameplates with black letters on white background with lettering etched through the
outer covering and fastened with corrosion resistant brass or stainless steel screws.
Do not use mounting cement for fastening nameplates.
1. Provide nameplates with 1-inch high lettering for main breakers, automatic
transfer switches, panelboards, transformers, AFD's, control panels and
disconnect switches.
2. Provide nameplates for each motor identifying service or function and
lettering of an appropriate size to suit each motor. Submersible motor
nameplates to be affixed to equipment disconnect.
3. Provide approved directories of circuits with typewritten designations of each
branch circuit in each panelboard.
4. Provide smaller lettering for a neat, legible nameplate where the amount of
lettering causes excessively large nameplates.
2.03 Wire Markers: Identify wire bundles and each individual wire.
A. Wire bundles: Provide a permanent waterproof brass or rigid fiber identifying tag
attached with nylon self locking "Ty-Raps".
B. Wire identification markers: Provide a printed white, heat-shrink, seamless tubing
type with black bold lettering for wires size No. 10 AWG and smaller. Provide a
printed self-laminating white, vinyl type with black bold lettering for wires NO.8 AWG
and larger.
2.04 Safety Signs: Provide safety signs in accordance with OSHA standards meeting the
requirements of ANSI C2, ANSI Z535.1 ,ANSI Z535.2 and ANSI Z535.3.
A. Provide safety signs manufactured from vinyl having a minimum thickness of60 mils
with red and black letters and graphics on a white background.
B. Size: Provide 7 -inch by 10-inch signs or smaller if larger size cannot be applied.
C. Mount safety signs using corrosion-resistant screws. Do not use mounting cement.
PART 3 - EXECUTION
3.01 INSTALLATION
A. General: Install nameplates on the front of equipment, parallel to the equipment lines
and secured with corrosion resistant screws.
1. Install laminated nameplates identifying, each electrical equipment enclosure
and Individual equipment and devices. The following items shall be equipped
with nameplates: All motors; motor starters, motor-control centers,
pushbutton stations, control panels, time switches, disconnect switches
panelboards, circuit breakers, contactors, recorders, transmitters,
instruments or relays in separate enclosures, thermostats, photocells, power
receptacles, switches controlling equipment or receptacles, switches
16040-2
NcWRF COMPLIANCE ASSURANCE PROJECT
IDENTIFICATION
January 201 0
controlling lighting fixtures where the fixtures are not located within the same
space as the controlling switch, termination cabinets, manholes and pull
boxes, instrumentation and control terminal cabinets, pull boxes manholes
and cabinets. . Special electrical systems shall be identified at junction and
pull boxes, terminal cabinets and equipment racks.
2. Electrical contractor is responsible for nameplates on electrical equipment
supplied by other divisions and installed and wired by electrical including all
instrumentation and controls equipment. A portion of existing equipment
affected by this contract shall also receive nameplates as determined by the
engineer.
3. Surface Preparation: Degrease and clean surfaces to receive nameplates,
labels and marking paint.
4. Nameplates shall adequately describe the function of the particular
equipment involved. Where nameplates are detailed on the drawings,
inscription and size of letters shall be as shown and shop drawing submitted
for approval. Nameplates for panelboards and switchboards shall include
the panel designation, voltage and phase of the supply. For example, "Panel
A, 277/480V, 3-phase, 4-wire". The name of the machine on the nameplates
for a particular machine shall be the same as the one used on all motor
starters, disconnect and P.B. station nameplates for that machine.
5. Rework or reuse of existing equipment will require new identification tags for
some existing equipment.
B. Wire Markers: Identify each individual wire with identification tags as follows:
1 . Wire identification markers: Provide wire identification markers on each wire
at all termination points.
a. On power and lighting circuits: The branch circuit or feeder number
as indicated on drawings
b. On control circuits terminated in motor control centers, switchgears,
control panels and alike: The field device and terminal number of the
opposite end connection.
c. On control circuits at each field device: The panel or compartment
number and terminal number of the opposite end connection.
2. Provide oversize wire markers so that after heat shrinking the wire marker
can be rotated on the wire. Rotate wire markers so that wire identification
number is visible.
C. Raceway Tags
Provide raceway tags to identify origin and destination of conduit. Install tags at
each terminus and at midpoint of run. Provide tags at minimum intervals of every 50
feet of above grade raceway except where concealed in walls. Provide brass tags
and nylon straps for attachment.
D. Safety Signs: Provide safety signs as follows or as shown:
1. Wording: "DANGER -ELECTRICAL EQUIPMENT, AUTHORIZED
PERSONNEL ONLY"
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
IDENTIFICATION
Location: On the outside door of all electrical equipment rooms or areas. On
the outside door of all electrical equipment cabinets.
2. Wording: "DANGER -POWERED FROM MORE THAN ONE SOURCE"
Location: Outside all equipment that operates from more than one power
source; ATS, PLCs, Main Tie Main switchgear/MCCs, etc.
3. Wording: "NOTICE -KEEP DOOR CLOSED" Location: On all doors with
another safety sign installed.
4. Wording: "CAUTION -CONTROLS & INTERLOCKS POWERED FROM
MULTIPLE SOURCES". Location: On all control panel doors, MCCs J&C
terminal cabinets, etc.
END OF SECTION
January 2010
16040-4
NcWRF COMPLIANCE ASSURANCE PROJECT
IDENTIFICATION
SECTION 16050
SPECIAL REQUIREMENTS
1.01 AUXILIARIES AND ACCESSORIES
A. Include all auxiliaries and accessories for a complete and properly operating
systems.
B. Provide and install all electrical systems and any necessary accessories as per NEC
and local codes whether specified herein or shown on drawings or not. The content
of these specifications (Division 16) and contract documents in general only refers to
work required above and beyond the requirements of the NEC and applicable local
codes.
1.02 LAYOUT OF WORK
A. Drawings are diagrammatic. Correlate final equipment locations with governing
Architectural, Structural, Process Mechanical and Instrumentation and Control
drawings. Layout before installation so that all trades may install equipment in
spaces available. Provide coordination as required for installation in a neat and
workmanlike manner. The engineer reserves the right to move any device 10' from
location shown on plans with no additional cost to the owner at any time prior to final
equipment installation and startup. Provide layout shop drawings for engineers
review for all MCC and electrical equipment rooms.
1.03 INVESTIGATION OF SITE
A. Check site and existing conditions thoroughly before bidding. Advise Engineer of
discrepancies or questions noted.
1.04 QUALIFICATIONS OF THE CONTRACTOR
A. The Electrical Contractor shall be regularly engaged in the construction,
maintenance repair and modification of industrial plant electrical equipment
devices, and systems. The lead, on-site, technical person shall be approved by
the engineer. Provide the services of a pre-qualified electrical contractor that has
demonstrated competence in providing electrical systems installation on this type
of facility to Collier County Utilities; The pre-approved electrical contractors for
this project are listed below:
1. American Electric
2. Cogburn Electrical
3. Gulf States Electrical
4. Southern Power and Controls
Other firms will be considered by the engineer on submittal of qualifications on or
before 14 days prior to bid. Submit 10 example projects of installed history of the
type and complexity of this project. Submit project data, and reference contacts.
B. SUPERVISION OF THE WORK: Provide a field superintendent who has had a
January 2010
16050-1
NCWRF ODOR CONTROL-IQ MODS
SPECIAL REQUIREMENTS
minimum of fifteen (15) years previous successful experience on projects of
comparable size and complexity. Superintendent shall be present at all times that
work under this Division is being installed or affected. Superintendent shall have
passed a proctored H.H. Block Masters Exam with 75% grade or better and shall
hold a State Masters Certificate of Competency. A resume of the Superintendent's
experience shall be submitted to Engineer before starting work. The resume shall list
a minimum of 10 previous industrial plant projects of comparable size and
complexity.
1.05 COORDINATION
A. Provide all required coordination and supervision where work connects to or is
affected by work of others, and comply with all requirements affecting this Division.
Work required under other divisions, specifications or drawings, indicated to be
performed by this Division shall be coordinated with the Contractor and such work
performed at no additional cost to Owner including but not limited to electrical work
required for roll-up doors, control panel installation, instrumentation and control
installation, etc.
B. Locate all openings required for work performed under this section. Provide sleeves,
guards or other approved methods to allow passage of items installed under this
section.
1.06 BASIS FOR WIRING DESIGN
A. The drawings and specifications describe specific sizes of switches, breakers, fuses,
conduits, conductors, motor starters and other items of wiring equipment. These
sizes are based on specific items of power consuming equipment (heaters, lights,
motors for fans, compressors, pumps, etc.). Wherever the contractor provides
power consuming equipment which differs from, the basis of design, drawings and
specifications, the wiring and associated circuit components for such equipment
shall be changed to proper sizes to match at no additional expense to the Owner.
1.07 PROVISION FOR OPENINGS
A. Locate all openings required for work performed under this section. Provide sleeves,
guards or other approved methods to allow passage of items installed under this
section.
B. Furnish to roofer all pitch pans required for electrical items which pierce roofwhether
or not shown on drawings. Roof penetrations are to be waterproofed in such a
manner that roofing guarantees are fully in force.
1.08 CONCRETE PADS
A. Furnish and install reinforced concrete pads for transformers, switchgear, and motor
control centers, of size as shown on the drawings or required. Unless otherwise
noted, pads shall be four (4) inches high and shall exceed dimensions of equipment
being set on them, including future sections, by three (3) inches on all sides, except
when equipment is flush against a wall, then the side or sides against the wall shall
be flush with the equipment. Chamfer top edges 1". Trowel all surfaces smooth.
16050-2
NCWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
January 2010
Reinforce pads with 6" X 6" X 6/6 welded wire fabric. Conduit stub up area within the
pad area shall remain void. Coordinate with equipment shop drawings stub up areas.
1.09 SURFACE MOUNTED EQUIPMENT
A. Surface mounted fixtures, outlets, cabinets, conduit, panels, etc. shall have finish or
shall be painted as directed by Engineer. Paint shall be in accordance with other
applicable sections of these specifications.
1.10 FLOOR MATING
A. Provide rubber insulation mats on floor in front of electrical equipment extending 18"
beyound. Mats to be minimum 3 feet wide or equal to isle width. Provide OSHA
approved insulating mats meeting OSHA regulation 1910.137 with 30,000 volt
insulating strength (Matworks or equal, 800 336-4604).
1.11 PROTECTION AND CLEAN UP
A. Suitably protect all equipment furnished under this Division during construction.
Restore all damaged surfaces and items to "like new" condition before a request for
substantial completion inspection.
1.12 MATERIALS
A. Reference: "General Conditions of the Contract".
B. Where several brand names, make or manufacture are listed as acceptable each
shall be regarded as equally acceptable. Where a manufacturer's model number is
listed, this model shall set the standard of quality and performance required. Where
no brand name is specified, the source and quality shall be subject to Engineer's
review and acceptance.
C. When a product is specified to be in accordance with a trade association or
government standard, at the request of Engineer, Contractor shall furnish a
certificate that the product complies with the referenced standard. Upon request of
Engineer, Contractor shall submit supporting test data to substantiate compliance.
1.13 SUBSTITUTIONS
A. Each bidder represents that his bid is based upon the materials and equipment
described in this division of the specifications.
B. No substitutions will be considered unless written request has been submitted to the
Engineer for approval at least ten days prior to the bid date. Submittal shall include
the name of the material or equipment for which it is to be substituted, drawings,
cuts, performance and test data and any other data or information necessary for the
Engineer to determine that the equipment meets all specification and requirements.
If the Engineer approves any proposed substitutions, such approval will be set forth
in an addendum.
C. Substituted equipment or optional equipment where permitted and approved, must
January 2010
16050-3
NCWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
conform to space requirements. Any substituted equipment that cannot meet space
requirements, whether approved or not, shall be replaced at the Contractor's
expense. Any modifications of related systems as a result of substitutions shall be
made at the Contractor's expense.
1.14 SUBMITTALS
A. Submit Technical Information Brochures at start of construction or within 30 days
after Award of the Contract. Each brochure shall consists of an adequately sized,
hard-cover, 3-ring binder for 8-1/2" X 11" sheets. Provide correct designation on
outside cover and on end of brochure. When, in the judgment of the Engineer, one
binder is not enough to adequately catalog all data, an additional binder will be
required and data split as directed by the Engineer. Specific shop drawing submittals
may be submitted separately after technical information brochures but before any
equipment is purchased; provide index and schedule of shop drawings to be
submitted within the technical information brochures.
B. First sheet in the brochure shall be a photocopy of the Electrical Index pages in
these specifications. Second sheet shall be prepared by the Contractor, and shall
list Project Addresses and phone numbers with key personnel for this project.
C. Provide reinforced separation sheets tabbed with the appropriate specification
reference number.
D. Technical Information consisting of marked catalog sheets or shop drawings shall be
inserted in the brochure in proper order on all items herein specified or shown on
drawings.
E. At the end of the brochure, provide and insert a copy of the specifications for this
Division and all addenda applicable to this Division.
F. Submit eight (8) brochures.
G. The General Contractor shall review the brochures before submitting to the
Engineer. No request for payment will be considered until the brochure has been
submitted and reviewed completely.
H. Submit cost breakdown "Schedule of Values" for electrical work in the Technical
Information Brochures. Cost of material and labor for each major item shall be
shown.
I. Reference: "General Condition of the Contract" and Section 01330.
J. Shop Drawings: Provide detailed shop drawings for all electrical equipment to be
supplied. Provide detailed plan view shop drawings at expanded scale indicating
how actual size of equipment to be provided is to fit into space available; show NEC
required working space clearances on plan. Provide detailed elevation views at
expanded scale of actual equipment to be provided and how it fits into available wall
spaces. Drawings shall be on 11" X 17" or 22" X 34" paper and drawn with a
computer aided design (CAD) package. The computer aided design package shall
be Autocad or converted to Autocad format. Engineering plan backgrounds of the
16050-4
NcWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
January 201 0
. facility shown on the contract documents will be available to the contractor on
request. Submittals shall include hard copy and CD-ROM media electronic copies.
Additional shop drawing requirements:
1. Title drawings to include identification of project and names of Engineer,
Engineer, General Contractor, subcontractor andlor supplier, data, number
sequentially and indicate in general:
2. Fabrication and Erection dimensions.
3. Arrangements and sectional views.
4. Necessary details, including complete information for making connections
with other work.
5. Kinds of materials and finishes.
6. Descriptive names of equipment.
7. Modifications and options to standard equipment required by the contract.
8. Leave blank area, size approximately 4 by 2-1/2 inches, near title block (for
Engineer's stamp imprint).
9. In order to facilitate review of drawings, insofar as practicable, they shall be
noted, indicating by cross reference the contract drawings, note, andlor
specification paragraph numbers where item(s) occur in the contract
documents.
10. See specific sections of specifications for further requirements.
K.' Product Data:
1. Submit technical data verifying that the item submitted complies with the
requirements of the specifications. Technical data shall include
manufacturer's name and model number, dimensions, weights, electrical
characteristics, and clearances required. Indicate all optional equipment and
changes from the standard item as called for in the specifications. Furnish
drawings, or diagrams, dimensioned and in correct scale, covering
equipment, showing arrangement of components and overall coordination.
2. In order to facilitate review of product data, insofar as practicable, they shall
be noted, indicating by cross reference the contract drawings, note, andlor
specification paragraph numbers where item(s) occur in the contract
documents.
3. See specific sections of specifications for further requirements.
L. Processing Submittals:
1. Product Data: For standard manufactured materials, products and items
submit eight (8) copies or sets of data. If submittal is rejected, resubmittal
shall be eight (8) copies of new data. When approved, three (3) copies will
be returned to Contractor.
2. Shop Drawings: For custom fabricated items, initially submit a transparency
(suitable for reproduction) together with two (2) prints made there from.
When submittal is acceptable, furnish seven (7) prints made from the
accepted transparency.
3. Acceptance: When returned to Contractor, submittals will be marked with
Engineer's stamp. If box marked "returned for correction resubmit" is
checked, submittal is not approved and Contractor is to correct and resubmit
as noted, otherwise submittal is approved and Contractor is to comply with
Januaf)' 2010
16050-5
NCWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
"" ,..~"'~~',.".~,"'"--'_~'
""
.
notation making necessary corrections on submittal and resubmit for final
record.
4. Reference: "General Conditions of the Contract" and Section 01330.
5. Note that the approval of shop drawings, or other information submitted in
accordance with the requirements hereinbefore specified, does not assure
that the Engineer, or any other Owner's Representative, attests to the
dimensional accuracy or dimensional suitability of the material or equipment
involved, the ability of the material or equipment involved or the
MechanicallElectrical performance of equipment. Approval of shop drawings
does not invalidate the plans and specifications if in conflict with the
submittal. It is the contractor's responsibility to request in writing and seek
written approval from the engineer for all deviations of the plans and
specifications.
1.15 PROGRESS AND RECORD DRAWINGS
A. Keep two sets offull size (22"x34") white prints on the job, and neatly mark up design
drawings each day as components are installed. Different colored pencils shall be
used as directed for different systems. Cost of prints shall be included under this
Division. All items on Progress Drawings shall be shown in actual location installed.
Change any equipment schedules to agree with items actually furnished.
B. Reference: "General Conditions of the Contract".
C. Prior to request for final payment, furnish a set of as-built drawings on reproducible
sepia to General Contractor.
1.16 OPERATING INSTRUCTIONS
A. Submitfor checking a specific set of written Operating instructions on each item that
require instructions to operate. After approval, provide one copy for insertion in each
Technical Information Brochure.
B. Refer to Section 01830.
1.17 MAINTENANCE INSTRUCTIONS
A. Submit for approval Maintenance Information consisting of manufacturer's printed
instructions and parts lists for each major item of equipment. After approval, insert
information in each Technical Information Brochure.
1.18 SYSTEMS GUARANTEE
A. The work required under this Division shall include a two-year guarantee. This
guarantee shall be by the Contractor to the Owner for any defective workmanship or
material that has been furnished under this Contract at no cost to the Owner for a
period of two years from the date of substantial completion of the System. This
guarantee shall not include light bulbs in service after six months from date of
Substantial Completion of the System.
B. Refer to Section 01830.
January 2010
16050-6
NcWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
1.19 FINAL INSPECTION
A. All work on the System shall be completed, and all forms and other information shall
be submitted for approval one week before the request for final inspection of the
building.
1.20 EQUIPMENT TO BE OF SINGLE MANUFACTURER
A. In general, all relays, contactors, starters, motor control centers, switchboards,
panelboards, dry type transformers, disconnect switches, circuit breakers, and
manual motor starter switches are to be supplied and manufactured by same
manufacturer, but must be submitted and approved equal to that specified.
1.21 CUTTING AND PATCHING
A. Reference: "General Conditions of the Contract" and Division 1 of the Technical
Specifications.
B. Supplementary Requirements: Any cutting of work in place shall be patched and
decorated by such mechanics and in such a manner that the quality of workmanship
and finish shall be compatible with that of adjacent construction.
1.22 GENERAL
A. Where the requirements of another Division, section, or part of these specifications
exceed the requirements of this Division, those requirements shall govern.
1.23 EXISTING CONDITIONS
A. Investigate site thoroughly and reroute all conduit and wiring in area of new
construction in order to maintain continuity of existing circuitry. Existing conduits
shown on plans show approximate locations only. Contractor must verify and
coordinate existing site conduits and pipes to any excavation on site. Bids to include
hand digging and all required rerouting in areas of existing conduits andlor pipes.
B. Special attention is called to the factthat work involved is in connection with existing
facilities that must remain in operation while work is being performed. Work must be
done in accordance with the owner's priority schedule as required. Schedule work
for a minimum outage to Owner. Request written permission and receive written
approval from Owner 48 hours in advance of any shutdown of existing system.
Perform work required at other than standard working hours where owner cannot
approve outages during regular working hours. Provide temporary power and
temporary wiring as required to maintain operation as directed by the owner or
engineer to facilitate construction. Protect existing buildings and equipment during
construction as required.
C. Special attention is called to the fact that there is conduit, wiring, fixtures and other
electrical items in and between the existing facilities that must be removed or
relocated in order to perform the work. Bid shall include all removal and relocation
required for completion of the alterations and the new construction.
January 2010
16050-7
NCWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
- ---.... ..""...,._.,,"..~ .._- ._..~~._._,--~,<~,~ ~
",--,-~,'--"'-""--~-'-'."--'-'-'-~"-"-"~---'--
END OF SECTION
January 2010
16050 8
NCWRF COMPLIANCE ASSURANCE PROJECT
SPECIAL REQUIREMENTS
SECTION 16110
RACEWAYS AND CONDUIT
PART 1 - GENERAL
1.01 DESCRIPTION
A. Description of System:
1. The entire installation shall be in heavy wall Schedule 80-PVC or heavy wall
Schedule 40-PVC plastic conduit, EMT and rigid galvanized steel conduit
and schedule 40 aluminum conduits unless specifically noted otherwise. Use
PVC coated rigid galvanized conduit for all hazardous location areas. Only
heavy wall PVC (Schedule 80) shall be used for all raceways trapped
underground without concrete encasement protection. Conduits in concrete
encasement use Schedule 40-PVC. Above ground in areas subject to
chemical degradation (chemical storage, chlorine rooms, odor control and
scrubber area, etc) use Schedule 80-PVC. Use rigid galvanized conduit for
exposed above grade interior area. Electrical Metallic Tubing shall be used
within air conditioned electrical rooms for power and for instrumentation and
control conduits, Use schedule 40 aluminum conduit above grade on exterior
of buildings and in above grade interior wet locations. Where PVC conduit
penetrates a floor from underground or in a slab; a black mastic coated rigid
steel conduit elbow shall be used for all conduits.
2. Minimum conduit size for all systems shall be 3/4". All conduits shall be U.L.
listed and labeled. Conduit sizes shown on the drawings are to aid the
contractor in bidding only; the contractor is responsible for conduit sizes as
required by NEC fill tables but do not provide smaller conduits than indicated.
The contractor is responsible to coordinate the required conduit sizes and
conductor quantities for all control and instrumentation system conduit and
wiring with the controls subcontractor prior to installation.
3. Provide stainiess steel or non-metallic conduit supports and 316 stainless
steel hardware in all areas except air conditioned spaces.
1.02 SUBMITTALS
A. Product Data:
1. Product data shall be submitted on:
a. Conduit
b. Conduit fittings
c. Surface metal raceway
PART 2 - PRODUCTS
2.01 ELECTRIC METALLIC TUBING
January 201 0
16110-1
NCWRF COMPLIANCE ASSURANCE PROJECT
RACEWAYS AND CONDUITS
,....-....-"..--...-,..-...........----.---
A. Electric metallic tubing (thin wall) shall meet Federal EMT SpeCifications WW-C-563.
2.02 RIGID METALLIC CONDUIT
A. Hot dipped galvanized rigid steel. Federal Specification WW-C-581.
2.03 FLEXIBLE STEEL CONDUIT
A. Continuous length, spirally wound steel strip, zinc-coated, each convolution
interlocked with following convolution. Federal Specification WW-C-566. Liquid-
tight Flexible Steel Conduit: Plastic jacketed flexible steel conduit with copper
bonding conductor.
2.04 PVC CONDUIT
A. PVC conduit shall be composed of High Impact Virgin homopolymer, PVC (polyvinyl
chloride C-200 Compound), and shall conform to industry standards, and be UL 651
listed in accordance with Article 347 of National Electrical Code for underground and
exposed use and NEMA standard TC-2. Materials must have tensile strength of 55
PSI, at 700F, flexural strength of 11,000 PSI, compression strength of 8600 PSI.
Manufacturer shall have five years' extruding PVC experience. Consistent with
requirements provide PVC conduit products by one of the following manufacturers:
1. Carlon
2. Cantex
3. J.M. Plastics
4. Queen City Plastics
2.05 Rigid Aluminum Conduit
A. Provide rigid schedule 40 aluminum conduit meeting the requirements of UL 514B.
Provide threaded, copper-free aluminum. Provide threaded aluminum conduit
fittings, of cast aluminum with integral insulated throat as manufactured by OZ
Gedney, T&B, Crouse-Hinds, Killark or Appleton.
2.06 EXPANSION FITTINGS
A. Conduit expansion fittings shall be malleable iron, and shall be hot dipped
galvanized inside and outside. These fittings shall have a four-inch expansion
chamber to allow approximately two-inch movement parallel to conduit run in either
direction from normal. They shall have factory-installed packing and internal tinned
copper braid packing to serve as an emergency bonding jumper. Unless the fitting
used is listed by Underwriters' Laboratories for use "without external bonding
jumpers", an external copper bonding jumper shall be installed with each expansion
fitting with one end clamped on each conduit entering fitting.
PART 3 - EXECUTION
3.01 INSTALLATION
16110-2
NCWRF COMPLIANCE ASSURANCE PROJECT
RACe'NA YS AND CONDUITS
January2010
A. All raceways shall be run in neat and workmanlike manner and shall be properly
supported in accordance with latest edition of NEC with approved conduit clamps,
hanger rods and structural fasteners except for PVC conduit installed in exterior
locations. PVC conduit installed in exterior locations shall be supported at two foot
intervals. Supporting conduit and boxes with wire is not approved. All raceways
except those from surface-mounted switches, outlet boxes or panels shall be run
concealed from view. Exposed raceways shall be supported with clamp fasteners
with toggle bolt on hollow walls, and with lead expansion shields on masonry. Rigid
steel box connections shall be made with double locknuts and bushings. Where
PVC penetrates a floor from underground or in slab, a black mastic coated steel
conduit elbow shall be used on all conduits. All individual bare copper .ground
conductors (i.e. service, transformer, or lightning protection grounds) shall be
installed in PVC conduit, not metal conduit. This does not apply to bare copper
ground conductors run with feeders (as specified in this section). Conduits shall be
run parallel to building walls wherever possible, exposed or concealed, and shall be
grouped in workmanlike fashion. Crisscrossing of conduits shall be minimized.
B. All raceways runs, whether terminated in boxes or not, shall be capped during the
course of construction and until wires are pulled in, and covers are in place. No
conductors shall be pulled into raceways until construction work which might damage
the raceways has been completed.
C. All raceways shall be kept clear of plumbing fixtures to facilitate future repair or
replacement of said fixtures without disturbing wiring. Except where it is necessary
for control purposes, all raceways shall be kept away from items producing heat.
D. All raceway runs in masonry shall be installed at the same time as the masonry so
that no face cutting is required, except to accommodate boxes.
E. All raceways shall be run from outlet to outlet exactly as shown on the drawings,
unless permission is granted to alter arrangement shown. If permission is granted
arrangement shall be marked on field set of drawings as previously specified.
F. All underground raceways (with exception of raceways installed under floor slab)
shall be installed in accordance with Section 300-5 of the NEC except that the
minimum cover for any conduit shall be two feet. Included under this Section shall
be the responsibility for verifying finished lines in areas where raceways will be
installed underground before the grading is complete.
G. All raceways shall have an insulated copper system ground conductor throughout.
the entire length of circuit installed within conduit in strict accordance with NEC.
Grounding conductor shall be included in total conduit fill determining conduit sizes,
even though not included or shown on drawings. Grounding conductors run with
feeders shall be bonded to portions of conduit that are metal by approved ground
bushings.
H. Insulated bushings shall be used on all rigid steel conduits terminating in panels,
wire gutters, or cabinets, and shall be impact resistant plastic molded in an irregular
shape at the top to provide smooth insulating surface at top and inner edge. Material
in these bushings must not melt or support flame.
January 2010
16110-3
NCWRF COMPLIANCE ASSURANCE PROJECT
RACEWAYS AND CONDUITS
_.... .
-_._,,<,,~.- ..
--""-'-
_._--_._"-----
I. Spare conduit stubs shall be capped and location and use marked with concrete
marker set flush with finish grade. Marker shall be 6" round X 6" deep with
appropriate symbol embedded into top to indicate use. Also, tag conduits in panels
where originating. In addition to spares shown on the drawing; provide 2 branch
power circuits, 2 branch lighting circuits, 2 instrument circuits, 2 control circuits and 2
empty outlet circuits with boxes and blank plates as directed in field; estimate 100'
conduit and wire for each run.
J. All conduit stubbed above floor shall be separated with plastic interlocking spacers
manufactured specifically for this purpose, or shall be strapped to Kindorf channel
supported by conduit driven into ground or tied to steel.
K. Raceways which do not have conductors furnished under this Division of the
specifications shall be left with an approved nylon pullcord in raceway.
L. Rigid Metallic Conduit electrical metallic tubing, flexible steel conduit and PVC
conduit shall be manufactured within the United States.
M. All connections to motors or other vibrating equipment (except dry type transformers)
or at other locations where required shall be made with not less than 12" nor more
than 20" of flexible liquid-tight steel conduit, using special type of connectors with
strain relief fittings at both terminations of conduit. Flex connectors shall have
insulated throat and shall be T & B 3100 Series or approved substitution. Use angle
connectors wherever necessary to relieve angle strain on flex conduit. Connections
to dry type transformers shall be made with flexible conduit. Typical length of flex
conduit shall be limited to 20" unless specifically approved by the engineer.
N. PVC joints shall be solvent welded. Threads will not be permitted on PVC conduit
and fittings, except for rigid steel to PVC couplings. Installation of PVC conduit shall
be in accordance with manufacturer's recommendations. PVC conduit shall not be
used to support fixture or equipment. Field bends shall be made with approved
hotbox. Heating with flame and hand held heat guns are prohibited.
O. Expansion fittings shall be installed in the following cases: In each conduit run
wherever it crosses an expansion joint in the concrete structure; on one side of joint
with its sliding sleeve end flush with joint, and with a length of bonding jumper in
expansion equal to at least three times the normal width of joints; in each conduit run
which mechanically attached to separate structures to relieve strain caused by shift
on one structure in relation to the other; in straight conduit run above ground which is
more than fifty feet long and interval between expansion fittings in such a runs shall
not be greater than 100 feet for steel conduit and 50 feet for PVC conduit.
P. Electric metallic tubing (thin wall) shall be installed inside buildings above ground
floor slab where not subject to mechanical injury or wet areas. Tubing shall be
joined with steel fittings and steel compression connectors.
Q. Rigid metallic conduit installed underground shall be coated with waterproofing black
mastic before installation, and all joints shall be recoated after installation.
R. Conduit installations on roofs shall be kept to a bare minimum. Where required,
conduit shall be rigid steel conduit, including couplings. Conduit shall be supported
16110-4
NcWRF COMPLIANCE ASSURANCE PROJECT
RACEWAYS AND CONDUITS
January 2010
above roof at least 6 inches using approved conduit supporting devices. Supports to
be fastened to roof using roofing adhesive as approved by roofing contractor.
S. Underground cable identification: bury a continuous, pre-printed, bright colored
metalized plastic (electronically traceable) ribbon cable marker with each
underground conduit (or group of conduits), regardless of whether conduits are in
ductbanks. Locate directly over conduits, 6" to 8" below finished grade. Delete this
requirement under building slabs.
T. Provide for separation of instrumentation, control and power conductors. Provide a
minimum of 24" inch separation for parallel runs of power conduit and
instrumentation or control conduit with either conduit being PVC or Aluminum. This
separation can be reduced to 12" if metallic grounded separation is provided (steel
conduit).
END OF SECTION
January 2010
16110-5
NCWRF COMPLIANCE ASSURANCE PROJECT
RACEWAYS AND CONDUITS
SECTION 16120
LOW VOLTAGE WIRES AND CABLES
1.01 GENERAL
A. Power Conductors:
1. Branch circuits and feeder conductors for all three phase electric power shall
be stranded copper type XHHW-2 cross-link polyethylene (XLP) insulation
and derated to 75 degrees Centigrade. No aluminum wiring shall be
permitted. All wire shall be size shown on the drawings. Ifno size is shown,
wire shall be in accordance to NEC and minimum No. 12, except that branch
"homeruns" over 50 ft. in length shall be minimum No. 10 for 120/208V
circuits. All branch lighting circuits serving HID and Fluorescent fixtures shall
be minimum #10 with each circuit provided with a separate neutral. Wire in
vicinity of heat-producing equipment shall be type XHHW insulation. All
wiring shall be manufactured in the USA.
2. Motor leads from variable frequency drives to driven motor shall be shielded
VFD drive cable for all VFD motors. Provide flexible VFD shielded drive
cables, 3 Class-I conductor cable plus 3 trisectional green insulated ground
wires. Provide electrostatic shielding of tinned copper braided shield with
aluminum-polyester laminated tape shielding system. Cross-linked polyolefin
insulation system and neoprene outer jacket, type TC cable as manufactured
by Rockbestos-Surprenant Cable Corp. or equal. Shielded VFD motor
cables require increased conduit sizes over standard wire installations.
Contractor to verify conduit sizes.
B. Taps and Splices:
1. All power wiring taps and splices in NO.8 or smaller wire shall be fastened
together by means of terminal strips except within lighting fixtures and wiring
devices where conformance to NEC practices will be acceptable. All taps
and splices in wire larger than NO.8 shall be made with compression type
connectors and taped to provide insulation equal to wire. Tape shall be
heavy duty, flame retardant and weather resistant vinyl electrical tape,
minimum 7 mil premium grade with an operating of 0 degree F. to 220
degree F. Provide tape meeting UL 510 and CSA standard C22.2.
2. All taps and splices in manholes or in ground pull boxes, MCCs, etc. shall be
approved by the engineer on a case by case basis; be made with high press
long barrel double crimp compression type connectors and covered with
Raychem heavy wall cable sleeves (type CTE or WCS) with type "S" sealant
coating: Install sleeve kits as per manufacturer's installation instructions.
C. Color Coding:
1. All power feeders and branch circuits No.6 and smaller shall be wired with
color-coded wire with the same color used for a system throughout the
16120-1
NcWRF COMPLIANCE ASSURANCE PROJECT
LOWVOL TAGEWIRESAND CABLES
January 201 0
building. Power feeders above NO.6 shall either be fully color-coded or shall
have black insulation and be similarly color-coded with tape or paint in all
junction boxes and panels. Tape or paint shall completely cover the full
length of conductor insulation within the box or panel except for the wire
markings.
2. Unless otherwise approved, color-code shall be as follows: Neutrals to be
white for 120/208V system, natural grey for 277/480V system; ground wire
green, bare or green with yellow strips nominal. 120/208V, PhaseA -black;
Phase B - r~d; Phase C - blue. 480/277V, Phase A brown; Phase B -
orange; Phase C -yellow. All switch legs, other voltage system wiring, control
and interlock wiring shall be color-coded other than those above. In
remodeling projects, comply with existing color coding established within the
facility.
1.02 INSTRUMENTATION AND CONTROL CABLE:
A. Multiconductor and Multi pair Process instrumentation cable shall be #16 AWG
stranded, twisted pair, 600 V, (XLP) cross link polyethylene insulated, aluminum tape
pair shielding, cross link polyethylene or chlorinated polyethylene (CPE) overall
sheathed and shielded, type TC instrument cable as manufactured by the American
Insulated Wire Co., Belden Wire Co. or equal.
B. Multiconductor control cable shall be #14 AWG stranded, 600V, (XLP) cross link
polyethylene insulated or polyolefin, with cross link polyethylene or chlorinated
polyethylene (CPE or Hypalon) overall sheathed type TC control cable except for
control cable into and out ofVFD cabinets. Multiconductor control cable into and out
of VFD cabinets shall be as Indicated above and in addition include an aluminum
polyester tape overall shield and drain wire. As a contractor alternate to shielded
control cable into and out ofVFD cabinets, provide twisted shielded instrument cable
as specified above. Contractor to provide increased conduit size as required if
instrument cable alternate is used into and out of VFD cabinets.
D. Connections:
1. All conductor connections shall be on terminal strips including all spare
conductors. Provide terminal strips in all cabinets; motor control centers; etc.
2. All connections of stranded wire to screw tenninals shall be by insulated
spade lugs, crimp fastened to wire except where terminal strips are listed for
stranded bare connections in which case delete spade lugs.
3. All conductors shall be marked with rnylar wrap type "Brady" labels.
Identification labels shall be permanent type and be machine printed. All
terminal block terminations shall be labeled. The inside portion of the
terminal cabinet doors shall display a protected terminal cabinet drawing with
all connections shown and described as to color code, number assigned to
connection function of conductor and destination.
4. Wire shall be guided within terminal cabinets by cable supports. All
conductors shall be neatly led to terminations.
5. Cabinets: All cabinets shall be labeled with an engraved plastic laminate
. label riveted to the door.
6. No splices shall be made within a conduit run or in manholes.
16120-2
NCWRF COMPLIANCE ASSURANCE PROJECT
LOWVOL T AGE WRESAND CABLES
January 2010
D. Provide for separation of instrumentation, control and power conductors. Provide a
minimum of 24" inch separation for parallel run of power conduit and instrumentation
or control conduit. This separation can be reduced to 8" if metallic grounded
separation is provided.
1.03 SUBMITTALS:
A. Submit cut sheets on all major types of wires and cables including splicing tape, and
terminatinglsplicing lugs, conductor identification systems and connectors and cable
sleeves. Submit sample of all instrumentation and control cable. Sample shall be a
minimum of 24" with exterior sheath clearly marked.
B. Submit sample of all cable identification systems products.
END OF SECTION
16120.3
NCWRF COMPLIANCE ASSURANCE PROJECT
LOWVOL TAGE WlRESANDCABLES
January 201 0
SECTION 16130
OUTLET BOXES
1.01 GENERAL
A. Surface outlet boxes and conduit bodies shall be the heavy cast ferraloy malleable
iron with external raised hubs and mounting lugs; cadmium plated and enamel finish
- Appleton, Crouse Hinds or approved substitution. Trim rings shall also be of one
piece construction.
B. Outlet boxes shall be of such form and dimensions as to be adapted to the specific
use and location, type of device or fixtures to be used, and number and size of
conductors and arrangement, size and number of conduits connecting thereto.
C. Ceiling outlet boxes shall be 4" octagonal or 4" square X 1-1/2" deep or larger as
required for number and size of conductors and arrangement, size and number of
conduits terminating at them.
D. Switch, wall receptacle, telephone and other wall outlet boxes in drywall shall be 4"
square X 1-1/2" deep. For furred-out block walls, provide 4" square box with
required extension for block depth and required extension for drywall depth.
E. All flush outlets shall be mounted so that covers and plates will finish flush with
finished surfaces without the use of shims, mats or other devices not submitted or
approved for the purpose. Add-a-Depth rings or switch box extension rings (Steel
City #SBEX) are not acceptable. Plates shall not support wiring devices. Gang
switches with common plate where two or more are indicated in the same location.
Wall-mounted devices of different systems (switches, thermostats, etc.) shall be
coordinated for symmetry when located near each other on the same wall. Outlets
on each side of walls shall have separate boxes. Through-wall type boxes shall not
be permitted. Back-to-back mounting shall not be permitted. Trim rings shall be
extended to within 1/8" of finish wall surface.
F. Outlet boxes mounted in metal stud walls, are to be supported to studs with two (2)
screws inside of outlet box to a horizontal stud brace between vertical studs.
G. All outlet boxes that do not receive devices in this contract are to have blank plates
installed matching wiring device plates.
H. Covers for cast boxes (flush and surface) installed in damp orwet locations shall be
UL approved for weatherproof locations (UL standard 498 and 514; OSHA standard
Subpart "S"; NEMA Standard WD-1) with plug inserted and shall comply with NEC-
41 0-57b; shall be heavy cast copper free aluminum with 2 coat baked epoxy finish;
self closing door with stainless steel hinge and springs; EPDM gaskets. Provide
Crouse Hinds, Appleton or equal. This requirement includes outlets mounted flush in
exterior lighting poles.
1.02 MOUNTING HEIGHT
16130-1
NCWRF COMPLIANCE ASSURANCE PROJECT
OUTLET BOXES
January 201 0
- .
-
.-.------."-.
u. ._<,_ "_"._"_ __. _~_~__'_~'_'_
A. Height of wall outlets to bottom above finished floors shall be as follows, unless
specifically noted otherwise. Verify with the Architectural plans and shop drawings
for installing.
Switches 4'-0" Maximum to centerline
Receptacles 1 '-4"
Lighting Panels (top of Panel Trim) 6'-6"
Phone Outlets 1 '-4"
B. Bottoms of outlets above counter tops or base cabinets shall be minimum 2" above
counter top or backsplash, whichever is highest. Outlets may be raised so that
bottom rests on top of concrete block course, but all outlets above counters in same
area shall be at same height. It is the responsibility of this Division to secure cabinet
drawings and coordinate outlet locations in relation to all cabinets as shown on
plans, prior to rough-in, regardless of height shown on Division 16 drawings.
C. Height of wall-mounted fixtures shall be as shown on the drawings oras required by
Architectural plans and conditions. Fixture outlet boxes shall be equipped with
fixture studs when supporting fixtures.
1.03 SPECIAL PURPOSE OUTLETS
A. Locate special purpose outlets as indicated on the drawings for the equipment
served. Location and type of outlets shall be coordinated with appropriate trades
involved. The securing of complete infonnation for proper electrical roughing-in shall
be included as work required under this section of specifications.
104 SUBMITTALS
A. Submit product data on all different types of outlet boxes, floor boxes and associated
trimlplaster rings.
END OF SECTION
16130-2
NCWRF COMPLIANCE ASSURANCE PROJECT
OUTLET BOXES
January 201 0
SECTION 16134
PANELBOARDS
1.01 GENERAL
A. Panelboards shall be of deadfront design equipped with bolt on, quick-make, quick-
break circuit breakers of the thermal magnetic type and mains with lugs or main
breakers as shown on Panel Schedule. Panel bus shall be tin plated copper. Panel
Bus shall be density rated at 1000amps/square-inch based on a 40 degree
centigrade ambient. Temperature rated bus is not acceptable. Bus shall be braced
for a minimum capacity equal to or greater than the available fault current at the
panel. Double and triple pole breakers shall be of the common trip, single handle
type. Enclosures for panelboards shall be galvanized and painted steel except
enclosures for panelboards located in corrosive, damp or wet locations shall be
stainless steel and NEMA-3R
B. Cabinets shall be surface or flush-mounted as shown on the drawings, constructed
of code gauge steel, galvanized or bonderized to prevent rust.
C. Size of wiring gutters and gauge of steel shall be in accordance with NEMA
Standards Publication No. PBI 57 and UL Standards No. 67. Cabinets shall be
minimum 20" wide for al.1 panels.
D. Panels and breakers shall be rated for voltage and class of service to which applied.
Panels shall have lock and shall be keyed alike.
E. Panels shall be supplied with standard baked enamel finish; both cabinets and front,
except flush panels shall have galvanized cabinets.
,
F. All panel board cabinets shall have a system grounding bar bonded to the
panelboard cabinet for connection of system grounding conductors. This bar shall
be mechanically and electrically isolated from the neutral bar. Panel fronts on flush
panels shall have completely concealed trim clamps and door hinges. Install four 1"
conduits from flush panels to ceiling space above and to ceiling or access space
below if available (for future use).
G. Mount a typewritten directory showing the actual circuit numbers, type of load and
room names on inside of door. Room or equipment names shall be actual names or
numbers used, not necessarily shown on the drawings. Provide type written
directory for all existing panels modified by this contract.
H. Provide panelboards by Square-D, Cutler Hammer or GE to match existing plant
equipment.
1.03 SUBMITTALS
A. Product data and shop drawings:
1. Product data shall be submitted on:
January 2010
16134-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PANELBOARDS
a. Panel
b. Cabinet
c. Bus
d. Construction
e. Dimensions
2. Shop drawing shall be submitted for each and every panel, each and every
panel drawing shall clearly indicate the following information:
a. U.L. Label
b. Each circuit breaker amperage rating, circuit number and
positionllocation in panel
c. Electrical characteristics of panel
d. Mains rating
e. Main device rating
f. Mounting
g. Dimension, width, depth, height
h. Bus material
r. Interrupting capacity of minimum rated breaker
END OF SECTION
January 201 0
16134-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PANELBOARDS
SECTION 16140
WIRING DEVICES
1.01 GENERAL
A. Wiring devices shall be extra heavy duty industrial specification grade. Switches
shall be silent type. Receptacles shall be duplex grounding type.
B. Cover plates for devices requiring them shall be 304 stainless steel except cast
boxes provide cast covers. All outside receptacles (weatherproof) shall be duplex
G.F.C.1. cast cover plates.
C. Voltage and ampere rating of switches shall be marked on switch, and shall conform
to voltage of system to which applied.
D. Covers for cast boxes (flush and surface) installed in damp orwet locations shall be
UL approved for weatherproof locations (UL standard 498 and 514; OSHA standard
Subpart "8"; NEMA Standard WD-1) with plug inserted and shall comply with NEC-
41 0-57b; shall be heavy cast copper free aluminum with 2 coat baked epoxy finish;
self closing door with stainless steel hinge and springs; EPDM gaskets. Provide
Crouse Hinds, Appleton or equal. This requirement includes outlets mounted flush in
exterior lighting poles.
E. Provide Surge Suppressor receptacles for all computer and electronic equipment.
Provide units that are UL 1449-1987 listed for category "A" and "B" and that meet
ANSIIIEEE 587 standards. Provide units that are rated 20 amps, 125 Volts NEMA
configuration 5-20R; Ivory color with condition indicator light and engraved or other
means of identification of special receptacle. Provide units with minimum capacity of
70 Joules; MOV technology with 3 mode protection; line to line, line to neutral, and
neutral to ground. Provide units capable of with standing 6500 amps peak surge
current for 8 x 20 microsecond impulse. Units that have plug in replaceable modules
are not acceptable. Provide units equal to Leviton, Pass and Seymour or approved
equal.
F. Acceptable manufacturers for wiring devices are General Electric, Bryant, Hubbell,
Pass and Seymour, Sierra, Leviton.
1.02 SUBMITTALS
A. Submit product data on all types of wiring devices including plates and engraving.
Provide one sample of each type device for approval.
END OF SECTION
January 201 0
16140-1
NCWRF COMPLIANCE ASSURANCE PROJECT
WIRING DEVICES
SECTION 16150
ELECTRIC MOTORS
PART 1 - GENERAL
1.01 DESCRIPTION
A. This section describes materials, installation and testing of induction motors and
applies to motors which are provided as part of equipment specified in other
sections. Contractor shall furnish motors in conformance to this section and with
the individual specification sections of the driven equipment for a complete and
operable system. It shall be the contractor's responsibility to bring to the attention of
the engineer any conflict between this section and the driven equipment section for
engineer's resolution prior to purchase; in general worst case governs.
B. Motors which are an integral part of standard manufactured driven equipment
(submersible pumps, motor valve operators) may be exempt from this specification
where necessary and required by the manufacturer of the equipment.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Low-Voltage Motor Control:
B. Variable Frequency Drives:
C. Motor Acceptance Testing:
1.03 SUBMITTALS
A. Submit shop drawings in accordance with the General Conditions.
B. Show complete nameplate data, horsepower, current, voltage, phase, and
frequency ratings, NEMA design, Frame Size, starting code letter or locked rotor
KVA, efficiency and power factor, winding insulation class and treatment, rated
ambient temperature, service factor, mounting arrangements, size and location of
conduit entry, location and size of grounding lug, and coatings.
C. For high efficiency motors, submit guaranteed full load efficiency.
1.04 FACTORY TESTS
A. Tests shall comply with NEMA Standard MG1-12.51 and MG 1-23.46.
B. For high efficiency motors, provide certified test results of percent efficiency and
power factor data at full 75% and 50% load.
January 2010
16150-1
NCWRF COMPLIANCE ASSURANCE PROJECT
MOTORS
C. Test themnally protected motors in accordance with NEMA Standard MG 1 winding
temperature and trip current tests.
1.05 CONTROLLER COORDINATION
A. Where motor controllers are furnished, provide reviewed shop drawings to the
controller manufacturer for coordination and sizing of the controller.
1.06 QUALITY ASSURANCE
A. NEMA Compliance: Unless otherwise indicated, comply with NEMA standard MG
1.
B. U.L. Listing: Motors for applications in hazardous locations shall bear the U.L. label
listing its use in accordance with NEC.
C. ANSI/IEEE 112; Test Procedures for polyphase induction motors.
PART 2 - PRODUCTS
2.01 GENERAL MOTOR DESIGN REQUIREMENTS
A. Unless otherwise specified or specifically required by the manufacturer of the
equipment to be driven, alternating current. motors shall be single speed, non-
reversing, squirrel cage induction motors, NEMA design B. Motors 15 horsepower
and larger shall be NEMA starting code F or G. Motors smaller than 15 horsepower
may be manufacturers' standard starting characteristics.
B. Stator windings shall be copper.
C. The connected load (maximum horsepower required) of each motor shall not
exceed its nameplate horsepower rating (exclusive of service factor) under any
operating condition.
.
D. Connection box shall be cast metal with gaskets between the box and housing and
between the box and cover. Provide a grounding terminal in the connection box.
E. Open dripproof and weather-protected motors shall have a service factor of 1.15.
Inverter Duty (VFD) rated motors shall have a service factor of 1.15 for sine wave
power and 1.0 for inverter power. Totally enclosed fan cooled motors shall have a
service factor of 1.15.
F. Unless otherwise noted, motors shall be rated for continuous duty at an ambient
temperature of 400C and at an altitude of 3,300 feet. High ambient Motors shall be
rated for continuous duty at an ambient temperature of 650C. Motors shall have
120-volt heating elements.
January 2010
16150-2
NCWRF COMPLIANCE ASSURANCE PROJECT
MOTORS
G. Open dripproof and weather-protected motors 7.5 HP and larger shall have
stainless steel screens over openings.
H. Motors installed in hazardous areas shall be Totally enclosed, explosion proof,
suitable for use in Class 1, Division I, Group 0 hazardous locations, with UL label.
I. Provide motors with a guaranteed maximum noise level of 90dBA, measured at
three feet from the motor surface per IEEE 85, when running at no-load connected
to sine wave power.
J. Unless otherwise noted, motors shall be premium efficiency type. The efficiency
shall be determined by IEEE 112 method B using sine wave power for motors up to
300 horsepower and method F for motors above 300 horsepower. Efficiency shall
be listed on the nameplate in accordance with NEMA MG 1 12.53.
K. As a minimum all motors shall have manufacturer's standard tropical protection.
Motors in wet locations shall be moisture sealed. Motors with form-wound coils
shall have vacuum-pressure impregnated windings.
L. Motors designated to be Totally Enclosed Fan Cooled (TEFC) shall be rated for
IEEE-841-1994 standards or Coro-duty where listed in pump sections of
specifications. TEFC motors shall be premium efficient, all cast iron including
conduit box and fan cover guard, with stainless steel nameplate and plated
hardware, with internal bearing caps and an inprolseal on the drive end. Motor
finishes shall be rated for 250hour salt spray. TEFC motors shall have a 5 year
warranty. Motors shall equal or exceed NEMA table 12c, 1997 efficiency
requirements for energy efficient motors. Motors shall be US Electrical Motor type
TEFC 841 Plus-CE or approved equal.
M. In addition to nameplate information required by NEMA Standard MG 1-10.37
through 39, show on the nameplate the bearing numbers for both bearings,
efficiency, power factor at full load and the maximum recommended kVAR of power
capacitors to result in a 90 percent power factor. Provide all motors with stainless
steel nameplates.
N. Equip all motors with thermal protection in accordance with NEMA Standard MG 1.
Control leads shall be color-coded, brought out to the motor conduit box or a
separate terminal box for connection.
1. Provide three series connected, thermal switches, one in each winding.
Provide normally closed and normally open switches as shown on the
electrical elementary drawings. Where not shown provide normally closed
switches.
2.02 BEARINGS
A. Bearings for standard duty motors shall be rated for a minimum of 24,000 hours (B-
10 rating); Heavy duty specified motors bearings shall be rated for a minimum of
40,000 hours (B-1O rating). Where unspecified provide bearings with B-10 ratings
as follows: Less than 50hp provide 24,000hr B-10 rating; 50hp to 200hp provide B-
10 rating of 40,000hr; greater than 200hp provide B-10 rating of 100,000hr.
16150-3
NCWRF COMPLIANCE ASSURANCE PROJECT
MOTORS
January 2010
B. Bearings shall be ball or roller anti-friction type. Fractional horsepower through 2
horsepower motors shall be furnished with life time lubricated bearings. Horizontal
motors larger than 2 horsepower shall be furnished with relubricatable ball
bearings.
C. Vertical Motors
1. Vertical motors shall be designed for vertical operation and shall have thrust
bearings with a rated B-10 life of 40,000 hours as defined by Anti-Friction
Bearing Manufacturers Association (AFBMA).
2. Thrust bearings for motors 75 horsepower and larger shall be oil lubricated.
Guide bearings may be anti-friction, grease lubricated or oil lubricated.
3. Equip. grease lubricated bearings with fittings in each bearing housing.
Fittings shall be accessible without removal of any covers or guards. Provide
drains to prevent over-lubrication.
D. Equip motors with a non-reversing ratchet as required or as indicated.
2.03 INSULATION AND TEMPERATURE RISE
A. Unless otherwise noted, provide Class F insulation limited to Class B temperature
rise at unity service factor.
B. All motors indicated to be heavy duty motors in the individual equipment
specifications of the contract documents shall be provided with minimum Class "H"
insulation system limited to Class "B" temperature rise at unity service factor.
2.04 VOLTAGE
A. Generally provide alternating current motors 1/2 horsepower and smaller at 115
volts single phase 60 Hz, and motors 3/4 horsepower and larger at 460 volts three
phase 60 Hz. Contractor shall coordinate exact requirements.
2.05 COATING
A. Do not coat cast aluminum frame motors.
B. Motors housed within equipment enclosures, such as exhaust fans, air handling
units, and air conditioners, may have factory's standard prime and finish coats.
C. Coat cast-iron frame motors. Apply prime coat at the factory which shall be
compatible with field applied finish coats.
D. Field apply finish coat(s) specified in the applicable equipment section.
2.06 INVERTER DUTY RATED MOTORS
A. Inverter duty rated motors (variable frequency drive (VFD) controlled motors) shall
have a nameplate that states "SUITABLE FOR VFD APPLICATION". VFD motors
January 2010
16150-4
NCWRF COMPLIANCE ASSURANCE PROJECT
MOTORS
shall not have a critical vibration frequency within the operating range of the VFD.
Provide VFD rated motors with special balance option. Provide balance to .0005in
for high thrust and 36000rpm motors; .0010in for all other motors.
B. Except where noted, the motor features defined by this specification shall be in
addition to any mechanical and electrical feature defined in the fixed speed motor
section.
C. Motor insulation shall be an "Inverter Grade" system designed to meet the voltage
spike limits defined by NEMA MG1, Part 31, 1993. The insulation system must
include the use of High Dielectric magnet wire which exceeds the dielectric
withstand levels provided by double film or heavy film magnet wire. Complete
insulation of the slot, cell and phase groups is required. The system shall be rated
for class F rise or better. The winding insulation system shall be equal to Phelps
Dodge Thermaleze Quantum Shield. The system shall exhibit an insulation pulse
endurance life expectancy of 150% at 60HZ when compared to typical heavy film
insulation systems. The system shall exhibit an insulation pulse endurance life
expectancy from fast rise time IGBT inverters of 100% at a 2.0KHZ carrier
frequency.
D. Motors shSlIl be capable of operating at 1.0 service factor on Inverter Power.
Nameplate Sinewave service factor shall be 1.15 or greater.
E. Motor temperature rise shall not exceed class F insulation limits, with 115EC
allowable winding hot spot temperature, when operated on Inverter Power across
its nameplate speed and torque envelope. Sinewave temperature rise shall be
class F or better.
F. The 2 pole 4 pole 6 pole 8 pole motors shall be capable of operating a Variable
Torque centrifugal pump load from base speed down to 10% of base speed. Motor
shall be name plated for 6-60 Hertz operation. Hazardous location motors may be
nameplated 10-60 Hertz.
G. Stator core designs shall be of high rigidity with reinforced end turn construction to
minimize mechanical fatigue of the winding, and to reduce resonant noise. Single
dip and bake cycles are not acceptable.
H. Winding thermal protection, utilizing normally closed contacts (or normally open
where shown on the electrical drawings) shall be sized to match the maximum safe
operating temperature of the insulation system. Hazardous location motors shall
have winding thermal protection sized as required to meet U.L. or as auxiliary
devices where not required by U.L.
I. Maximized copper content shall be utilized to achieve high motor efficiency and
thermal transfer. Table 1 lists the minimum NEMA nominal efficiency levels that
rnust be nameplated on the motor. Low loss electrical steel shall be utilized in the
stator and rotor core assemblies.
J. Nameplate data for adjustable speed operation shall be stamped on a stainless
steel data plate and permanently attached to the motor frame. The minimum
amount of adjustable speed data shall include:
January 2010
16150-5
NCWRF COMPLIANCE ASSURANCE PROJECT
MOTORS
1. Application Type - Variable Torque andlor Constant HP.
2. Maximum approved continuous HP.
3. Approved speed range.
4. Typical motor volts per hertz.
5. S.F. on inverter power.
PART 3 - EXECUTION
3.01 STORAGE
A. Protect motors from exposure of elements for which they are not designed. Install
and energize temporary electrical service to motors with electrical heaters.
B. Unless protected by manufacturer's packing, upon delivery, carefully wrap each
motor in three layers of 8-mil minimum polyethylene. Secure the wrap with
adhesive tape to minimize the entrance of moisture. For base mounted motors,
wrap the entire assembly.
3.02 FIELD OPERATING TESTS
A. Run each motor with its control as nearly as pOSSible under operating conditions to
demonstrate correct rotation direction, alignment, wiring size, proper overload relay
sizing, speed and satisfactory operation. Test interlocks and control features to
verify correct wiring and operation.
B. Record current in each phase of each motor 1 horsepower and larger and include in
the maintenance manual. Repair or replace motor or driven equipment if current
exceeds motor nameplate value.
END OF SECTION
January 2010
.
NCWRF COMPLIANCE ASSURANCE PROJECT
MOTORS
16150-6
SECTION 16160
MOTOR CONTROLS
PART 1 - GENERAL
1.01 FURNISHING OF EQUIPMENT
A. Unless specifically noted otherwise, motor starters for all equipment requiring them
shall be furnished under this section and installed under this Section of the
specifications. Provide modifications for existing MCCs by Square-D, Cutler Hammer
and General Electric to match existing.
1.02 CONTROL ITEMS
A. All control, alarm and interlock wiring required for proper operation of equipment
furnished by any other Contractor and the required raceways shall be furnished and
installed under this Division. All control, alarm and interlock wiring shall be in conduit
and shall be color-coded.
1.03 DESCRIPTION OF SYSTEM
A. Factory-assembled, metal-enclosed motor units for distribution and control of power
frorn incoming line terminals to outgoing feeder terminals, installed and tested in
place.
B. Motor Control Units shall include all protective devices and equipment as listed on
drawings or as included in these specifications, with necessary interconnections,
instrumentation, and control wiring.
1.04 QUALITY ASSURANCE
A. Reference Standards
1. American National Standard Institute (ANSI)
a. ANSI Y32.2-1975, Graphic Symbols for Electrical and Electronic
Diagrams.
b. ANSI Z55.1-1967 (R1973) Gray finishes for Industrial Apparatus and
Equipment.
2. National Electrical Manufacturers Association (NEMA)
a. NEMA ICS-1, 2, 3, 4, 5, 6, controls and systems.
3. National Fire Protection Association (NFPA)
a. NFPA 70, National Electric Code (NEC).
January 2010
16160-1
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
4. Underwriters' Laboratories, Incorporated (UL)
a. UL Electrical Construction Materials List, motor
controllers motor-control centers (NJAV), (HJOT) and (NLDX).
1.05 SUBMITTALS
A. Shop Drawings and Product Data
1. Shop Drawings, Motor Control Centers
a. Layouts showing concrete pad dimensions, conduit entrance and
available space, bus duct connections, electrical ratings, nameplate
nomenclature, and single-line diagrams in accordance with ANSI
Y32.2 indicating connections and controls with numbered terminals
and wire markings.
b. Shop Drawings shall clearly indicate
1) Frame sizes and Interrupting Capacity of each starterlmotor
circuit protector unit and total assembly.
2) Horsepower ratings at rated voltage of starter/motor circuit
protector unit. .
3) Type of labels and labeling for every device and what it feeds.
4) Elementary diagram for power and control logic with
numbered terminals and labeled interconnecting wiring and
all required accessories.
5) Bus bar size (density rated), arrangement and spacing.
2. Shop Drawings, Individually mounted AC Magnetic Starter
a. Shop Drawings shall clearly indicate
1) Frame sizes and Interrupting Capacity of starter andlor
disconnect unit.
2) Horsepower rating of rated voltage of starter andlor
disconnect unit.
3) Electrical ratings.
4) Elementary diagrams for power and control logic with
numbered terminals and all required accessories.
5) All required accessories.
3. Product Data, Motor Control Centers or Individually Mounted Starter
a. Manufacturer's written recommendation for storage and protection,
installation instructions and field test requirements.
4. Provide detailed elevation and plan views to scale of actual equipment to be
provided and how it fits into available section spaces. Provide elementary
drawings for each starter showing all control devices and interconnecting
wiring. Drawings shall be on 11" X 17" or 24" X 36" paper and drawn with a
16160-2
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
January 201 0
computer aided design (CAD) package. The computer aided design package
shall be AutoCAD or converted to AutoCAD format (dwg or dxf file format).
Submittals shall include hard copy and electronic CD-Rom copies in dwg
format.
1.06 PRODUCT DELIVERY, STORAGE AND HANDLING
A. Lift motor control center using eyes, yokes, and skids provided by manufacturer.
B. Do not store indoor motor control units exposed to weather.
C. Use space heaters in outdoor motor control units to prevent condensation before
motor control unit is energized.
D. Physically protect motor control units against damage from work of other trades.
E. Cover motor control units with suitable material to avoid damage to finish.
PART 2 - PRODUCTS
2.01 MOTOR CONTROL CENTER
A. General
1. Where shown on drawings, furnish and install NEMA Class liS Type B motor
control centers in NEMA 1 enclosures as herein specified. The control
centers shall be supplied from a 3-phase, 3-wire 60 cycle power system as
shown. A U.L. label shall be provided on each Section indicating compliance
with UL Standard 845. The motor control centers shall have an integrated
equipment short circuit rating of 65,000 AIC symmetrical.
B. Construction
1. CompartmentlSections/Bus:
a. Incoming power feeder shall be as shown. Power shall be distributed
by means of a continuous tin plated copper horizontal bus with rating
as indicated. The bus shall be braced as noted on drawings.
Combination motor controller and feeder tap units shall employ motor
circuit protectors for branch circuit, short circuit protection and
disconnect. All Bus bars shall be density rated at a minimum of
1000amps/square-inch based on a 40 degree centigrade ambient.
Temperature rated bus is not acceptable.
b. The control center shall consist of vertical tin plated copper bus
sections bolted together to form a unit assembly. A removable floor
sill shall be provided,for mounting. Sections shall be 20 inches deep
totally front accessible.
c. Pullbox compartments for horizontal wiring shall be provided at the
16160-3
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
January 201 0
top and bottom of the control centers. Incoming line compartment
shall be front accessible, but isolated from main bus and other
compartments. A vertical wiring compartment shall be provided in
each controller section. Compartments shall be isolated from starter
and feeder units and power bus. Each control wiring conductor shall
have heat shrink identification labels on each end of termination.
Terminations shall be made to screw terminal strips. All points of
terminal strips are to be labeled to match conductor labeling.
d. Each unit compartment shall be provided with an individual front
door. Starters and feeder-unit doors shall be interlocked mechanically
with the unit disconnect device to prevent unintentional opening of
the door while energized and unintentional application of power when
door is open. Means shall be provided for releasing the interlock for
intentional access to the interior at any time and intentional
application of power, if desired, while door is open. Padlocking
arrangements shall permit locking the disconnect device OFF with at
least three padlocks with door closed or open. Unit disconnect
operating handle shall be mounted on the disconnect, not on the unit
door and shall indicate ON and OFF with door open or closed.
Means shall be provided for padlocking the unit in the partially
withdrawn position. Overload relays shall be reset from outside the
enclosure by means of an insulated bar or button.
e. A termination system shall be provided such that no additional cable
bracing, tying or lashing is required to maintain the short circuit
withstand ratings of the assembly through 42kA.
2. Starters
a. Starter units shall be completely draw-out in Sizes 1 and 2 so the
units may be withdrawn without disconnecting any wiring. Sizes 3
and 4 FVNR units shall be draw-out type after disconnection power
leads only. Units over three space units high may be bolt-in type. A
positive guidance system shall be provided to assure proper
alignment of power stabs in dead-front openings in vertical power
bus. A racking mechanism shall serve as a mechanical advantage of
the operator during unit insertion or removal. Stab-in power terminals
shall be of a type that will increase contact pressure on short circuits.
Pilot devices shall be mounted on the unit to avoid any necessity for
"across-the hinge" wiring. The horizontal power bus shall be
effectively isolated from all wiring troughs and other work areas.
Vertical bus extensions shall be isolated by means of rigid glass
polyester moldings in such a manner as to be a separate self-
supporting assembly. No extra safety jacks or similar devices shall
be required to obtain an essentially dead-front condition. Access
shall be provided for inspection and maintenance from the front.
b. Motor starters shall be combination type across-the-Iine magnetic
unless noted otherwise, rated in accordance with NEMA Standards
sizes and horsepower ratings. Disconnect shall be a motor circuit
January 201 0
16160-4
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
protector (magnetic only breaker) current limiting type for short circuit
protection where noted on the drawings. Final magnetic settings
shall be field set and recorded. Combination starter shall be rated
42,000 AIC Sym. minimum or as noted on drawings. Starter shall be
replaceable from front without removing starter from enclosure. Coils
shall be replaceable from the front without removing starter from
enclosure. Overload relays shall be provided in each phase, and
shall be melting alloy or bimetallic type. Thermal units shall be one-
piece construction and interchangeable.
c. Starters shall be equipped with auxiliary contacts as required for
proper control functions; minimum of two normally open auxiliary
contacts in addition to the normally open auxiliary seal-in interlock,
and shall be suitable for the addition of at least two additional
external electrical interlocks of any arrangement normally open or
normally closed. All starters shall have red, green and amber pilot
lights for "run", "off", and "trip" or as indicated on the drawings;
"HAND-OFF-AUTO" selector switch or other selector or pushbutton
switches as required or indicated on the drawings, nameplate and
control transformer. Starters shall have provisions in the cover for
future addition of pushbutton or selector switch.
d. Starters shall be rated in accordance with NEMA sizes and
horsepower ratings. All starters shall be gravity dropout. All starters
Size 5 and smaller shall have double break silver alloy contacts;
starters 6 and larger shall employ single break contacts. All contacts
must be capable of being inspected, and must be removable, without
removing line or load wiring. Coils on starters, Size 5 and smaller,
shall be molded construction. ON size 6 and larger, coils may be
form wound, taped, varnished and baked.
e. All starter coils shall be equipped with coil surge suppressors.
f. Each starter shall contain fused control transformer to provide 120V
control voltage. The control transformers shall be sized for additional
loads of motor space heaters and other items indicated; contractor
shall coordinate requirements in shop drawings.
g. Provide Elapsed Time Meters in control panel fronts. Meters shall be
synchronous motor driven and 0 to 9999.9 hour range; rated for 120
volt 60HZ operation; Eagle Signal type 705, Agastat or equal.
h. Starters shall include a time delay on pick up relay to control
momentary power interruptions. Time delay relay contacts shall delay
the reclosing of the starter on momentary power loss; delay time
adjustable 0-300sec. The time delay on pick up relay circuit shall also
control the 27/47 device contacts on the incoming main as detailed
on the drawings.
I. Indicator pilot lamps shall be push to test type, LED full voltage type
and mounted in Nema 4X (800H) modules, as manufactured by Allen
January 201 0
16160-5
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
Bradley or SKPI as manufactured by Square D. Lamp modules shall
be equipped to operate at 24 or 120 volt input. Lamps shall be easily
replaceable from the front of the control compartment door without
removing lamp module from its mounted position. Units shall be
heavy-duty, oiltight, industrial type with screwed on prismatic glass
lenses in colors as indicated, and shall have factory engrave legend
plates. LED's shall be high illumination type (5ma at 130V ac).
J. Provide phase loss, phase imbalance protection. Provide phase
monitor relay. Relay shall be 2-10% phase imbalance adjustable and
time delayed. The unit shall sense phase imbalance, phase loss,
undervoltage and phase sequence.
k. Provide Corrosion Inhibitor Emitters for all starter and control panels
except where located within air conditioned spaces. Provide an
industrial corrosion inhibitor emitter on all exterior mounted control
panels that will protect internal components of the control panel from
corrosion for one year.
3. Solid State starters within MCCs or Individually mounted shall be
combination solid state soft start/stop starter (SSSS) with bypass contactor
and 120 volt, 1-phase control transformer, overload relays and surge
suppressors.
a. Where shown on the drawings provide solid state motor controller
(starter). Size SSSS to run continuously at 115% of full load current
at 500C outside ambient air temperature. The unit shall function over
a +\- 20% range of line and control voltage from nominal line
voltages, and up to 500C ambient outside air temperature, 5 to 95%
relative humidity, non-condensing, and within a frequency range of
55 to 65 Hz. All controllers shall be UL listed.
b. The solid state starter shall include circuitry to set and adjust an initial
motor torque, ramp an adjustable time of 1/2 to 30 seconds, and run
the motor. Upon stop, starter must ramp down and then soft stop.
Starters without this intelligence cannot be accepted. The controller
provides the following modes of operation: soft start with selectable
kickstart, current limit starting, or across-the-Iine starting.
c. Soft Start method: The motor is raised to an initial torque value. The
initial torque is adjustable between 5 and 90% of locked rotor torque.
The motor voltage is gradually increased during the acceleration
ramp time, which can be adjusted from 2 to 30 seconds. Provide
initial ramp time setting of 6 seconds. At startup, verify 50% speed is
obtained in no more than 3 seconds. Should 50% speed not be
obtained in 3 seconds, reconfigure ramp with kick start feature,
gradually increasing kick start to obtain 50% speed in 3 seconds.
. d. Provide Soft Start with Selectable Kickstart. Kickstart is intended to
provide a current pulse of 500% of full load current and is adjustable
from 0.4 to 2 seconds. This will allow the motor to develop additional
January 201 0
16160-6
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
torque at start for loads which may need a boost to get started.
e. Provide solid state starters with Current Limit Starting mode. Current
limit starting is used to limit the maximum starting current. Current
limit shall be adjustable for 50 to 450% offullload amperes with initial
setting of 300%. The controller shall be capable of programmable
limit on starts per hour.
f. Undervoltage and overvoltage protection: The controller undervoltage
and overvoltage protection will halt motor operation if a drop (or rise)
in incoming line voltage is detected. The undervoltagelovervoltage
trip level is adjustable as a percentage of the programmed line
voltage from 0-99%. Provide undervoltagelovervoltage protection
with a programmable trip delay time of 0-99 seconds.
g. Voltage Unbalance Protection: The voltage unbalance protection
shall be capable of monitoring all three phases of the supply voltage
in association with the rotational relationship of the three phases.
The controller will halt motor operation when the calculated voltage
unbalance reaches a user programmed trip level. The voltage
unbalance trip level shall be programmable from 0 to 25% with initial
setting of 3.5%.
h. Electronic motor overload protection: Provide unit with electronic
motor overload protection programmable for the full load current of
the motor.
I. Metering: Provide metering via a two line 16 character backlit LCD
display. Provide 5 button keypad for programming the motor
controller. Provide door mounted HMI with full numeric keypad.
Provide the following power monitoring parameters: Three phase
current, Three phase voltage, Power in KW, Power Factor, Motor
thermal Capacity, Elapsed run time.
J. Provide Smart Motor Controller type SMC-Flex by Allen Bradley as
the design intent. Provide equal equipment by Cutler Hammer,
General Electric, Square-D. Provide protective devise module on
load side of solid state starter (AB option 8M). Provide door mounted
human interface module with LCD display and full numeric keypad.
5. Power factor correction Capacitors shall be provided on motors of 50hp or
greater and on motors less than 50hp if shown on the drawings (do not
provide capacitors for motors controlled by VFD drives or SSSS.). Capacitors
shall be connected on the line side of the overload relays. Provide mounting
compartments within the motor control centers. Capacitors may be mounted
in enclosures above the motor control center if space requirements dictate.
6. Internal Control Wiring
a. Each control wiring conductor shall have heat shrink identification
labels on each end of termination. Terminations shall be made to
16160-7
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
January 201 0
screw terminal strips. All points of terminal strips are to be labeled to
match conductor labeling. Control wiring shall be SIS or XHHW
insulated; PVC insulated wire is not acceptable.
2.02 MANUAL MOTOR STARTERS
A. Manual motor starters used as safety switches shall be 3 pole, 600 volt AC rated for
maximum 1 OHP (30amp rated) with overload protection. Enclosure shall be NEMA
4X rated of 316 stainless steel weatherproof construction or Hubbell circuit-lock non-
metallic construction.
2.03 SPARE PARTS
A. The manufacturer shall supply for each type of motor control, spare parts from a list
of recommended spare parts. As a minimum, provide spare parts as follows: Six of
each type fuse; time delay relay, control relay, overload heaters, coil surge
suppressor, pilot light assemblies, boxes of lamps, switch assemblies; One of each
type overload relay block, across the line starter, contactor; surge suppression
module, sensing relay, transducer, and terminal block.
PART 3 - EXECUTION
3.01 INSPECTION
A. Examine area to receive motor-control units to assure adequate clearance for motor
control unit installation.
B. Check that concrete pads are level and free of irregularities for motor control centers.
C. Start work only after unsatisfactory conditions are corrected.
4.02 INSTALLATION
A. Install motor control units in accordance with manufacturer's written instructions, and
NEC.
B. Mount motor control centers on 4" concrete base extending 3" outside all rides.
C. Provide rubber insulation mats on floor in front of motor control center for entire
length of center. Mats to be minimum 4 feet wide or equal to isle width. Provide
OSHA approved insulating mats meeting OSHA regulation 1910.137 with 30,000 volt
insulating strength (Arrow Star #WBH6000 series or equal, 1-800-645-2833).
4.03 FIELD QUALITY ASSURANCE
A. Field tests prior to energization
1. Megger check of phase to phase to ground insulation levels.
2. Continuity.
3. Short Circuit.
January 2010
16160-8
NCWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
^_._._~-~
--~^""..__.
B. Perform tests according to motor control unit manufacturer's instructions.
3.04 ADJUSTMENT AND CLEANING
A. Adjust operating mechanisms for free mechanical movement.
B. Tighten bus connections and mechanical fasteners.
C. Touch-up scratched or marred surfaces to match original finish.
END OF SECTION
January 2010
16160-9
NcWRF COMPLIANCE ASSURANE PROJECT
MOTOR CONTROLS
SECTION 16165
VARIABLE FREQUENCY DRIVES
PART 1 - GENERAL
1.01 FURNISHING OF EQUIPMENT
A. Unless specifically noted otherwise, variable frequency motor drives for all
equipment requiring them shall be furnished under this section. The drive
manufacturer shall furnish all required controls as specified herein and as
functionally required by the instrumentation sections of the specifications.
B. The manufacturer shall be Allen Bradley Variable Frequency Drives complying with
Collier County Standards. No substitutions shall be allowed."
1.02 DESCRIPTION OF SYSTEM
A. Factory-assembled, metal-enclosed VFD motor control units for distribution and
control of power from incoming line terminals to outgoing feeder terminals, installed
and tested in place. Where shown on drawings, furnish and install VFD units in
freestanding NEMA 1 gasketed, ventilated and filtered motor control cabinets as
herein specified. The motor control shall be supplied from a 3-phase, 3-wire 60
cycle power system as shown. A U.L. label shall be provided on each Section
indicating compliance with UL Standards. The adjustable frequency drives and all
components shall be designed, manufactured and tested in accordance with the
latest applicable standards of ETL, UL, ANSI, and NEMA.
B. VFD Motor Control Units shall include all protective devices and equipment as listed
on drawings or as included in these specifications, with necessary interconnections,
instrumentation, and control wiring.
C. The VFD manufacturer shall be responsible for providing a system for the specific
installation intended, inclUding considerations of conductor distances from the drive
to the motor. Distances may be substantial and are indicated on the electrical plan
drawings. Each VFD drive shall include output filtering elements within the drive to
limit voltage peak and voltage rise time. The output filters (dvldt filters) must limit the
voltage rise time and voltage peak at the motor terminals to those required by NEMA
MG1-1993, Section IV, Part 30 with voltage peak less than 1000 volts and voltage
rise time greater than 2 microseconds.
1.03 QUALITY ASSURANCE
A. Reference Standards:
1. American National Standard Institute (ANSI):
a. ANSI Y32.2-1975, Graphic Symbols for Electrical and Electronic
Diagrams.
January 2010
16165-1
NCWRF COMPLIANCE ASSURANCE PROJECT
VARIABLE FREQUENCY DRIVES
.-
-
- --,-~.,.,
----_._,~-,.__.
b. ANSI Z55.1-1967 (R1973) Gray finishes for Industrial Apparatus and
Equipment.
2. National Electrical Manufacturers Association (NEMA):
a. NEMA ICS-1, 2, 3, 4, 5, 6, controls and systems.
3. National Fire Protection Association (NFPA):
a. NFPA 70-1993, National Electric Code (NEC).
4. Underwriters' Laboratories, Incorporated (UL):
a. UL Electrical Construction Materials List, motor controllers motor-
control centers (NJAV), (HJOT) and (NLDX).
1.04 SUBMITTALS
A. Product Data
1. Layouts showing concrete pad dimensions, conduit entrance and available
space, bus duct connections, electrical ratings, nameplate nomenclature,
and single-line diagrams in accordance with ANSI Y32.2 indicating
connections and controls with numbered terminals.
2. Frame sizes and Interrupting Capacity of unit.
3. Horsepower rating and rated voltage of unit.
4. Manufacturer's written recommendation for storage and protection,
installation instructions and field test requirements.
5. Manufacturer's instructions for tightening bus connections, performing
cleaning, and operating and maintaining motor control unit.
6. Submit written verification that overall dimensions are within the maximum
dimensions indicated on plans.
7. Submit manufacturer's recommended spare parts list.
B. Shop Drawings
1. Complete master wiring diagrams, elementary schematics and control
schematics shall be submitted for approval before proceeding with
manufacture. Suitable outline drawings shall be furnished as part of this
submittal. Standard or typical pre-printed sheets or drawings simply marked
to indicate applicability to this contract will not be acceptable. Shop drawings
shall be job specific.
2. A complete drawing indicating each point of interface with the process
control system and the type of signal provided or accepted at each point.
3. A complete drive programmers manual.
4. A drawing showing the layout of the VFD local control panel indicating every
device mounted on the door with complete identification.
5. Provide shop drawings on 11" X 17" or 22" X 34" paper and drawn with a
computer aided design (CAD) package. The computer aided design package
shall be Autocad or converted to Autocad format. Submittals shall include
January 2010
16165-2
NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~BLEFREQUENCYDRNES
1.05 WARRANTY
hard copy and CD-ROM media electronic copies (dwg format).
A. The equipment manufacturer shall provide a three (3) year warranty from initial
startup and demonstration of drive pump system to the engineer and a (2) year
warranty from final completion of the project, which ever is greater. The equipment
manufacturer shall guarantee that the equipment furnished is suitable for the
purpose intended and free from defects of design, material and workmanship. In the
event the equipmentfajls to perform as specified, the equipment manufacturer shall
promptly repair or replace the defective equipment without any costs to the owner
(including labor, transportation, handling and shipment costs). Warranty shall not
cover damage to the equipment caused by external sources and operator errors;
however the units shall be protected from power line surges and electrical fault
conditions and therefore the warranty shall apply to power line transient surge,
ground faults, line to line faults, EMI and RFI interference and other external
electrical disturbance caused damage.
B. The VFD manufacturer shall maintain as part of a national network, engineering
service facilities within 150 miles of the project to provide start-up service,
emergency service calls, repair work, and service contracts.
1.06 SPARE PARTS
A. Provide a recommended spare parts list with submittal. Provide one set of spare
filters, one set of each type fuse, one set of type relay, one of each type fan motor.
PART 2 - PRODUCTS
2.01 GENERAL
A. Provide VFD's for 75hp motors and above as manufactured by Allen Bradley model
Powerflex-700 18-pulse clean power drive with integral phase shifting transformer
unit. Provide clean power controller utilizing 18-pulse rectification with harmonic
cancellation techniques. The clean power controller shall convert 3 phase utility
power to a multi-phase shifted converter input via a differential delta connected
transformer and 18-pulse rectifier. Provide Device-net communications capability
where indicated on the drawings.
B. Drives from 3 through 60HP: Provide VFD's as manufactured by Allen Bradley
Powerflex 700. Existing conditions limit available space for replacement drives.
Coordinate with drawings and verify available space within existing facilities.
C. Provide small horsepower micro drives from fractional horsepower through 2
horsepower as manufactured by Allen Bradley. Units shall be rated for 480V-3ph
input; 480V-3PH output and have input and output control signals as shown on the
drawings. Units shall have keypad control module with digital display for
programmable settings and be capable of operator manual drive control. Units shall
have integral U.L. listed electronic motor overload protection.
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VAR~LEFREQUENCYDRNES
D. The VFDs shall be of the Pulse Width Modulated (PWM) design converting the utility
input voltage and frequency to a variable voltage and frequency output via a two-step
operation. Adjustable Current Source VFDs are not acceptable. IGBT type
Transistors shall be used in the inverter section. GTOs and SCRs are not
acceptable. The VFDs shall be current regulated. VFDs permitting instantaneous
over current trips other than for output short circuit are not acceptable.
E. All VFDs shall utilize a vector torque control strategy to regulate motor flux to
optimize motor torque without the need for encoders. VFDs requiring voitage, dwell
and current adjustments to achieve improved torque control are not acceptable.
F. The manufacturer shall supply variable frequency drives which must be compatible
with the pump motors for operation at FLA + 10%. The drives shall vary the output
frequency from minimum to maximum pump speed typically 6-60hz. The drives shall
be rated for continuous full load current plus 10% for a standard motor as listed by
the NEC table 430-150 for normal speed motors. For low speed motors (1200rpm
and below) and submersible pump motors, the full load current plus 10% shall be
verified with pump supplier. Pump characteristics will typically exhibit centrifugal
pump variable torque traits. Sludge pumps, sludge aeration blowers, conveyors and
chemical feed pumps will be slow speed positive displacement type with constant
torque traits. The VFD manufacturer shall coordinate with the pump manufacturers
for proper sizing.
G. The drive shall be of sufficient capacity and provide a quality of output waveform so
as to achieve full rated and continuous output of the pump motor. All drives shall be
factory built-up units complete with all necessary and specified components, as
hereinafter defined, which shall be supplied by the drive manufacturer as a unit.
Each built-up drive shall be tested by the drive manufacturer prior to shipment from
the factory and a certificate of the test provided.
2.02 ENVIRONMENTAL CONDITIONS
A. The drive shall accept pump station power nominal AC voltage of 480V AC +10% -
10%,3 phase, 60 Hertz + 3%.
B. The operating ambient condition shall have a temperature range of 0 to 40 degrees
Celsius with a relative humidity of up to 95% (non-condensing).
2.03 CONSTRUCTION TECHNIQUES
A. The drive shall be of modular design to provide for ease and speed of maintenance
inclUding removal of modules, with one maintenance technician.
B. All components shall be mounted in a NEMA type 1 gasketed, ventilated and filtered
enclosure properly sized to dissipate the heat generated by the power electronics.
The enclosure shall be painted with corrosion resistant coatings with finish paint of
ANSI 49 Gray. Either top or bottom entry of cables shall be permitted.
C. Provide all standard 6-pulse drives with minimum 3 percent input power inductors.
The DC bus shall be filtered by a series inductor and capacitors to provide ripple free
de. The input inductor for 6-pulse drives shall be an integral part of the ability of the
. January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~LEFREQUENCYDRNES
drive to withstand output fault conditions as specified.
D. Circuit breakers. The operating mechanism shall be designed so that the door can
be padlocked in the "Off' position. Protection for the VFD's power circuit shall be
provided by use of circuit breakers and type "J" input fuses to provide 200K AIC
symmetrical rating.
E. A relay shall be provided that energizes and provides 120V power to a motor space
heater when the drive is not running.
F. The drive shall meet anyone of the following standards; CSA, ETL, UL.
G. All VFD's must be tested/run under load until rated operating temperatures is
achieved.
H. All low voltage (logic control) circuitry (12Vdc, 24Vdc and 120Vac) shall be physically
and electrically isolated from medium voltage (480 Vac, 600Vdc) power circuitry to
insure safety to maintenance personnel.
I. The VFD shall be furnished with a diagnostic indicator to show low bus/line and high
bus/line voltage conditions, timed current overload and inverter output fault. Drive
ready and Drive run status indication shall be standard.
2.04 ACCESSORIES
A. The unit shall include an incoming, UL listed, circuit breaker. Motor thermal
protection shall also provide single phase protection. A three position switch (hand-
off-auto) mounted on the controller door provides manual selection of run/stop
control. The "Hand" position allows manual run/stop and speed control of the VFD;
the speed control shall be via a potentiometer mounted on the door calibrated from
0-100% speed. The drive will first attempt to restart on the inverter up to a
maximum of three times on "Auto-Restart" before faulting out and waiting for
operator reset. The door of the VFD cabinet shall contain but not be limited to the
following devices:
1. Circuit breaker operating handle - mechanically interlocked with the door.
2. Key Pad and alpha numeric displays providing programming and manual
control of the drive.
3. Elapsed Time Meter.
4. VFD fault indicating light, LCD display indication acceptable.
5. Hand off auto switch.
6. Emergency Stop pushbutton.
7. On indicating Iig ht.
8. Off indicating light.
9. Speed Potentiometer; (note keypad control acceptable).
2.05 Operating Characteristics
A. The variable frequency drive shall convert 3 phase, 60 Hertz input power to an
adjustable frequency and voltage (from 6 Hertz to 60 Hertz with a frequency stability
of +/- 1 % of setting) for controlling the speed of AC induction motors. The converter
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~BLEFREQUENCYDRNES
will be of the voltage source design using current controlled PWM techniques. The
input power factor of the drive shall be a minimum of .95 at all speeds and loads.
Variable frequency and voltage output shall provide constant volts per hertz
excitation for the motor up to 60 hertz.
B. Current source and other six pulse inverters are not acceptable. The output voltage
shall vary proportionally with the output frequency to maintain a constant volts/Hertz
value up to nominal frequency. Above nominal frequency, the output voltage shall
remain constant.
C. The modulating control scheme shall closely approximate actual sine wave current
throughout the speed range of the drive. The regulator shall be fully digital with
microprocessor control offrequency, voltage, and current. The frequency resolution
of the drive shall be .01 Hertz. All drive adjustments and custom programming shall
be capable of being stored in a non-volatile memory (EEPROM).
D. Current limit. A current limit circuit shall be provided to limit motor current to a preset
adjustable maximum level by reducing the drive operating speed or acceleration rate
when the limit is reached. Range of adjustment shall be from 50 to 115%.
E. The power unit's logic common shall be at ground potential.
F. Short circuit and ground fault protection. The VFD shall have an instantaneous
electronic trip circuit to protect the VFD from output line-to-Iine and line-to-ground
short circuits. The VFD must be capable of withstanding without damage to the
VFD, short circuits at 480V plus 10% (528V).
G. Instantaneous overcurrent trip capability. The VFD shall be capabie of providing
110% motor name plate service factor current for one minute. The VFD shall include
an instantaneous overcurrent trip. The VFD shall not restart after electronic
overcurrent trip until manually reset.
H. Power loss ride-through. The VFD shall be capable of continued operation during an
intermittent loss of power for 2.0 second (120 cycles). The essential drive and pump
relay logic integrated within the drive shall be powered through the 24VDC VFD
power source during the power interruption for the 2 second duration. Opening of the
VFD's input and/or output line switches while operating shall not result in damage to
power circuit components.
I. Motor overload protection. Provide electronic motor overload protection integral to
the inverter.
J. Transient and surge voltage protection. Transient and surge voltage protection shall
be provided through use of Metal Oxide Varistors (MOV's) and phase-to-ground filter
capacitors.
K. Auto restart after fault. The VFD shall automatically attempt to restart after a
malfunction or an interruption of power. If the drive reaches the limit of restarts
without successfully restarting and running for 90 seconds, the restart circuit shall
lockout and drop out the fault relay. Two Form C contacts shall be provided.
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NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~BLEFREQUENCYDRNES
L. Auto restart. after power outage. The drive shall automatically restart on power loss
faults. The VFD shall be capable of starting into a spinning motor. The VFD shall be
able to determine the motor speed in any direction and resume operation without
tripping. Ifthe motor is spinning in the reverse direction, the VFDs shall start into the
motor in the reverse direction, bring the motor to a controlled stop, and then
accelerate the motor in the preset method of starting.
M. Frequency jump points: Provide (3) selectable frequency jump points in 1.0hz
increments, to be used to avoid critical resonance frequencies of the mechanical
system.
2.05 CONTROLS
A. Provide an operator panel with keypad and 2-line 20-character vacuum fluorescent
alphanumeric display. The display provides indication of any selected drive
functions; speed, load, motor volts, motor amps, diagnostic information,
programming functions, etc. The keypad provides a means of programming and
manually controlling the drive. Programming only keypads are not acceptable. The
key pad shall be used to input the following setup adjustments:
1. Minimum speed, 1 to 85%
2. Maximum speed, 50 to 100%
3. Linear accel, 2-25 seconds
4. Maximum output voltage, adjustable
5. Volts/Hertz, adjustable.
6. Local setpoint reference.
7. Current Limit Setpoint.
8. Selectable carrier frequencies, V/Hz, and critical frequency avoidance
lockout.
9. Multiple attempt restarts
B. Remote Controls: Each drive shall also have provisions for the following hard wired
inputs and outputs for remote operator control from the plant computer system.
1. Digital inputs
a. Start/Stop
b. Motor winding over temperature trip.
c. Pump faults where shown
d. Other inputs as Indicated on the drawings.
2. Digital outputs; dry contacts
a. Remote Ready.
b. Drive running
c. Fault;
3. Analog inputs/outputs (4-20ma)
a. Motor speed analog output
b. Remote speed Setpoint analog input
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NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~BLEFREQUENCYDRNES
C. Internal Control Wiring: Each control wiring conductor shall have heat shrink
identification labels on each end of termination. Terminations shall be made to
screw terminal strips. All points of terminal strips are to be labeled to match
conductor labeling.
PART 3 - EXECUTION
3.01 INSPECTION
A. Examine area to receive motor-control units to assure adequate clearance for motor
control unit installation. Check that concrete pads are level and free of irregularities
for motor control centers.
B. All workmanship utilized in the manufacture and installation of this system shall be of
the highest quality and performed in a manner which is consistent with all accepted
practices for industrial controls.
C. The installing contractor shall guarantee that installation of the system IS In
accordance with the manufacturer's instructions.
D. The supplier shall construct and verify proper operation of the assembled system
under simulated conditions with motors of similar characteristics; before shipmentto
the site. These performance tests shall be repeated once the system is installed and
re-assembled.
3.02 INSTALLATION
A. Install motor control units in accordance with manufacturer's written instructions, and
NEC.
B. Mount motor controls on 3" concrete base extending 3" outside all rides.
C. Provide rubber insulation mats on floor in front of motor control center for entire
length of center. Mats to be minimum 3 feet wide or equal to isle width. Provide
OSHA approved insulating mats meeting OSHA regulation 1910.137 with 30,000 volt
insulating strength (Matworks or equal, 800336-4604).
3.03 START UP SUPERVISION AND TRAINING
A. The system supplier shall provide a factory trained and authorized service technician
to inspect all final connections and check the system prior to start-up of the pump
drive system. The service technician shall coordinate with the systems Integrator for
complete functional check-out of the system. The factory authorized person shall
provide written certification that the installation meets or exceeds all factory
recommendations for proper operation.
B. Copies of the Operating and Maintenance manuals shall be prepared specifically for
this installation and shall include all required specification sheets, drawings,
, January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~LEFREQUENCYDRNES
equipment lists, descriptions, etc. that are required to instruct operating and
maintenance personnel unfamiliar with such equipment.
C. A factory representative who has complete knowledge of proper operation and
maintenance shall be provided for one day to instruct representatives of the owner
and the Engineer in proper operation and maintenance. Training subjects shall
include, operator training, system repair, maintenance and detailed software training.
Training shall be conducted after system startup, testing, and control tuning
procedures are complete, and before final completion inspection testing. Ifthere are
difficulties in operation of the equipment due to the installation or fabrication,
additional instruction days shall be provided as deemed necessary by the engineer
and at no cost to the owner.
END OF SECTION
January 201 O'
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NCWRF COMPLIANCE ASSURANCE PROJECT
VAR~LEFREQUENCYDRNES
SECTION 16170
DISCONNECTS
1.01 GENERAL
A. All disconnect switches shall be heavy-duty type. Switches shall be fusible or non-
fusible and sized as noted on the drawings.
B. Switches shall be 240 volt rated on systems up to and including 120/208V and 600V
rated on higher voltage systems. All switches for motors shall be horsepower rated.
All switches shall be NEMA 4X stainless steel enclosure except switches mounted
in air-conditioned spaces. As an alternate to NEMA 4X stainless steel enclosure
provide NEMA 4X switches with aluminum enclosure as manufactured by Bryant. As
an alternate to NEMA 4X stainless steel enclosures provide polyglass enclosures for
30amp (1 Ohp) switches in the chemical areas equal to Hubbell Circuit-Lock.
C. Provide and install lugs on disconnect switch as required to accept conductors called
for on drawings.
D. Provide Switches with an externally operated handle; quick make quick break
mechanism; the handle shall be interlocked with the switch cover by means of a
defeatable interlock device. The switch shall be lockable in the "off' position with a
padlock. Switches shall have arch suppressors, pin hinges and be horsepower rated
at 600 volts.
E. All disconnect switches shall be furnished from the manufacturer with (2) normally
open and (2) normally closed interlock contacts. Motor space heater shall be wired
through one set of contacts. The other contact shall be wired through the local
offlremote motor switch at the disconnect location.
1.02 SUBMITTALS
A. Submit product data on all major types of disconnects.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
DISCONNECTS
SECTION 16180
OVERCURRENT PROTECTIVE DEVICES
PART 1 - GENERAL
1.01 DESCRIPTION
A. Description of System
1. Connections of all items using electric power shall be included under this
division of the specifications, including necessary wire, conduit, circuit
protection, disconnects and accessories. Securing of roughing-in drawings
and connection information for equipment involved shall also be included
under this division. See other divisions for specifications for electrically
operated equipment.
2. Provide overcurrent protection for all wiring and equipment in accordance
with the NEC, all federal, state and local codes as required and/or as shown
on the drawings.
3. Should the electrical contractor disagree with the size of or application of, an
overcurrent protection device called for on the drawings, he shall bring it to
the attention of the Engineer immediately.
1.02 SUBMITTALS
A. Shop drawings and product data
1. Shop drawings shall clearly indicate:
a. Frame sizes and interrupting capacity of all circuit breakers.
b. Horsepower ratings of rated voltage of fused switches and/or circuit
breakers.
c. Size and type of fuses being furnished.
d. Device Is U.L. Listed, and bears the U.L. Label.
e. Device complies with these specifications, drawings, and applicable
standards of NEMA, IEEE, ANSI, and ASA.
PART 2 - PRODUCTS
2.01 CIRCUIT BREAKERS
A. General
1. Circuit breakers for lighting and appliance panelboards shall be bolt-in type.
2. Circuit breakers for switchboards and/or power panelboard shall be bolt-in.
. 3. All circuit breakers shall be molded-case, quick-make, quick-break, thermal
magnetic type, and shall be U.L. listed and rated for voltage and class of
service to which applied.
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NCWRF COMPLlANE ASSURANCE PROJECT
OVERCURRENT PROTECTIVE DEVICES
4. Double and triple pole breakers shall be of the common trip, single handle
type.
5. Circuit breakers shall have minimum rating equal to or greater than the fault
current available but in no case less than 14,000 amp interrupting capacity.
6. Provide ten percent (minimum one) spare breakers (above that shown on
plans) for each type breaker of less than 100 ampere rating.
2.02 FUSES
A. General
1. All fuses shall be of the same manufacture to retain selectability as designed.
No fuse shall be installed until equipment is ready to be energized and after
tightening of all electrical connections, inspection of all ground and grounding
conductors and a meggertest of adequate insulation to ground of all circuits.
2. All fuses shall be current-limiting with 200,000 amperes interrupting capacity.
3. Fuses rated 601 amperes and larger shall be UL Class L and have a
minimum time-delay of 45 seconds at 300% rating and have O-ring gas seals
at the end bells.
4. Fuses rated 600 amperes or less, installed ahead of circuit breakers or circuit
breaker panels, shall be UL Class K-1.
5. Fuses rated 600 amperes or less for all general power circuits shall be dual-
element, UL Class K-5 time-delay type. They shall be self protecting from
extraneous heat.
6. Fuses installed in individual motor circuits shall be dual element time-delay
type, UL Class K-5. Use fuse reducers when fuse clip spacing is larger than
the fuse dimension.
7. Fuses called for to be rejection type are to have rejection fuse holders.
B. Spare Fuse Cabinet
1. Ten percent (minimum of three) of each size and type offuse shall be placed
in a spare fuse cabinet, wall mounted near the electric service.
2. Cabinet shall be sized as required to store all fuses neatly. Cabinet shall
contain shelfs and/or slots as required to separate types of fuses. Cabinet
door shall be hinged with latch.
C. Identification Label
1. A fuse identification label, showing type and size, shall be placed inside the
door of each fused switch.
2. Labeling for rejection type fused switches shall read "Warning-Use Only
Current Limiting Fuses Class, Type, MFR," engraved in red laminated plastic_
END OF SECTION
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NCWRF COMPLlANE ASSURANCE PROJECT
OVERCURRENT PROTECTIVE DEVICES
SECTION 16190
SUPPORTING DEVICES
1.01 GENERAL
A. Furnish and install all supports, hangers and inserts required to mount fixtures,
conduit, cables, pull boxes and other equipment furnished under this Division. All
supporting devices and hardware exterior of buildings or interior of structures except
in air conditioned spaces shall be stainless steel. Aluminum and non metallic
supports (fiberglass) and hardware will be reviewed by the engineer on a case-by-
case basis.
B. All items shall be supported from the structural portion of the building. Supports and
hangers shall be of a type approved by Underwriters' Laboratories. Wire shall not be
used as a support. Boxes and conduit shall not be supported or fastened to ceiling
suspension wires or to ceiling channels.
C. This Contractor shall lay out and install his work in advance of the laying of floors or
walls, and shall furnish and install all sleeves that may be required for openings
through floors, wall etc. Where plans call for conduit to be run exposed, this
Contractor shall furnish and install all inserts and clamps for the supporting of
conduit. If this Contractor does not properly install all sleeves and inserts required,
he will be required to do the necessary cutting and patching, later at his own
expense, to the satisfaction of the Engineer.
1.02 INSTALLATION
A. All steel conduits shall be securely fastened in place on maximum of 4 foot intervals;
all PVC conduits shall be securely fastened in place on maximum of 3 foot intervals
vertically and 2 foot intervals horizontally. Hangers, supports or fastenings shall be
provided at each elbow and at the end of each straight run terminating at a box or
cabinet. The use of perforated iron for supporting conduits will not be permitted.
The required strength of the supporting equipment and size and type of anchors
shall be based on the combined weight of conduit, hanger and cables. Horizontal
and vertical conduit runs may be supported by two-hole malleable straps, clamp-
backs, or other approved devices with suitable bolts, expansion shields (where
needed) or beam-clamps for mounting to building structure or special brackets.
B. Where two or more conduits one inch (1 ") or larger run parallel trapeze hangers may
be used consisting of concrete inserts, threaded solid rods, washers, nuts and
stainless steel "L" angle iron, or Unistrut cross members. These conduits shall be
individually fastened to the cross member of every other trapeze hanger with
malleable cast one hole straps, clamp backs, bolted with proper size stainless steel
machine bolts, washers and nuts. If adjustable trapeze hangers are used to support
groups of parallel conduits, U-bolt type clamps shall be used at the end of a conduit
run and at each elbow. J-bolts, or approved clamps, shall be installed on each third
intermediate trapeze hanger to fasten each conduit.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
SUPPORTING DEVICES
C. Hangers shall be made of durable materials suitable forthe application involved and
shall be stainless steel.
D. On concrete or masonry construction, use "Tapcon" type fasteners. For brick
construction, insert anchors shall be installed with round head machine screws. In
wood construction, round head screws shall be used. An electric or hand drill shall
be used for drilling holes for all inserts in brick, concrete or similar construction. In
brick, inserts shall be near center of brick, not near edge or in joint. Where steel
members occur, it shall be drilled and tapped, and round head machine screws shall
be used. All screws, bolts, washers, etc., used for supporting conduit or outlets shall
be fabricated from stainless steel, or approved substitution.
END OF SECTION
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
SUPPORTING DEVICES
SECTION 16430
UNDERGROUND DUCT LINES
PART 1 - GENERAL
1.01 Provide underground duct banks for power and lighting feeders; instrumentation and control
systems as shown or as specified herein; from point of service switchgear or equipment to
the point of distribution or equipment served.
1.02 SUBMITTALS
A. Submit shop drawings or cut sheets on
1. Conduit
2. Fittings
3. Conduit Separators
4. PVC solvent
5. Precast concrete manholes
6. Composite handholes
7. Cable lubricants
1.03 DESCRIPTION OF ASSEMBLY
A. Underground duct banks shall be multiple individual conduits encased in reinforced
concrete as indicated on the drawings. Conduits within building or structural
foundations and protected by a concrete slab above them do not require
encasement (except provide encasement under electrical/pump room slabs). The
conduit shall be of plastic (PVC sch 40 for concrete encasement and Sch80 without
concrete encasement), unless indicated or specified otherwise. The conduit used
shall not be smaller than 4 inches in diameter, inside, unless otherwise noted. The
concrete encasement surrounding the duct bank shall be rectangular in cross-
section, having a minimum concrete thickness of three inches around all conduits.
All concrete encased duct banks shall be steel reinforced as detailed. Power
distribution conduits shall be separated by a minimum dimension offour inches and
not less than 7.5" center to center. Power conduits shall be separated from low
voltage control conduits by a minimum dimension of twenty four inches.
B. The concrete work shall conform to Section on "Concrete". The top of the concrete
envelope shall be not less than 24 inches below grade unless otherwise indicated.
Concrete shall be installed in a continuous pour to eliminate joints in the duct run.
The duct bank sides shall be formed in place using suitable concrete form work or
corrugated metal forms. Open trench pours will not be allowed.
C. Plastic conduit, fittings and joints shall not have been stored in the sun orweather, in
any excessively heated space, or unevenly supported during storage. Use and
installation shall be in accordance with the National Electrical Code requirements for
the installation of non-metallic rigid conduit. Plastic conduit shall be protected
against the direct rays of the sun prior to installation. Conduit shall be PVC schedule
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNDERGROUND DUCTS
-..- ... .~-
40 manufactured by Carlon, Queen City Plastics, or approved substitution. Conduit
shall be U.L. listed and conform to NEMA Standards for schedule 40 PVC conduit.
D. Trenches for duct banks shall be completely dry before setting conduits or pouring
concrete. Provide well pointing as required if necessary to keep trench dry.
E. Wires and cables in manhole/hand hole shall be placed on cable racks.
Manhole/handhole shall be cleaned of all loose materials, dirt and debris
immediately after completion of new work and shall be in a clean condition when
project is completed. Cable racks shall be stainless steel or non metallic with
stainless steel hardware, cable racks shall be complete with insulators. Racks shall
be Underground Devices or approved substitution.
F. Back filling of trenches shall be in layers not more than 8 inches deep, and shall be
thoroughly tamped. The first layer shall be earth or sand, free from particles that
would be retained on a 1/4 inch sieve. The succeeding layers shall be excavated
material having stones no larger than would pass through a 4-inch ring. The back fill
shall be level with adjacent surface, except that in sodded or paved areas, a space
equal to the thickness of the sod or paving shall be left.
G. The surface disturbed during the installation of duct shall be restored to its original
elevation and condition if not refinished in connection with site work.
H. All unused conduit openings shall be plugged or capped with a suitable device
designed for the purpose; caulking compound shall not be used for plugging conduit
openings.
I. One NO.2 bare solid tinned copper counterpoise shall be run above all duct banks
and shall be run into all manholes/hand holes and grounded to 5/8" X 20' driven
ground rods. Counterpoise shall run into buildings and be grounded at each
structures service ground.
J. All conduits entering a building or structure shall be sealed with duct seal.
PART - 2 PRODUCTS
2.01 Duct Bank Structures
A. Precast Concrete Construction: Precast units shall be the product of a manufacturer
regularly engaged in the manufacture of precast concrete products, including precast
manholes and pullboxes.
1. General: Concrete for precast work shall have an ultimate 28-day
compressive strength of not less than 4000 psi. Structures may be precast
to the design and details indicated precast monolithicly and placed as a unit,
or structures may be assembled sections, design and produced by the
manufacturer in accordance with the requirements specified. Structures
shall be identified with the manufacturer's name embedded in or otherwise
permanently attached to an interior wall face.
2. Construction: Structure top, bottom and wall shall be of a uniform thickness
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNDERGROUND DUCTS
of not less than 4 inches. Quantity, size, and location of duct bank entrance
windows shall be as required, and cast completely open by the precaster.
Size of windows shall exceed the nominal duct bank envelope dimensions by
at least 12 inches vertically and horizontally to preclude in-field window
modifications made necessary by duct bank misalignment. However, the
sides of precast windows shall be a minimum of 6 Inches from the inside
surface of adjacent walls, floors, or ceilings. Form the perimeter of precast
window openings to have a keyed or inward flared surface to provide a
positive interlock with the mating duct bank envelope. Provide welded wire
fabric reinforcing through window openings for in-field cutting and flaring into
duct bank envelopes. Provide additional reinforcing steel comprised of at
least two NO.4 bars around window openings. The minimum concrete cover
for reinforcing steel shall be 2 inches. Provide drain sumps for precast
structures a minimum of 12 inches in diameter and 6 inches deep.
3. Joints: Provide tongue-and-groove or shiplap joints on mating edges of
precast components. Design joints to firmly interlock adjoining components
and to provide waterproof junctions and adequate shear transfer. Seal joints
watertight using preformed plastic strip conforming to AASHTO M198, Type
B. Install sealing material in strict accordance with the sealant
manufacturer's printed instructions. Provide waterproofing at conduit/duct
entrances into structures, and where access frame meets the top slab,
provide continuous grout seal.
B. Precast Concrete manholes and pullboxes (hand holes): ASTM C 478. Precast units
shall be the product of a manufacturer regularly engaged in the manufacture of
precast concrete manholes and pullboxes. Top, walls, and bottom shall consist of
reinforced concrete. Walls and bottom shall be of monolithic concrete construction.
Locate duct entrances and windows near the corners of structures to facilitate cable
racking. Metal Covers shall fit the frames without undue play. Form steel and iron to
shape and size with sharp lines and angles. Castings shall be free from warp and
blow holes that may impair strength or appearance. Exposed metal shall have a
smooth finish and sharp lines and arises. Provide necessary lugs, rabbets, and
brackets. Set pulling-in irons and other built-in items In place before depositing
concrete. Install a pulling-in iron In the wall opposite each duct line entrance. Cable
racks, including rack arms and Insulators, shall be adequate to accommodate the
cable.
C. Metal Frames and Covers: Shall be made of cast iron. Covers shall weight a
minimum 1001b. Frames and covers of steel shall be welded by qualified welders in
accordance with standard commercial practice. Covers shall have raised letters of
identification as indicated on the drawings. Covers shall have an approved antislip
surface. Covers shall be rated AASHTO H20.
D. Pulling-In Irons: Shall be steel bars bent cast in the walls and floors. In the floor they
shall be centered under the cover and in the wall they shall be not less than 6 inches
above or below, and opposite the conduits entering the manhole or pull box. Pulling-
in irons shall project into the box approximately 4 inches. Iron shall be hot-dipped
galvanized after fabrication.
E. Cable Racks: Rack arms and insulators, shall be sufficient to accommodate the
cables. Racks in manhole and pullbox shall be spaced not more than 2 feet apart,
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNDERGROUND DUCTS
and each box wall shall be provided with a minimum of two racks. The wall bracket
shall be stainless steel or fiberglass. Slots for mounting cable rack arms shall be
spaced at 8-inch intervals. The cable rack arms shall be of stainless steel or
fiberglass and shall be of removable type. Insulators shall be dry-process glazed
porcelain. All metal fasteners and hardware portion of racks shall be stainless steel.
F. Grounding in manholes and pullboxes: Provide NO.6 AWG bare copper grounding
pigtails on walls of each manhole and pullbox. The pigtails shall be exothermically
welded to the reinforcing bars and shall extend at least 8 inches into box. Two
pigtails shall be provided in each box.
G. Pull Wire: Plastic rope having a minimum tensile strength of 200 pounds in each
empty duct. Leave a minimum of 24 inches of slack at each end of the pull wires.
H. Composite Handholes: Only where composite handholes are indicated on the
drawings, use hand holes, covers and boxes of polymer concrete as manufactured by
Quazite Corporation. The material shall consist of aggregate bound together with a
polyester resin and reinforced with continuous woven glass strands. The covers and
boxes shall be designed to be installed flush to grade with cover fitting flush to the
box and shall be capable of withstanding normal shipping and installation process
without chipping, cracking or structural damage. All boxes shall be manufactured
with the use of male/female molds to ensure a consistent wall thickness and
structural strength and shall be stackable or extra depth. The boxes and covers
shall have dimensions as indicated and shall be concrete gray in color. The cover
logo shall be recessed into the cover and shall read INSTRUMENTATION or
ELECTRIC as indicated. The composite covers shall be designed for a static
vertical load of 8,000 pounds and shall be tested, In the box, to a static load of
12,000 pounds (1.5 safety factor). The test load shall be distributed over a 10 inch
by 10 inch by 1 inch thick distribution plate located at the center of the cover. The
maximum deflection at a load of 8,000 pounds shall not exceed 0.50 inches. The
covers shall be skid resistant and have a minimum coefficient of friction of 0.50 on
the top surface forthe life of the cover. Coatings will not be provided. The permanent
deflection of any surface shall not exceed 10% of the maximum allowable test load
deflection. The lockdown mechanism shall be capable of withstanding a minimum
torque of 30 foot-pounds. All inserts and fasteners shall be of stainless steel.
PART 3 - EXECUTION
3.01 INSTALLATION: conform to NFPA 70 and ANSI C2.
A. The top of the conduit shall be not less than 24 inches below grade, for low voltage
conduits and 48 inches for high voltage ducts. Run conduit in straight lines except
where a change of direction is necessary. Provide not less than 3 inches clearance
from the conduit to each side of the trench. A minimum clearance of 2 1/2 inches
shall be provided between adjacent conduits. Grade bottom of trench smooth; where
rock, soft spots, or sharp-edged materials are encountered, excavate the bottom for
an additional 3 inches, fill and tamp level with original bottom with sand or earth free
from particles, that would be retained on a 1/4 inch sieve.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNDERGROUNDDUCTS
B. Precast manhole and pullbox Installation: Commercial precast assembly shall be set
on 6 inches of level, 90 percent compacted granular fill, 3/4-inch to 1-inch size,
extending 12 inches beyond the manhole or pullbox on each side. Granularfill shall
be compacted by a minimum of four passes with a plate type vibrator.
C. Buried Warning and Identification Tape: Metallic core or metallic-faced, acid- and
alkali-resistant, polyethylene plastic waming tape manufactured specifically for
warning and identification of buried utility lines. Provide tape on rolls, 3-inch-
minimum width, color coded as specified below for the intended utility and warning
and identification imprinted in bold black letters continuously over the entire tape
length. Warning and identification to read, "CAUTION, BURIED (intended service)
LINE BELOW" or similar wording. Color and printing shall be permanent, unaffected
by moisture or soil.
Warning Tape Color Codes
Yellow: Electric power
Orange: Instrumentation and Control
D. Duct and Conduit Placement: Duct lines shall have a continuous slope downward
toward manholes/hand holes and away from buildings with a pitch of not less than 3
inches in 100 feet. Except at conduit risers, accomplish changes in direction of runs
exceeding a total of 10 degrees, either vertical or horizontal, by long sweep bends
having a minimum radius of curvature of25 feet. Manufactured bends may be made
up or one or more curved or straight sections or combinations thereof. Manufactured
bends shall have a minimum radius of 18 inches for use with conduits of less than 3
inches in diameter and a minimum radius of 36 inches for ducts of 3 inches in
diameter and larger.
E. Termination and Cleaning of Conduit: Terminate conduits in end-bells where duct
lines enter manholes and pullboxes. Separators shall be of precast concrete, high
impact polystyrene, steel, or a combination of these. Stagger conduit joints by rows
and layers to provide a duct line having the maximum strength. During construction,
protect partially completed duct lines from the entrance of debris such as mud, sand,
and dirt with suitable conduit plugs. As each section of a duct line is completed,
draw a non-flexible testing mandrel not less than 12 inches long with a diameter 1/4
inch less than inside diameter of the conduit through the conduit. After which, draw
a stiff bristle brush having the same diameter of the ductthrough the duct, until duct
is clear of particles of earth, sand, and gravel; then immediately install end plugs.
F. Conduit Protection at Concrete Penetrations: Conduits which penetrate concrete
(slabs, pavement, and walls) shall be galvanized rigid steel or schedule 80 PVC;
protected by a PVC sheath at the penetration; PVC sheath shall be 40-mils thick
conforming to NEMA RN 1, and shall extend from at least 2 inches within the
concrete to the first coupling or fitting outside the concrete (minimum of 6 inches
from penetration).
G. Cable Pulling: Pull Cables down grade with the feed-in point at the manhole or
pullbox or point of the highest elevation. Use flexible cable feeds to convey cables
through box opening and into duct runs. Accumulate cable slack at each box where
space permits by training cable around the interior to form one complete loop.
Maintain minimum allowable bending radii in forming such loops.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNDERGROUND DUCTS
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H. Cable Lubricants: Use lubricants that are specifically recommended by the cable
manufacturer for assisting in pulling jacketed cables. Cable lubricants shall be
soapstone, graphite, or talc for rubber or plastic jacketed cables. Lubricant shall not
be deleterious to the cable sheath, jacket, or outer coverings.
I. Cable Pulling Tensions: Tensions shall not exceed the maximum pulling tension
recommended by the cable manufacturer.
J. Installation of Cables in manholes and pull boxes and Handholes: Do not Install
cables utilizing the shortest route, but route along those walls providing the longest
route and the maximum spare cable lengths. Form cables to closely parallel walls,
not to interfere with duct entrances, and support on brackets and cable insulators at
a maximum of 18 inches. Support cable splices in underground structures by racks
on each side of the splice. Locate splices to prevent cyclic bending in the spliced
sheath. Install cables at middle and bottom of cable racks, leaving top space
opening for future cables, except as otherwise indicated for existing installations.
K. FIREPROOFING OF CABLES IN MANHOLES: All wire and cables in manholes
shall be fireproofed. Strips of fireproofing tape approximately 1/16 inch thick by 3
inches wide shall be wrapped tightly around each cable spirally in one-half lapped
wrapping, or in two butt-jointed wrappings with the second wrapping covering the
joints in the first. The tape shall be applied with the coated side toward the cable,
and shall extend one inch into the ducts. To prevent unraveling, the fireproofing
(Arc-proofing) tape shall be random wrapped with tape conforming to type FGT of
specification MIL-I-15126. The fireproofing (arc proofing) tape shall consist of a
flexible, conformable fabric having one side coated with a flame-retardant, flexible,
polymeric coating and/or a chlorinated elastomer. The tape shall not be less than
0.050 inch thick, and shall weigh not less than 2.5 pounds per square yard. The
tape shall be non-corrosive to cable sheath, shall be self-extinguishing, and shall not
support combustion. The tape shall not deteriorate when subjected to oil, water,
gases, saltwater, sewage and fungus. The tape shall have a tensile strength of not
less than 40 pounds per inch width, and when tested under USA Standard L 14.184
cut strip method. Provide certification the product retains 65 percent of its original
tensile strength for the following tests for 168 hours for each requirement;
1. Immersion in distilled water,
2. Immersion in 3 percent salt water,
3. Exposure to ultra-violet light (30-watt germicidal lamp),
4. Exposure to sunlight (Type 8-1 sun lamp), and exposure to concentrated
sewage
END OF SECTION
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNDERGROUNDDUCTS
SECTION 16450
GROUNDING
PART 1 - GENERAL
1.01 DESCRIPTION
A. Description of System:
1. In general, all electrical equipment (metallic conduit, motor frames,
panel boards, etc.) shall be bonded together with a green insulated or bare
copper system grounding conductor In accordance with specific rules of
Article 250 of the N.E.C. Bonding conductor through the raceway system
shall be continuous from main switch ground bus to panel ground bar of
each panelboard, and from panel grounding bar of each panel board to
branch circuit equipment and devices.
2. A main ground, bare copper conductor, NEC sized but in no case less than
#4/0, shall be run in conduit from the Main Switchgear to a concrete encased
ground conductor and a driven ground field under the main switchgear area.
The driven ground field shall be a minimum of (3) 20 foot by 5/8 inch
copperclad ground rods exothermic connected together with 2/0 cable. The
ground field shall be bonded to perimeter ground system with a minimum of
#2/0 solid bare tinned. This ground system shall also be bonded to the main
water service nearest the Main Switchgear. Provide properly sized bonding
shunt around water meter and/or dielectric unions In the water pipe.
3. Grounding conductors shall be installed providing shortest and most direct
path from equipment to ground; be installed in metal conduit with both
conductor and conduit bonded at each end; have connections accessible for
Inspection and made with approved solderless connectors brazed (or bolted)
to the equipment or structure to be grounded; in NO case be a current
carrying conductor; have a green jacket unless it is bare copper; be run in
conduit with power and branch circuit conductors. The main grounding
electrode conductor shail be exothermic welded to ground rods: All
connections at or below grade shall be exothermic welded.
4. Ail contact surfaces shall be thoroughly cleaned before connections are
made to insure good metal to metal contact.
5. Mechanical lugs or wire terminals shall be used to bond ground wires
together or to junction boxes and panel cabinets and shall be manufactured
by Anderson, Buchanan, Thomas and Betts Co., or Burndy.
6. Ail exterior grade mounted equipment shall have their enclosures grounded
directly to the building ground loop or a separate driven ground at the
equipment in addition to the building green wire power ground connection.
Lugs for copper ground cable shall be high copper alloy terminals or
stainless steel equal to Burndytype QDA Qiklug. Lugs of aluminum alloy are
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
GROUNDING
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not acceptable. Provide corrosion protection for all ground terminations.
7. Provide bonding between all ground systems. Ex1erior ductbank
counterpoise grounds shall be brought into adjacent building and bonded to
the interior ground bus. Lightning protection grounds shall be bonded to
building interior ground bus. All Instrumentation and control grounds shall be
bonded to the power ground bus. Bond all surge suppression devices to
protected equipment cases, the power ground green conductor, the
equipment ground rod and to adjacent metallic systems, (hand rail, pipe
stands, piping, etc). Bonding shall be facilitated via copper conductors.
B. All raceways shall have an insulated copper system ground conductor throughout
the entire length of circuit installed within conduit in strict accordance with NEC.
Grounding conductor shall be included in total conduit fill determining conduit sizes,
even though not included or shown on drawings.
1.02 SUBMITTALS
A. Submit product data on ground rods, ground wire, ground connectors and data on
exothermic weld.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
GROUNDING
SECTION 16460
TRANSFORMERS (480Y Dry Type)
PART 1 - GENERAL
. 1.01 DESCRIPTION
A. Description of System
1. Dry type transformers shall be factory assembled, metal enclosed, provided
and installed in place.
1.02 SUBMTTALS
A. Shop drawings and Product Data
1. Shop Drawings
a. Shop drawings shall be submitted showing dimensions, wiring
diagrams, taps and nameplate nomenclature.
2. Product Data
a. Product data shall be submitted showing compliance with this section
of the specification, manufacturer's written recommendation for
storage and protection, and installation instructions.
b. Provide minimum ventilation clearances from walls and other
obstructions per UL test for each type and size transformer specified.
1.03 PRODUCT STORAGE AND HANDLING
A. Physically protect transformers against damage as recommended by manufacturer.
B. A waterproof covering shall be kept around all transformers until they are ready to be
energized.
PART 2 - PRODUCTS
2.01 CONSTRUCTION
A. Dry type transformers shall be U.L. listed and certified to meet NEMA ST-1 with
convection cooling.
B. Transformers shall be tested and rated for sound level in accordance with ASA-
C89.1-1961 and NEMAstandards.
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRANSFORMERS
C. Class H insulation shall be employed for transformers above 30 KVA with maximum
temperature rise of 150 degrees C. above a 40 degree C ambient; only in ventiliated
and non air conditioned rooms. In air conditioned rooms/spaces provide
transformers rated 115 degree C. above a 40 degree C. ambient. Class F insulation
shall be employed for transformers up to and including 30 KVA with a maximum
temperature rise of 115 degrees C. over 40 degrees C. ambient.
D. Three phase units shall be wound delta-wye.
E. Voltages shall be compatible with the application. Taps shall be provided two at plus
2-1/2% increments and two minus 2-1/2% increments from rated voltage.
F. Basic impulse level shall be 10 KV.
G. Each three phase transformer shall have three separate sets of coils. No Scott T
connections, open delta, or two coil arrangements will be permitted.
H. The enclosure shall be the NEMA type for the service.
I. Drive type transformers shall be rated for high harmonic environment of Variable
Frequency Drives. Drive type transformers shall be shielded isolation transformers
shall have primary surge suppression; secondary filters and electrostatic shield.
PART 3 - EXECUTION
3.01 INSTALLATION
A. Transformers shall be mounted where accessible. No units may be mounted behind
partitions, above ceilings, etc.
B. Each transformer shall be mounted on 3" concrete base extending 3" outside all
sides. Provide the proper ventilation clearances from walls and other obstructions
per manufacturers product literature and NEC 450-9.
C. Flexible conduits shall be used to isolate noise.
D. Grounding and bonding shall be per NEC.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
TRANSFORMERS
SECTION 16501
LIGHTING FIXTURES
PART 1 . GENERAL
1.01 DESCRIPTION
A. Description of System
1. Light fixtures furnished under this Division shall be furnished complete with
lamps and all necessary trim and mounting hardware, and installed as shown
on the drawings.
2. Light fixtures shall be neatly and firmly mounted, using standard supports for
outlets and fixtures. See special mounting requirements as detailed on the
drawings.
3. Lamps shall be included in the system guarantee for a period of ninety (90)
days after final acceptance of the building.
1.02 CODES
A. The WORK of this Section shall comply with the current editions of the following
codes:
1. National Electrical Code (NEC), NFPA 70
2. Florida Building Code (FBC)
1.03 SPECIFICATIONS AND STANDARDS
A. Except as otherwise indicated, the current editions of the following apply to the
WORK of this Section.
1.
2.
UL Underwriters Laboratories
,
CBM Certified Ballast Manufacturer's Association
1.04 SUBMITTALS
A. Shop Drawings
1. Shop Drawings and manufacturers data shall be submitted for the following
items:
a. Luminaire data shall show full-size cross sections. Indicate finished
dimensions, metal thickness, U.L. Label, finish, lens/louver thickness and
materials.
b. Show mounting details, including hung ceiling construction.
c. Indicate type of ballast and manufacturers and ballast quantity and
location. Include information as to power factor, input watts and ballast
factor.
d. Indicate lamps to be utilized and quantity.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTING FIXTURES
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e. Include a complete listing of all luminaries on a single sheet. This listing
shall contain the luminaire type, manufacturer's catalog number,
applied voltage, lamps, ballast type and luminaire quantities.
f. The Engineer reserves the right to require submittal of a complete
sample fixture for any fixture type.
g. For exterior post/pole mounted light fixtures, clearly indicate hand hole
and lightning protection ground lug mounted to post/pole at hand hole
inside post/pole.
h. Signed and sealed shop drawings and calculations shall be submitted
for all exterior pole mounted fixtures. The seal must be of a registered
professional engineer certifying that the foundation and polelfixture
assembly meets or exceeds the wind load criteria of the Florida
Building Code 2002. The foundation details shown on the plans are for
bidding purposes only; the contractor shall provide the foundation and
pole assembly necessary for compliance as submitted at no additional
cost to owner.
I. Product data shall be submitted showing manufacturer's written
recommendations for storage and protection, and installation
instructions.
PART 2 - PRODUCTS
2.01 APPROVED MANUFACTURERS
A. Luminaires
1. Acceptable manufacturers are listed in the lighting fixture schedule shown on
the Drawings.
2. The designations indicated on the lighting fixture schedule are a design
series reference (not necessarily a complete catalog number) and do not
necessarily represent the number, size, voltage, wattage, type of lamp,
ballast, finish trim, ceiling type, mounting hardware of special requirements
as specified hereinafter on as required by the particular installation(s) and
code. Contractor shall verify these requirements and order fixtures as
required to give proper installation per the contract documents and per
codes.
B. Ballasts
1. It is preferred that all ballasts shall be of the same manufacturer. Every effort
shall be made to eliminate ballasts from multiple manufacturers. Ballasts
within luminaires of a given type must however be ofthe same manufacturer.
Multiple manufacturers will not be permitted.
2. Approved Manufacturers:
a) Motorola
b) Advance Transformer Co.
c) Magnetek
d) General Electric
C. Lamps
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
L1GKTING FDmJRES
1. All lamps shall be of the same manufacturer. Multiple manufacturers are not
permitted.
2. Approved Manufacturers:
a) General Electric
b) Philips
c) Osram Sylvania
2.02 MATERIALS
A. All lighting fixtures mounted outdoors subject to dampness and insects shall have
gasketing material between lens door and frame to completely seal interior offixture.
Knockouts and holes in fixtures housing shall be closed and sealed. All fixtures shall
be complete with lamps, shielding brackets, concrete bases, anchor bolts, and all
necessary fittings and accessories for a complete installation.
B. Plastic Lenses and diffusers:
1. Virgin acrylic unless otherwise noted. De-staticize after cleaning. Install and
leave with no finger prints or dirt marks on the lens or diffuser. Lenses shall
be provided on all recessed metal halide luminaires.
2. Minimum unpenetrated thickness for Parabolic or conical element diffuser:
0.085 inch.
3. Minimum nominal thickness: 0.125 inch.
C. Parabolic Luminaire Care: Parabolic luminaires to be installed with mylar cover over
louvers. Coyer shall be U.L. listed for temporary lighting. Upon completion of work,
remove mylar cover with white gloves and blow clean reflectors.
D. Finish: Porcelain or baked enamel finish matte white on interiors with minimum
tested reflectance of 90 percent matte white finish or as specified in visible exterior.
Thoroughly clean base metal and bonderize after fabrication.
E. Sockets: Incandescent lamp sockets - porcelain housings over copper screw shells,
with medium base sockets rated at 660 watts and 250 volts. Insulating joint in pull
chains. Fluorescent lampholder - white, heat-resistant plastic rated 660 watts and
600 volts. Fluorescent industrial sockets - heavy-duty, multi-socket, metal-clad,
spring-loaded. Provide heavy-duty sockets for H.ID. luminaires where mounted less
than 8'-0" AFF.
F. Luminaire Wiring: Minimum individualluminaire wiring - number 18 gauge with
insulation at rated operating temperature of 105 degrees Centigrade or higher.
Terminate wiring for recessed luminaires, except fluorescent units, In an external
splice box.
G. Ballasts
1. Ballasts for F32T8 lamps shall be:
a) High frequency solid state electronic.
b) Instant start, parallel operation.
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
L1GHTlNG FIXTURES
c) 50 F minimum starting temperature unless otherwise noted
d) Minimum 0.87 ballast factor
e) aximum total harmonic distortion (THO) 10%
f) High power factor, minimum 95 %
g) Sound rated A
2. High-power factor (over 90 percent). Certified Ballast Manufacturers'
Certification, ballast case temperature not to exceed 90 degrees Centigrade
during normal operation in 30 degrees Centigrade ambient temperature.
Ballast voltage: 120 or 277 volts, as required by circuiting. Ballast shall be
provided with the best sound rating available.
3. Built-in self-resetting thermal actuated device will remove ballast from line
when excessive ballasttemperature is reached. U.L. Class P, CBM certified
100% output.
4. The conductors between ballasts and lamp holders shall have an approved
insulation for 1,000 volts. This includes conductors to and from remote
ballasts.
5. High-intensity discharge ballasts shall be constant wattage autotransformer
type with built-in thermal protection, minimum power factor of 80%. 12" min.
leads.
6. Provide ballasts with voltage characteristics to match that of all related
circuitry indicated on the Drawings. No extra compensation will be allowed
for failure to properly coordinate ballast voltage with circuitry.
7. Ballasts for control of lamps in one housing or fixture unit shall not control
lamps of an adjoining unit, except as otherwise noted.
8. Guarantee ballast for one full year and one year prorated as per standard
manufacturer's warranty against defects for a period of2 years. Guarantee to
include replacing defective ballast with new ballast.
9. Provide dimming ballasts as required for fixtures controlled by individual
dimming or dimming systems.
H. Lamps
1. Provide a complete set of new lamps in each fixture.
2. Unless noted otherwise lamps must conform to the following:
a) Fluorescent: T-8, 35k color.
b) Incandescent: "A" lamps to be inside frosted rated at 130 volts.
c) Compact Fluorescent: triple Twin tube, 4-pin
d) HID: Metal Halide, clear, universal base
I. Luminaires installed recessed in a metal pan ceiling shall have a flange type trim to
overlap abutment of adjacent pans.
J. Where utilized as raceways, luminaires shall be suitable for use as raceways.
Provide feed through splice boxes where necessary.
K. Where ceiling mounted fixtures are called for in the Light Fixture Schedule and on
the drawings, this contractor shall provide fixture trims and supports as required to
match type of ceiling system which will be furnished. No ceiling fixtures shall be
ordered until the Ceiling System Installer has given written approval of the method
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
L1GI-fTING FIXTURES
and location of fixture hanging and fixture type. Fixtures supported by suspended
ceiling systems shall be securely fastened to the ceiling framing member by
mechanical means, such as bolts, screws, or rivets. Clips identified for use with the
type of ceiling frame member(s) and fixture(s) shall also be permitted. Where
fixtures are supported by the suspended ceiling system; the ceiling system shall
have a minimum (2) opposite corners tied to structure at each fixture location; this
contractor shall be responsible for doing this work or for having the ceiling contractor
perform it.
L. All exterior posUpole mounted light fixtures shall have a hand hole at the base,
lightning protection in hand hole and ground conductor connected to ground rod at
base. Hand hole shall provide easy access to light fixture fusing and lightning
protection ground lug. Lightning protection ground lug shall be provided inside
posUpole, electrically in contact with pole, for connection to ground rod. Provide and
install ground wire from ground lug to ground rod, concealing ground wire through
posUpole base. Anchor bolts to be galvanized.
M. All interior and exterior light fixtures shall not have any labels exposed to norrnal
viewing angles. This includes manufacturer labels and U.L. labels. All labels shall
be concealed within the body of the fixture and/or luminaire. No manufacturers
name or logo shall appear on the exterior of any light fixtures unless approved in
writing by engineer.
N. All light fixtures shall adhere to U.L. Test Standard #1571 and Section #41 0-65C of
the National Electric Code. All manufacturers shall provide the required thermal
protection as required.
PART 3 - EXECUTION
3.01 INSTALLATION
A. Install luminaires in mechanical and unfinished areas after ductwork and piping
installation. Adjust fixture locations to provide the best lighting for equipment access
and service locations. Locate fixtures 8 feet 6 inches above floor, or at suitable
locations within space on walls but not lower than 7'-0" AFF.
B. The Contractor shall protect luminaires from damage during installation of same and
up to time of final acceptance. Any broken luminaires, glassware, plastics, lamps,
etc., must be replaced by the Contractor with new parts, without any additional
expense to the Owner.
C. The contractor shall verify prior to ordering fixtures that each fixture scheduled has
correct type trim and support arrangement for the proposed ceiling construction.
D. Install all fixtures in accordance with manufacturer's written instructions and the
NEC.
E. Pendant mounted units shall comply with the following:
1. Each stem shall have a brass or steel swivel or other self-aligning device of
type approved by the Engineer. The entire luminaire mounting (hickey,
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
L1GKTING FIXT1JRES
aligner, swivel, stem, etc.) shall be submitted to and approved by the
Engineer before installation.
2. An insulated malleable iron bushing shall be placed at luminaire end of stem
through which wire passes.
3. A pendant support using an approved sliding clevis bracket which firmly grips
an indentation in rigid sides of the wiring channel will be acceptable.
4. Connections between outlet boxes and luminaires shall be by means of
approved flexible raceways. The application of raceways directly between
luminaires is unacceptable.
F. Where luminaires are mounted upon surface-mounted outlet boxes. in surface
mounted conduit runs, this Contractor shall furnish and install a luminaire canopy
sufficiently deep to permit exposed conduits to pass through. Canopy shall have
proper openings cut by luminaire manufacturer through which conduits may pass.
Submit sample of canopy for approval before installation.
G. Ceiling surface mounted fluorescent fixtures installed in exposed ceiling areas are to
be suspended from ceiling structure with all-thread rods and 1-1/2"x1-1/2" Kindorf
channels, full length of fixture/row. Mount outlet box at structure with flexible
connection to fixture.
H. Ducseal shall be installed to seal all conduits entering exterior light fixtures from
underground.
I. Install exit light as indicated on the drawings but not higher than 10'0" AFF. Size and
color of lettering shall comply with local codes.
J. Outdoor lighting shall be aimed in periods of darkness in front ofthe owner/engineer.
3.02 COORDINATION WITH AMBIENT CONDITIONS
A. The Contractor is responsible for coordinating the characteristics and the U.L.
labeling of the luminaires and their components with the ambient conditions which
will exist when the luminaires are installed. No extra compensation will be permitted
for failure to coordinate the luminaires with their ambient conditions. These areas of
coordination include but are not limited to the following:
1. Wet location labels
2. Damp location labels
3. Low temperature ballasts
4. Dimming ballasts
5. Very low heat rise ballasts
6. Explosion proof
7. Plenums and air handling spaces
8. Fire rated ceilings
9. Low density ceilings
10. Insulated ceilings
3.03 CLEAN-UP
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NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTING FC<TURES
A. Luminaires:
1. Clean free from dust and dirt. Wash lens and glassware using cleaner such
as "Windex" and dry with absorbent paper. Clean plastic per manufacturer's
recommendations; do not wipe. Lenses which are kept in original containers
until immediately prior to final inspection may not require cleaning. Clean
"Alzak" aluminum surfaces (reflectors, fixture cones and the like) per mfr's
recommendations being careful to remove finger prints and smudges.
2. It is the contractor's responsibility to remove any U.L.labels or manufacturers
labels from areas of fixture exposed to view and relocate label to non-
obtrusive area on fixture.
END OF SECTION
January 2010
16501-7
NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTING FIXfURES
SECTION 16610
LIGHTNING PROTECTION SYSTEM
PART 1 - GENERAL
1.01 DESCRIPTION
A. Description of Systems:
1. A Lightning Protection System shall be placed on the structures by
experienced installers in compliance with provisions of Code for Lightning
Protection Systems as adopted by the National Fire Protection Association
and Underwriters' Laboratories. Intent of the lightning protection systems
shall be to protect the structures against damage by lightning. All equipment
to that result shall be included whether or not specifically called for herein.
Installers shall be Underwriters Laboratories certified as Master Label
installers or of equal qualifications as approved by Engineer.
2. Provide complete and upgraded lightning protection systems as noted on the
drawings. Provide bonding and grounding systems and interconnection to
the site lightning protection and grounding systems as shown on the
drawings and as specified. All systems shall be in conformance to NFPA-
780, UL-96, UL96-A and as shown on the contract drawings.
3. Materials shall comply in weight, size and composition with the requirements
of Underwriters' Laboratories and the National Fire Protection Code relating
to this type of installation, and shall be U.L. labeled.
4. All installations shall be performed to meet Underwriters Laboratories Master
Label standards. Provide a UL Master Label for all protected structures to
the extent the structures are eligible under the standards of UL 96A. If the
structure is not eligible under the standards of UL 96A, provide a Letter of
Findings for the installation at completion of work.
1.02 SUBMITTALS
A. Shop Drawings and Product Data:
1. Shop Drawings: Shop drawings shall be submitted before work is started.
Drawings shall include full layout of cabling and points, and connections. The
drawing shall show the type, size and location of all equipment, grounds and
cable routing. The drawing shall show all grounds and air terminals that are
shown on the contract drawings. See additional requirements for shop
drawings in section 16050.
2. Product Data: Product Data shall be submitted on all equipment to show
compliance with this section of the specifications and shall include
manufacturer's written recommendations for installation. Provide a sample of
the air terminal to be used with the shop drawing submittal.
1.03 SYSTEM DESIGN
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NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTNING PROTECTION SYSTEM
A. The system shall be an effective, aesthetically acceptable streamer-delaying
lightning protection system to the standards of Underwriters Laboratories UL 96 &
UL96A. The purpose of the system shall be to reduce the likelihood of a direct strike
to the protected structure by delaying the formation of streamers from that structure.
Secondarily the system shall be designed in such a manner that it affords protection
to the structure upon which it is installed in the event a direct lightning strike to the
structure does occur.
B. The system components shall not require mounting in a specific configuration or
impose any other mounting limitations which may interfere with utility use of structure
space or otherwise preclude or limit the intended use of the structure.
C. All components shall be attached to the structure in such a manner as to reduce the
possibility of corrosion between dissimilar metals. If installed on a metallic or
otherwise electrically conductive structure, the system shall be electrically bonded to
the structure upon which it is installed through mounting clamps and brackets, with
additional bonding to grounded objects and to the structure, as required or as
indicated on the drawings.
D. The system shall be composed of components that meet the requirements of
Underwriters Laboratories UL 96. Aluminum and Stainless Steel components shall
be employed on structures and portions of structures subject to corrosive elements,
where the use of copper components could be rendered ineffective, due to the
surrounding environment. No dissimilar metals shall be allowed to be in contact.
E. Air Terminals shall be mounted on all outside corners of each structure, around the
perimeter of each structure at intervals not to exceed twenty (20) feet, and on the
interior of each structure in such a manner that no two Air Terminals are separated
by a distance of more than fifty (50) feet. In the event this is not practical, such as on
a large open tank, Air Terminal spacing around the perimeter shall be decreased to
not more than fifteen (15) feet, with a total number around the perimeter not less
than the total of the normally required perimeter Air Terminals, plus the additional
numberof AirTerminals if Air Terminals had been installed on the interior at Intervals
not greater than fifty (50) feet.
F. Each Air Terminal shall be provided with two (2) contiguous paths to ground. On
structures with handrails, exposed structural members, or other conductors, provide
a bond to structural conductors from the lightning protection system. Handrails shall
not be used as a main lightning protection conductor. Provide a continuous lightning
protection conductor parallel with handrails and bond from it to each handrail section
and a minimum of 10' on center. In the case of a structure or a portion of the
structure where the structure itself is electrically conductive, such as a light pole,
tower, etc, that structure or portion of the structure itself may be employed as part of
the lightning protection system, provided it meets the minimum requirements of UL
96 or UL 96A, and down conductors are specifically not required on such structures.
PART 2 - PRODUCTS AND INSTALLATION
2.01 AIR TERMINALS
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NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTNING PROTECTION SYSTEM
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A. Air Terminals shall be of the streamer delaying type. Each air terminal shall have a
minimum of five hundred dissipater electrode wires, none of which exceed ten
thousands of an inch diameter. Electrode material shall be high quality 316 series
stainless steel and shall have proper base support for surface on which they are
attached, and shall be securely anchored to this surface. Terminals shall project a
minimum of 18" above top of object to which attached.
B. Streamer-delaying Air Terminals shall be manufactured by Lightning Master
Corporation.
2.02 CONDUCTORS
A. Roof conductors shall consist of rope lay tinned copper conductor complying with the
weight and construction requirements for Class II lightning protection systems
(115,000 CM). Conductors shall be coursed to interconnect with air terminals, and in
general, provide a two-way minimum path to ground. The angle of any turn shall not
exceed 90 degrees, and shall provide an approximately horizontal or downward
course. Down conductors shall be copper, and shall be installed in PVC conduit and
hidden within the structure. Approved bi-metal transitions from aluminum conductors
for bonding of aluminum roof structures (exhaust fans, etc.) to copper down
conductors shall be provided.
B. Only in the case where aluminum building flashing, aluminum handrails, aluminum
catwalks is specified, will aluminum roof conductors be acceptable; otherwise
provide copper system throughout. All down conductors shall be copper. Radius of
bends shall not be less than 8 inches.
C. Counterpoise loop ground conductors shall be tinned copper and be a minimum size
equal to the main roof conductor size (115,000cm) or 2/0.
2.03 FASTENER
A. Conductor fasteners shall be of the same material as the conductor, having ample
strength to support conductor. Where fasteners are to be mounted in masonry or
structural work, they shall be furnished to the Masonry or Structural Contractor so
they may be installed during construction of the project.
B. All fasteners shall be of a heavy-duty bolted type typically used for Class II lightning
protection systems. Conductorto conductor connections shall be through heavy-duty
pressure type bolted fasteners. Splice and bimetal connections shall be through four
bolt pressure type heavy-duty connectors. Crimp fasteners shall not be used.
C. Dissimilar metals shall not be allowed to be in contact. Aluminum fittings shall be
mounted on aluminum where necessary, and bonded to the main system using.
bi-metal connectors. Lead coating shall not be acceptable as a bi-metal transition.
D. All mechanical termination points and lugs shall have an anti-corrosive coating
applied. In areas subject to chemical corrosion (odor control, degaslfiers, chem.
Rooms, etc.) apply Glyptal 1201 red enamel coating after termination is made. In
other less corrosive areas apply Permatex battery protector sealer (SA-9) or Glyptal
1201 or equal.
January 2010
16610-3
NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTNING PROTECTION SYSTEM
E. Lugs for copper cable shall be high copper alloy terminals or stainless steel equal to
Burndy type QDA Qiklug. Lugs of aluminum alloy are not acceptable.
2.04 GROUND CONNECTIONS
A. Ground rods shall be installed in the quantities as indicated on the drawings and as
required by NFPA-780. Ground rods shall be placed a minimum of two (2) feet from
building foundations. In addition to above artificial grounds, one down conductor of
each two-path system shall be connected to water piping system with approved
water pipe type strap connector. All ground rods shall be 5/8" X 20' copperweld type.
All connections made below grade shall be exothermically welded (cadweld)
connection and placed in a ground rod inspection well as detailed.
B. Soil type in the area is primarily sand with rock layer below. The rock layers on site
will require drilling of ground rod holes. All ground rods shall be installed vertically.
After drilling and installation of rod, back fill with sand and hydro compact around rod
to provide low resistance to ground.
2.05 GROUND ROD & GROUND SYSTEM TESTING
A. The contractor shall utilize a clamp on ground loop tester during construction to
check the system for high resistance connections. The resistance at any point below
the air terminal shall be less than 5 ohms. The resistance at grade level on the down
conductors should be less than 2 ohms. The contractor shall investigate and correct
high resistance readings within the system. Demonstrate to the engineer's
satisfaction with witness testing, provision of a low resistance installation meeting
this specification.
B. Provide three point fall of potential ground testing on a minimum of one ground rod
on each facility prior to connection to the counterpoise system. As an alternate
provide ground rod selective method testing with appropriate ground testers. The
complete ground system shall be three point fall of potential tested after completion
of work. The system shall be tested at a minimum of three points spaced around the
site using the "Tagg Slope" technique. Total grid system grounds should be less than
one ohm.
2.06 INSTALLATION
A. Installation shall be made in an inconspicuous manner with conductors coursed to
conceal equipment as much as possible. Down conductors shall be concealed within
structure, and shall be run in 1" PVC conduit. Surface mount down conductors to
existing structures in a neat and workmanlike manner. All metallic equipment within 6
feet of any lightning conductor shall be bonded to conductor. System shall also be
tied to the main service electrical ground and other ground systems in the area.
2.07 COORDINATION
A. The installer shall coordinate the lightning protection work to insure a correct, neat,
and unobtrusive installation.
January 2010
16610-4
NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTNING PROTECTION SYSTEM
_ _'_',_' .w~~_ _ ~.' _ ~_"._ _, __'_'_"___~"_m_' _,_,
B. Any electrical service grounding system and metallic water service piping to the
structure shall be electrically bonded to the lightning protection system.
C. The contractor shall coordinate his work in such a manner as to not interfere with the
normal operation of the structure upon which the installation is performed.
2.08 Material Manufacturers
A. Equipment shall be as manufactured by Thompson Lightning Protection, Inc.
Independent Protection Company, Inc., Heary Brothers Lightning Protection, 'Harger
Lightning Protection, Robbins Lightning Protection or Lightning Master Corporation.
END OF SECTION
January 2010
16610-5
NCWRF COMPLIANCE ASSURANCE PROJECT
LIGHTNING PROTECTION SYSTEM
SECTION 16709
SURGE SUPPRESSION, BONDING & GROUNDING
PART 1 - GENERAL
1.01 APPLICABILITY
A. Surge suppression, grounding and bonding requirements outlined herein shall be
fully applicable to all electrical and electronic systems which are provided as part of
this contract under this division. It is intended that surge suppressors, grounding and
bonding proVisions as described herein be provided for each system or device by the
contractor installing the system or device. Under certain circumstances, Surge
suppression devices, bonding and special grounding may be required as provision
for owner provided systems or equipment. Specific requirements for such additional
surge suppression, bonding, and grounding will be indicated on the contract
drawings or described elsewhere in this specification.
B. Surge suppression, bonding and grounding shall be required on electrical and
electronic systems apparatus residing outside the confines of a protected building.
Tower mounted lighting, RF transmitters and active repeaters are examples of these
types of devices. Devices mounted on the exterior wall of a protected building below
the roof line shall be considered as being within the protected building.
C. Requirements of this section shall be fully applicable to systems furnished under
other divisions when reference is made to this section. References shall be by
section number, name, or both.
1.02 REFERENCE STANDARDS AND PUBLICATIONS
A. The following standards and publications are referenced in various parts of this
section and shall apply to this work:
1. ANSI/IEEE C62.41 (IEEE 587) Guide for SurQe VoltaQes in Low-Voltage AC
Power Circuits. For purposes of this specification, category A and B exposures
shall be as described. Category C exposure shall be assumed to be similar to
category B in terms of surge waveforms, however, maximum voltage amplitude
shall be assumed to be ten kilovolts and maximum current amplitude shall be
assumed to be ten kiloamperes.
2. ANSI/IEEE C62.31 (IEEE 465.1) Standard Test Specifications for Gas Tube
SurQe Protective Devices.
3. ANSI/IEEE C62.1 Standard for SurQe Arresters for AC Power Circuits.
4. ANSI/IEEE C62.32 Standard Test Specifications for Low-VoltaQe Air Gall
SurQe-Protective Devices.
January 2010
16709-1
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
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5. ANSI/IEEE C62.33 Standard Test Specifications for Varistor Surge-Protection
Devices.
6. ANSI/IEEE Standard 81 Guide for Measuring Earth Resistivity, Ground
J.mpedance, and Earth Surface Potentials of a Ground System.
7. !JghtninQ and 60 Hz Disturbances at the Bell OperatinQ Company Network
Interface. Bell Communications Research Technical Reference TR-EOP-
000001, Issue 1, June 1984
8. UL-1449-2009 Standard for Transient VoltaQe SurQe SUQPressors
B. ANSIIIEEE standards may be obtained from the Institute of Electrical and Electronics
Engineers, Inc. 345 East 47th Street, New York, NY, 10017.
C. Qualified surge suppression and equipment manufacturers may obtain a copy of the
Bell Communications Research Standard through a Bell Operating Company
representative. This document is also on file at the Engineer's office for review by
interested parties. Permission to copy this document has not been granted.
1.03 SYSTEM PERFORMANCE CRITERIA
A. Surge suppression, grounding and bonding required by this specification for
protection of electronic systems shall effectively protect the systems to which it is
applied against lightning and other surge transients throughout the useful life of the
system. Surge suppression devices and related grounding and bonding systems
shall be designed and installed in such a manner that normal operation of the system
is not impaired due to installation of such devices.
B. Calculations for suppressor pulse-lifetime ratings shall assume the devices are
installed in areas of medium exposure when such devices are installed In ANSIIIEEE
62.41 category A or B locations. Devices in category C locations shall be considered
to be in an area of high exposure. Frequency of surge occurrence and surge
amplitudes' shall be as outlined in this standard with a required minimum suppressor
lifetime of fifteen years.
C. Electronic system equipment shall be protected by dealing with each group of related
devices as a "cluster" of equipment and protecting all metallic circuits which enter
and leave the cluster. The cluster may be as large as a computer room, control
room or equipment room or as small as an individual equipment cabinet. For
purposes of establishing maximum size, all equipment within a protected cluster shall
fall within a circular area of not greater than twenty-five feet in radius around a
common point. All metallic circuits entering and leaving the equipment cluster shall
be grouped together at a common point or "window" not larger than four by eight feet
in dimension and protected with one exception. Circuitry which is supported by
equipment within the cluster and extending beyond the cluster to serve devices
within the building shall not require protection provided all of the following conditions
are met:
1. Circuitry is enclosed within ferrous metal conduit.
January 201 0
16709-2
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EOUIPMENT
2. No wiring within the raceways containing such circuits extends beyond the
confines ofthe building.
3. No connection is made between this wiring and conduit ground outside of the
protected perimeter established for the equipment cluster.
4. All devices connecting to such circuits shall have no connections to conduit,
other grounds or other power sources outside the perimeter established for the
equipment cluster.
5. All wiring to devices (and circuitry within devices) must be insulated from
conduit and other grounds to a minimum impulse breakdown level of 5000
(five-thousand) volts or greater.
D. All equipment chassis within a protected equipment cluster shall be effectively
isolated from stray grounds and bonded only to a ground bar at the "window" location
for the cluster. The ground terminals of the suppressors protecting the equipment
cluster shall also connect to this bar using a short direct route. The ground bar for
each equipment cluster shall Interconnect with each of the following external
grounding systems:
1. Electrical "Green-Wire" grounds serving equipment within the cluster.
2. ihe bUilding metallic structure at the closest point.
3. The nearest point of attachment to the building cold water piping system (if
metallic).
1.04 SPECIAL CABLING REQUIREMENTS
A. Cabling extended beyond the protected confines of a building, either direct burial or
enclosed in non-ferrous conduit shall be designed for direct burial in a high lightning
environment.
B. Cables shall be expected to carry significant potentials associated with the direct or
induced effects of lightning and protection from pinhole sheath damage and
subsequent electrolytic action shail be provided.
C. Cable design shall include a metaliic shield and high density polyethylene outer
jacket. Flooding compound shail be provided between the jacket and shield to heal
pinhole jacket penetrations resulting from lightning. Standard direct burial telephone
cables and CATV cables are acceptable for this application.
1.05 EXEMPTION FROM EXTERNAL SURGE SUPPRESSION REQUIREMENTS
A. It is recognized that equipment and system manufacturers are beginning to address
surge suppression as an inherent part of their equipment design and it is the intent of
this specification to permit the use of such equipment without requiring
supplementary external surge suppression.
January 2010
16709-3
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
B. Specific exemption will be granted for such systems and equipment upon receipt of
documented tests from the manufacturer certifying the ability of the equipment or
system to withstand common and differential mode surges on all metallic circuits
using levels and waveforms described in ANSI/IEEE C62.41-1980 and as extended
in the standards paragraph of this section. Pulse lifetime and withstand ratings for
equipment shall be certified based on the appropriate category of exposure for a
medium or high exposure location as appropriate to the location in which the
equipment will be installed.
C. Exposure for circuits which connect to telephone company lines shall be determined
from the Bell Communications Research Standard listed herein. Frequency of surge
occurrence shall also be determined from this standard.
D. Surge suppression furnished as an integral part of the equipment or system shall be
designed for a useful lifetime of fifteen years under conditions of exposure as
outlined in the appropriate standard.
E. Grounding and bonding provisions described herein shall apply to all equipment
which is internally protected by the equipment manufacturer.
F. In absence of a more reiative standard, ANSIIIEEE C62.41-1980 exposure
categories and waveforms shall be utilized in determining protective requirements for
both power and signal wiring. The branch circuit wiring systems providing power to
various electronic systems are quite similar to signal wiring in terms of topography
and electrical characteristics which determine their ability to propagate surge energy.
1.06 MANUFACTURER QUALIFICATIONS
A. All surge suppression devices shall be manufactured by a company normally
engaged in the design, development, and manufacture of such devices for electrical
and electronic systems equipment.
B. The surge suppressor manufacturer shall offer factory repair service for all non-
encapsulated assemblies and replacement for all encapsulated units.
1.07 WARRANTY
A. All surge suppression devices and supporting components shall be guaranteed by
the installing contractor to be free of defects in materials and workmanship for a
period of one year from the date of substantial completion for the system to which
the suppressor is attached.
B. Any suppressor which shows evidence of failure or incorrect operation during the
warranty period shall be repaired or replaced at no expense to the Owner. Since
"Acts of Nature" or similar statements include the lightning threat to which these
suppression devices will be exposed, any such clause limiting warranty responsibility
in the general conditions of this specification shall not apply to this section.
1.08 SUBMITTAL
16709-4
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
January 2010
A. Surge suppression devices shall be submitted as an integral part of the equipment
submittal .for the system or equipment which they protect. Surge suppressors and
their wiring, bonding, and grounding connections shall be indicated on the wiring
diagrams for each system. Equipment grouped in clusters for the purposes of
protection shall be indicated on the drawings by cluster and all bonding and
grounding connections for the cluster shall be shown.
B. The surge suppression submittal shall also include, but shall not be limited to, the
following additional data:
1. Complete schematic data for each suppressor type indicating component
. values, part numbers, conductor sizes, etc.
2. Dimensions for each suppressor type indicating mounting arrangement and
required accessory hardware.
3. Manufacturers certified test data indicating the ability of the product to meet or
exceed requirements of this specification.
4. If requested, a non-encapsulated sample of each suppressor type to be used
for testing and evaluation. If requested by the manufacturer, sample will be
held confidential unless cause is found to suspect that actual devices furnished
do not match sample. Samples will not be returned.
5. It is recognized that certain manufacturers do not wish to divulge the contents
of their products. Under these conditions, and in lieu of the required sample,
the suppressor manufacturer may submit certified test data from a recognized
independent testing laboratory indicating compliance with each element of this
specification.
PART 2 - PRODUCTS
2.01 POWER SUPPRESSORS FOR ELECTRONIC EQUIPMENT
A. Each item of electronic equipment provided under this contract and connected by
line cord or direct wired to the building electrical system shall be provided with a
three-stage single or multi-phase hybrid suppressor. Fusing shall be provided which
removes the protective elements from the circuit upon failure. Visual indication or
loss of output power shall be used to notify the user of device failure.
B. Suppressors shall be rated for a minimum of 125% of their continuous electrical load.
Suppressors for cord connected equipment shall be equipped with standard NEMA
cordsets one of which .includes a molded grounding receptacle and the other, a
molded grounding plug. Suppressor shall be installed in series with the power cord
for the protected equipment. Where several items of equipment are grouped within
the same cluster of equipment, one suppressor may be used in conjunction with
properly sized grounding plugstrip to serve the equipment.
C. Suppressors for direct wired equipment shall be identical in internal design to the unit
described for cord connected applications, however, protected screw termin'als
January 2010
16709-5
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
suitable for termination of solid copper wire shall be used for wiring terminations.
One suppressor may be used to support several equipment cabinets provided all
cabinets are located within the same equipment cluster and the maximum connected
load shall not exceed eighty percent of the rated suppressor capacity.
D. Suppressors shall be constructed with a phenolic non-flammable exterior housing
with provisions for mounting to the interior of equipment racks, cabinets, or to the
exterior of free-standing equipment. Suppressors shall be constructed as three-
stage devices. The first stage shall include a high-energy varistor clamp between
line and neutral and from neutral to ground. The second stage shall consist of series
air-core inductor installed in the line conductor(s) to properly coordinate the action of
the first and third stages. The third, fast acting, hard clamping stage shall consist of
a network of silicon avalanche bipolar surge suppression diodes between the neutral
and line conductor(s).
E. Minimum suppressor performance characteristics shall be as follows:
1. Maximum single impulse line-to-neutral current withstand: 15,000 Amperes (8
x 20 us waveform)
2. Maximum single impulse neutral-to--ground current withstand: 10,000 Amperes
(8 x 20 us waveform)
3. Pulse lifetime rating Category B worst case current waveform (8 x 20 us @
3000 Amperes): 1200 occurrences
4. Pulse lifetime rating for 200 Ampere (8 x 20 us waveform): 10,000 occurrences
5. Worst case response time: Five Nanoseconds
6. Worst case (Maximum Single Impulse Current Conditions) clamping voltage:
400% of nominal phase-to-ground RMS voltage.
7. Initial breakdown voltage: 200% of nominal phase-to-ground RMS voltage.
2.02 SUPPRESSORS FOR SINGLE CONDUCTOR PROTECTION
A. Suppression devices for single conductor protection shall be provided in multi-circuit
pluggable packages suitable for the circuitry to be protected. Units for protection of
data circuits which utilize standard connector configurations shall be equipped with
connectors which install in series with the data cable to the protected equipment.
Units intended for use with individual wiring conductors shall be equipped with
accessory terminal blocks or strips suitable for the type of wiring being used.
Suppressors installed outside of terminal or equipment cabinets (except at
designated terminai boards) shall be provided with a housing approved for the
location.
January 2010
B. Suppression for each circuit shall consist of a two-element gas tube first stage, a
series isolating element, and a silicon avalanche second stage. Resistive limiting
elements may be used where the voltage drop across the series resistance has no
effect on circuit operation. Inductive series elements may be used on other circuits
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
16709-6
to effectively pass direct or low frequency alternating currents while limiting passage
of fast risetime surge waveforms. Silicon avalanche devices shall be designed for
surge suppressor applications and shall be polarized or bipolar as appropriate for
each circuit.
C. Minimum performance criteria (each circuit) shall be as follows:
1. Maximum single impulse conductor-to-ground current withstand: 12,000
Amperes (8 x 20 us waveform)
2. Pulse lifetime rating Category B worst case current waveform (8 x 20 us @
3000 Amperes): 1200 occurrences
3. Pulse lifetime rating for 100 Ampere (10 x 1000 us waveform): 1,000
occurrences
4. Worst case response time: Five Nanoseconds
5. Worst case (Maximum Single Impulse Current) clamping voltage: 200% of
normal operating voltage amplitude and polarized or bipolar as appropriate for
each circuit type.
6. Initial breakdown voltage: 150 percent of normal operating voltage peak
amplitude plus or minus five percent.
7. Capacitance: Capacitance for DC or low freq uency lines shall not exceed 2000
picofarads measured line to ground at the rated diode breakdown voltage.
Suppressors intended for use on high frequency or high baud rate circuits shall
be designed for use on such lines. Capacitance of such units shall be equated
to equivalent cable feet based on the type of cabling used for the particular
circuit. The sum of equivalent cable feet for suppressors and actual cable
footage shall not exceed manufacturers recommended maximum values for
the system on which these devices are installed.
8. Circuit compensation: Any additional circuit compensation (gain or
equalization) required to compensate for the .insertion of surge suppression
devices shall be provided as part of this contract.
2.03 SUPPRESSORS FOR CONDUCTOR PAIR PROTECTION
A. Suppression devices for conductor pair protection shall be provided in multi-circuit
pluggable packages suitable for the circuitry to be protected. Units for protection of
data circuits which utilize standard connector configurations shall be equipped with
connectors which install in series with the data cable to the protected equipment.
Units intended for use with multiple wiring pairs shall be equipped with an accessory
terminal blocks or strips suitable for the type of wiring being used. Single pair units
shall be configured as encapsulated units with wire leads or screw-terminal wiring
terminations. Suppressors installed outside of terminal or equipment cabinets
(except at designated terminal boards) shall be provided with a housing to afford
physical protection for the surge suppression modules.
16709-7
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
January 2010
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B. Suppression for each pair shall consist of a three-element gas tube first stage, an
isolating element in series with each conductor of the pair, and a silicon avalanche
second stage. Second stage clamping shall be provided across the pair for
differential mode protection and from each side of the pair to ground for common
mode protection. Resistive limiting elements may be used on low current circuits
where the effect of voltage drop across the series resistance has no effect on circuit
operation. Inductive series elements shall be used on higher current circuits to
effectively pass direct or low frequency alternating currents while limiting passage of
fast risetime surge waveforms. Silicon avalanche devices shall be designed for
surge suppressor applications and shall be polarized or bipolar as appropriate for
each circuit.
C. Minimum performance criteria (each circuit) shall be as follows:
1. Maximum single impulse conductor-to-ground or conductor to conductor
current withstand: 10,000 Amperes (8 x 20 us waveform)
2. Pulse lifetime rating Category B worst case current waveform (8 x 20 us @
3000 Amperes): 10 occurrences
3. Pulse lifetime rating for 100 Ampere (10 x 1000 us waveform): 1,000
occurrences
4. Worst case response time: Five Nanoseconds
5. Worst case (Maximum Single Impulse Current) clamping voltage: 200% of
normal operating voltage amplitude and polarized or bipolar as appropriate for
each circuit type.
6. Initial breakdown voltage: 150 percent of normal operating voltage peak
amplitude plus or minus five percent.
7. Capacitance: Capacitance for DC or low frequency lines shall not exceed 2000
picofarads measured line to line or line to ground at the rated diode breakdown
voltage. Suppressors intended for use on high frequency or high baud rate
circuits shall be designed for use on such lines. Capacitance of such units
shall be equated to equivalent cable feet based on the type of cabling used for
the particular circuit. The sum of equivalent cable feet for suppressors and
actual cable footage shall not exceed manufacturers recommended maximum
values for the system on which these devices are installed.
8. Circuit compensation: Any additional circuit compensation (gain or
equalization) required to compensate for the insertion of surge suppression
devices shall be provided as part of this contract.
2.04 BONDING AND GROUNDING CONDUCTORS AND MATERIALS
A. Conductors utilized for surge suppressor bonding shall be a minimum of #6 AWG
solid insulated copper unless otherwise specified.
16709-8
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
January 2010
B. Ground bus or strip material shall be copper, a minimum of 26 gauge in thickness
and three inches wide unless otherwise specified. Bus materials may be secured to
surfaces with an appropriate mastic material or mechanical fasteners. Bus
connections shall be bolted or brazed and reinforced as necessary on thin bus
material to provide a permanent and secure connection.
C. Unless otherwise specified, all surge suppression grounding electrodes shall be 5/8"
diameter copperweld rods, twenty feet in length.
D. Connectors, splices, and other fittings used to interconnect grounding conductors,
bond to equipment or ground bars, shall comply with requirements of the National
Electric Code and be approved by Underwriters Laboratories for the purpose.
E. Connectors and fittings for grounding and bonding conductors shall be of the
compression or set-screw type in above grade locations. Connections below grade
shall be exothermically welded or brazed.
F. Bonding connections between electrically dissimilar metals shall be made using
exothermic welds or using bi-metal connectors designed to prevent galvanic
corrosion.
PART 3 - EXECUTION
3.01 SEGREGATION OF WIRING
A. All system wiring shall be classified into protected and non-protected categories.
Wiring on the exposed side of suppression devices shall be considered unprotected.
Surge suppressor grounding and bonding conductors shall also fall into this
category.
B. All wiring between surge suppressors and protected equipment shall be considered
protected. Isolated circuitry exempted from surge suppression requirements in part
one of this section shall also be considered protected.
C. A minimum of three inches of separation shall be provided between parallel runs of
protected and unprotected wiring in control panels, terminal cabinets, terminal
boards and other locations. In no case shall protected and unprotected wiring be
bundled together or routed through the same conduit. Where bundles of protected
and unprotected wiring cross, such crossings shall be made at right angles.
3.02 INSTALLATION OF SUPPRESSORS
A.
Suppressors shall be installed as close as practical to the equipment to be protected
consistent with available space. Where space permits and no code restrictions
apply, suppressors may be installed within the same cabinet as the protected
equipment. Suppressors installed in this manner shall utilize the equipment chassis
as a medium for bonding of their ground terminals. Bonding jumpers not exceeding
two inches in length shall be installed between the chassis and suppressor ground.
terminals. Bolted connections with star washers shall be used to insure electrical
and mechanical integrity of connections to the equipment chassis.
NCWRF COMPLIANCE ASSURANCE PROJECT
16709-9 SURGE SUPPRESSION EQUIPMENT
January 2010
B. Suppressors shall be installed in a neat, workmanlike manner. Lead dress shall be
consistent with recommended industry practices for the system on which. these
devices are installed.
C. Bonding between ground terminals for power and signal line suppressors serving a
particular item or cluster of equipment shall be kept as short as possible. . Where
pnictical, suppressors shall be installed in a common location for the cluster with
their ground terminals bonded closely together. For installations requiring separation
between the various suppressor grounds and equipment chassis within an
equipment c1uster,the following table shall be used to determine bonding conductor
requirements (distances are measured between most distant suppressor or chassis
grounds):
0-10feet
10- 25 feet
25- 50 feet
Over 50 feet
#6 AWG Bare Copper (Solid)
1-1/2" Copper Strip 26ga. Min.
3" Copper Strip 26ga. Min.
6" Copper Strip 26ga. Min.
Care shall be exercised to avoid connection of incidental grounds to the bonding bus
system.
D. Where terminal cabinets are used to house surge suppressors, painted steel
backboards shall be used to serve as a low impedance ground plane for bonding
surge suppressor leads together. Terminal boards used for the same purpose shall
be laminated with a single sheet of 14 ga, galvanized steel to serve as a ground
plane for suppressors. Suppressors with ground terminals not inherently bonded to
the ground plane through their mounting shall be bonded to this plane using a two-
inch maximum length of #12AWG copper wire and suitable lug. Ground planes and
backboards shall be drilled to accept self tapping screws, any paint in the area of the
bond shall be removed and star washers shall be used.
E. Supplementary grounding and bonding connections required between the bonding
bus or ground plane for each equipment cluster and other locations as indicated
herein shall be accomplished using #6 AWG bare copper conductor and approved
connections unless otherwise noted.
END OF SECTION
16709-10
NCWRF COMPLIANCE ASSURANCE PROJECT
SURGE SUPPRESSION EQUIPMENT
January 2010
SECTION 16910
.. CONTROL PANELS
PART 1 - GENERAL
1.01 WORK INCLUDED
.
A. . Furnish all labor, equiprnent, and-materials for control panels as indicated on the
drawings and specified herein. The panel supplier shall be a ULlisted panef'shop
and all panels shall be UL-508 certified and labeled.
B. Control panel equipment shall be coordinated to provide all the specified control
as indicate in the elementary diagrams or specified herein.
C. The Contractor shall be responsible for coordinating and interfacing with
equipment and instrumentation supplied under other sections of the Contract
Documents that are an integral part of the plant control systems. This InterfaCing
shall be incorporated in the detailed systems drawings and data sections to be
submitted by the contractor prior to rough-in work.
1.02 SUBMITTALS
A. The contractor shall submit to the Engineer for approval complete shop drawings,
wiring diagrams, data, and operation and maintenance manuals of all equipment
to be furnished under this section.
B. Coordination and Shop Drawings: Prepare arid submit coordination drawings for
installation of products and materials fabricated. Coordination and shop drawings
shall be prepared using a. computer aided drafting system compatible with
Autodesk Autocad version 2004 or greater. Coordination and shop drawings
shall be submitted on hard copy and electronic CD-Rom (dwg) format.
. 1. Submit component interconnect drawings showing the interconnecting
wiring betweeli each. component Including equipment supplied under
other sections requiring interfacing with the control system. Diagrams
shall show all component and panel terminal. board identification
numbers, and external wire and cable numbers. Note, this diagram shall
. include all intermediate terminations between field elements and panels
(e.g., terminal junction boxes, pull boxes, etc.). Diagrams' devise
designations, and symbols shall be in accordance with NEMA ICS 1-101.
2. Panel Wiring Diagrams: Elementary diagrams shall be similar to those
diagrams shown in the drawings, but with the addition of all auxiliary
devices such as additional relays, alarms, fuses, lights, fans, heaters, etc.
3. Panel wiring diagrams shall identify wire numbers and types, terminal
numbers, tag numbers and PLC I/O identification (address) numbers.
Wiring diagrams shall show all circuits individually; no common diagrams
January 2010-
.
16910-1
NCWRF OOOR CONTROL-IQ MODS
CONTROL PANELS
shall be allowed.
4. Submit arrangement and construction drawings for consoles, control
panels, and for other special enclosed assemblies for field installation.
I nclude dimensions, identification of all components, preparation and
finish data, nameplates, enough other details to define the style and
overall appearance of the assembly and a finish treatment. Drawings
shall show the location of all front panel mounted devices to scale, and
shall include a panel legend and a bill of materials. The panel legend
shall list and identify all front of panel devices by their assigned tag
numbers, all nameplate inscriptions, service legends and annunciator
inscriptions. The bill of materials shall list all devices mounted within the
panel that are not listed in the panel legend, and shall include the tag
number, description, manufacturer and complete model number for each
.
service.
5. Submit installation, mounting, and anchoring details for all components.
C. Operation, Maintenance and Repair Manuals
1. Submit operation and maintenance manuals.
1.03 CODES AND STANDARDS:
A. Equipment, materials, and workmanship shall comply with the latest revisions of
the following codes and standards
1. Instrumentation: Instrument Society of America (ISA).
2. National Electrical Code (NEC) 2005,
3. Wiring: ISA S5.3 and S5.4, latest issue.
4. Control Panels and equipment: NEMA, UL and ANSI.
5. Control Logic: Joint Industrial Council (JIC).
6. UL508A and UL508A-SB
PART 2 - PRODUCTS.
2.01 GENERAL
A. Control panels shall be UL508NSB compliant. Control panels shall be marked
with a short circuit current rating (SCCR). The SCCR shall be equal to or more
than the short circuit current available at the panel line terminals.
January 2010
B. . The electrical control equipment shall be mounted within a pad-lockable NEMA
Type 4X dead-front enclosure constructed of not less than 304 stainless steel
and shall be quipped with a 3-point latch with all hardware and exterior
components construction of 300 series stainless steel (except control panels in
air conditioned spaces and electrical room may be NEMA 1 painted steel). The
enclosure shall be equipped with an inner dead front door and shall incorporate a
removable, aluminum or stainless steel back panel on which control compone'nts
shall be mounted. Back panel shall be secured to enclosure with collar studs.
NCWRF ODOR CONTROL-IO MODS
CONTROL PANELS
16910-2
All hardware shall be stainless steel. Provide safety hardware to hold the door in
an open position. Provide. a folding shelf on the door for convenient temporary
support of a laptop computer.
C. . Components: All motor branch circuit breakers; motor starters and control relays
shall be of highest industrial quality, securely fastened to the removable back
panels with screws and lock washers. Back panels shall be tapped to accept all
mounting screws. Self-tapping screws shall not be used to mount any
component. .
D. A circuit breaker shall be provided on each control panel as a means of
disconnecting power to the control panel. The disconnect operating handle shall
be installed on the right side of the cabinet not in the door.
E. Control transformers shall be installed where shown to provide 120VAC and
24VAC for control circuits. Transformers shall be fused on the primary and
secondary circuits. The transformer secondary shall be grounded on one leg.
F. All control panel wiring shall be identified at both ends with type written heat
shrinkable wire markers with the numbering system shown on the control
submittal drawings.
1. Control wiring shall be stranded copper, minimum size #14 AWG (except
for shielded instrumentation cable may be #16 AWG), with 600 volt, 90
degree C, flame retardant, Type MTW thermoplastic insulation.
G. The control panel shall be provided with nameplates identifying each component,
selector switches, pilot lights, etc. Nameplates shall be permanently affixed
using an epoxy process. Nameplates shall be laminated plastic, engraved white
letters with a black background.
H. Corrosion Inhibitor Emitter: Provide an industrial corrosion inhibitor emitter on all
exterior mounted control panels that will protect internal components of the
control panel from corrosion one year. Provide one spare emitter for each
control panel.
I. Terminal strips shall be provided for all signals as indicated on the drawings plus
all spare conductors as specified. Terminal strips shall be switch type with
integral fuses equal to Allen Bradley 1492-H6. Wiring from the control panel to
the terminal strips shall be factory installed. All spare conductors shall be
terminated and identified. All terminals over 200V phase to phase shall be
covered with approved plastic shields.
J. RELAYS
January 2010
1. Control circuit switching shall be accomplished with relays. These relays,
for interfacing and control applications, shall be the compact general
purpose plug-in type having .Iow coil inrush and holding current
characteristics. A neon status-indicating light shall be provided with each
relay. Contact arrangements shall be as noted or shown, and shall be
rated for not less than 10 amperes at 120V ac or 28V dc. Coil voltage
NCWRF ODOR CONTRoL-la MODS
CONTROL PANELS
16910-3
_'___'N..~__,
.".,- ~._'...-
shall be as noted or shown. Non-latching relays shall have a single coil.
Latching relays shall have two coils, unlatching being accomplished by
energizing one coil, and latching being accomplished by energizing the
other coil. Relays shall have plain plastic dust covers, test buttons, and
mounting sockets with screw terminals and holddown springs. Relays
shall be UL recognized. Relays shall be Potter and Brumfield, Struthers-
Dunn, or equal.
2. Time delay functions shall be accomplished with time delay relays. Units
shall be adjustable time delay relays with the number of contacts and
contact arrangements as shown. A neon status-indicating light shall be
provided with each relay. Contacts shall be rated for 10 amperes at 120V
ac. Integral knob with calibrated scale shall be provided for adjustment of
time delay. Initial setting shall be as shown with time delay range
approximately three times the initial setting. Time delay rangeability shall
be at least 10:1. Operating voltage shall be 120V ac, plus 10 percent, -15
percent at 60-Hz. Operating temperature shall be -20 degrees F to 165
degrees F. Repeat timing accuracy shall be plus or minus 10 percent
over the operating range. Units shall be Amerace Corp., Control
Products Division, Agastat Series 7000, Cutler-Hammer Series 087, or
equal.
3. All relays shall have a screw terminal interface with the wiring. Terminals
shall have a permanent, legible identification. Relays shall be mounted
such that the terminal identifications are clearly visible and the terminals
are readily accessible.
K. Front Panel Operating Controls and Instruments
1. All operating controls and instruments shall be securely mounted on the
control compartment door. All controls and instruments shall be clearly
labeled to indicate function.
2. Indicator lamps shall be LED full voltage push to test type and mounted in
NEMA 4X (800H) modules, as manufactured by Allen Bradley or SKPI as
manufactured by Square D. Lamp modules shall be equipped to operate
at 24 or 120 volt input. Lamps shall be easily replaceable from the front
of the control compartment door without removing lamp module from its
mounted position. Units shall be heavy-duty, oiltight, push to test
industrial type with screwed on prismatic glass lenses in colors as shown,
and shall have factory engraved legend plates. LED's shall be high
illumination type (5ma at 130V ac).
January 2010
3. Selector switches shall be heavy-duty, oiltight, industrial type selector
switches with contacts rated for 120V ac service at 10 amperes
continuous. Units shall have standard size, biack field, legend plates with
white markings, as indicated. Operators shall be black knob type. Units
shall have the number of positions and contact arrangements and spring
return function (if any) as shown. Units shall be single-hole mounting,
accommodating panel thickness from 1/16-inch minimum to 1/4-inch
maximum. Units with up to four selection positions shall be Allen Bradley
NCWRF ODOR CONTROL-IQ MODS
CONTROL PANELS
16910-4
.
800H. Square 0 Type K, Culler-Hammer TypeT, or equal. Units with up
to 12 selection positions shall be Rundel-Idec Standard CamSwitch,
Electroswitch 31, or equal.
L. Current-To~Current Isolating Transmitter
1. Unit shall receive 4 to 20 mA dc input signal and shall produce a isolated,
proportional 4 to 20 mA dc output signal into loads in the range of 0 to
1200 ohms minimum without load adjustments for a 24V dc supply. Input
impEldanceshall be less than or equal to 50 ohms. Unit accuracy shall be
plus or minus 0.25 percent of span, minimum. Unit shall be provided with
multi-turn span and zero adjustments.
2. Unit shall be housed in a NEMA 1 rated enclosure and shall be furnished
with an integral bracket for rear-of-panel mounting, unless otherwise
noted. Unit shall have input/output and power isolation. Unit shall.
operate on 120-volt, 50/60-Hz power.
3. Unit shall be Moore Industries SCTlECT, Weidmuller C-90, AGM
Electronics PTA 4000; or equal.
M. Process Meters
1. Provide digital programmable process meters with a loop powered display
designed for a 4-20MA current loop. Provide minimum 0.5" high, 4-1/2
digit LED display to indicate amplitude of current in the current loop. In
general, a loop current of 4ma corresponds to a display indication of 0
percent and a loop current of 20ma corresponds to a display indication of
100 percent. The meter shall be provided with programmable internal
scaling adjustment. Provide units with NEMA-4X faceplate rating
constructed of silicone coated Lexan and gasketed for NEMA 4
requirements; circuit boards coated for moisture resistance. Provide panel
meters for ea'ch analog process variables; Pressure, level and flow as
indicated equal to Precision Digital, or ABB or equal.
PART 3 - EXECUTION
3.01 . MOUNTING OF EQUIPMENT AND ACCESSORIES
A. Install and mount equipment In accordance with the Contract Documents, and'
installation detailed shop drawings. Mount equipment so that they are rigidly
supported, level and plumb, and in such a manner as to provide accessibility;
protection from damage; isolation from heat, shock and vibration; and freedom
from interference with other equipment, piping, and electrical work.
B. Mount local equipment in cabinets or existing panels as specified. Mount
associated terminals on a common panel or rack; all terminals over 200V phase.
to phase shall be covered with plastic shields.
C. Provide services of panel manufacturer to test the completed system after.'
installation to assure that all components are operating with the specified range
and all interlocks are functioning properly. Panel manufacturer shall certify
January 201 0
16910-5
NCWRF ODOR CONTROL-IQ MODS
CONTROL PANELS
- -----_._,_._.__.~ ,
, "
,,~-",.- ',--"-"-'
_'..._'n_____~_,
January 2010
-'
,functional operation and calibration in written startup report. Perform field tests
on all completed control. assemblies. to demonstrate conformance .to
: specifications and functional compatibility.
. END OF SECTION
16910-6
NCWRF ODOR CONTROL-tQ MOOS
CONTROL PANELS
SECTION 17000
CONTROL AND INFORMATION SYSTEM
SCOPE AND GENERAL REQUIREMENTS
PART 1 - GENERAL
1.01 SCOPE
A. The Contractor shall provide, through the services of an instrumentation and control system
subcontra<;tor, all components, system installation services, as well as all required and
specified ancillary services in connection with the Instrumentation, Control and Information
System. The System includes all materials, labor, tools, fees, charges and documentation
required to furnish, install, program test and place in operation a complete and operable
control and monitor system as shown in the contract drawings and in the specifications. The
system shall include all measuring elements, signal converters, transmitters, local control
panels, digital hardware and software, existing panel modifications, signal and data
transmission systems, interconnecting wiring and such accessories as shown, specified,
and/or required to provide the functions indicated.
B. The scope of the work to be performed under this Division includes but is not limited to the
following:
1 . The Contractor shall retain overall responsibility for the instrumentation and control
system as specified herein.
2. Furnish and install process instrumentation and associated taps and supports as
scheduled or shown on the Drawings, unless otherwise noted or supplied by
equipment vendors.
3. Furnish and install local control panels as shown on the Drawings and as specified in
Division 17.
4. Modify existing Local Control Panels by expanding the I/O capacity of the existing
Allen-Bradley Programmable Logic Control.
5. Furnish and install digital control system hardware and software as specified in
Division 17.
6. Final termination and testing of all instrumentation and control system signal wiring
and power supply wiring at equipment furnished under Division 17.
7. Furnish, install and terminate all special cables inCluding data highway network
cables.
8. Furnish and install signals surge protection and 120V power surge arrestor devices
for all digital and analog devices including field instrumentation and local control
panels.
0:17000 Control 'and Information Systems Scope and General Requirements.doc:01-15-1 0
17000-1 NCWRF COMPLIANCE ASSURANCE PROJECT
January 201 0 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
9. Coordinate grounding requirements with the electrical subcontractor for all digital and
analog equipments, local control panels, and instrumentation provided under this
Division. Terminate grounding system cables at all equipment provided under this
Division.
10. Provide system testing, calibration, training and startup services as specified herein
and as required to make all systems fully operational.
11. During construction, the Wastewater Treatment Facility shall remain in operation;
temporary system shut-downs shall be coordinated with the Owner and the General
Contractor two weeks before the shut-down takes place.
12. For the entire duration of the contract, the I&C subcontractor shall attend all the
Construction Meetings to properly coordinate the various construction activities.
13. New furnished I/O Module specified in Section 17120 - Programmable Logic
Controllers shall be installed in existing PLC chassis and they shall be fully wired
with surge protectors and programmed.
14. Furnish a fully programmed Remote Flex I/O Panel (RI0-10.1) as shown in the
Contract Drawings. The R10-10.1 shall monitor the MLE Odor Control System's
OCS No.4 and OCS NO.5 and Chemical Storage Tanks. The R10-10.1 shall
communicate via fiber optic cable furnished and terminated by the Instrumentation
Subcontractor to PLC-10 in Electrical Building NO.2.
15. Furnish one (1) Sodium Hypochlorite and one (1) Caustic Storage Tanks, fill stations
Local Control Panels LCP-2341 0 and LCP-23420. The fill stations shall display high
and low level alarms in the Chemical Storage Tanks in accordance with the Contract
Drawings.
16. PLC-2 in the Generator Electrical Buildinq ecru.!2ped with A & B PLC5 Family
Processor: The existing available spare I/O points shall be used to monitor digital
and analog points as listed in Section 17920 -I/O Schedule. PLC programming and
loop testing shall be performed to each new monitoring point.
17. PLC-3 in the SludQe DewaterinQ BuildinQ~ The existing Allen-Bradley Family 5 PLC
Series will be replaced under a separate contract by Collier County with two Allen-
Bradley ControlLogix PLCs. The ControlLogix PLC-3 will be in operation before this
"CAP" project be under construction. The ControlLogix PLC-3 will be furnished with
spare chassis slots where new modules will be added under this "CAP" project as
needed. The Instrumentation Subcontractor shall furnish, install and program the
following Allen-Bradley modules:
. Two (2) Digital Input Modules Model 1756-AB32
. Four (4) Analog Input Moduies Model 1756-IF61
The Instrumentation Subcontractor shall also furnish and install surge protectors to
all the added 110 points and provide appropriate wiring loops.
18. PLC-4 in the Reuse Pump Station eQ!!iQped with PLC5 Family Processor:
. Furnish, install, and wire one (1) Analog Output Module Model 1771-0FE
0:17000 Control and Information Systems Scope and General Requirements.doc:01-15-1 0
17000-2 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
o Furnish, install, and wire one (1) Analog Input Module Model 1771-IL
o Furnish, install,and wire new surge protectors for new installed I/O Modules
o Furnish, install, and wire one (1) Analog Output Module Model 1771-0FE
o Existing available spare I/O's shall be used to monitor new points listed in
Section 17920 - I/O Schedule, programming of the points and loop testing
. verification shall be performed to each added PLC point.
19. PLC-5 in the Blower Buildin~ed with PLC5 Family Processor:
o Furnish, install and wire the following I/O Modules:
- Three (3) Analog Input Modules Model 1771-IL
- Two (2) Digital Input Modules Model 1771-IBD
- Two (2) Digital Output Modules Model 1771-0FE
o Furnish, install and wire new surge protectors for the new added I/O
Modules.
o' New I/O points are listed in Section 17920 -I/O Schedule. All PLC points
shall be programmed, and loop test verification shall be performed.
20. PLC-10 in the Electrical Buildinq NO.2 eqyjQped with A & B PLC5 Family Processor:
o Furnish, install and terminate the fiber optic Patch Panel and the fiber optic
cable. The instrumentation subcontractor shall be responsible to determine
the total length offiber optic cable needed to connect R10-1 0.1 Remote Flex
I/O Enclosure to PLC-10 in Electrical Building NO.2. The estimated fiber
optic cable lengths shall be less than 1,000 ft.; however, the total fiber optic
cable lengths shall be determined by the Instrumentation Subcontractor.
o Furnish and install fiber optic jumper cables between the Patch Panel and
existing Optical Communications Module.
o Configure the e)(isting Phoenix Digital Optical Communication Module to
communicate with the new furnished Remote Flex 110, RI0-10.1.
o Furnish, install and wire the following module:
One (1) Digital Input Module Model 1771-IBD
o Furnish, install and wire new surge protectors for the new added I/O signals.
21. The instrumentation subcontractor shall be responsible for programming all the I/O
points added to the PLCs and to program the iFix HMI/SCADA system by developing
new computer screens. The new computer screens shall match the existing
computer graphiq art-wQrk by duplicating existing symbols and by using the same
animated colors to represent the status of the new equipment. The SCADA .
0:17000 Control and Information Systems Scope and General Requirements.doc:01-15-10
17000-3 NCWRF COMPLIANCE ASSURANCE PROJECT
January 201 0 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
~_~r
"'- .'-~~."_.,"-
. Historian. shall also be expanded to include a maximum of twenty (20) points.
selected by Collier County.
22. The Instrumentation Subcontractor shall also be required to program Odor Control
Systems (OCS) alarms into the existing operating WIN-911 Alarm Notification
System as follows:
. OCS No. 1
.OCS NO.1
. OCS NO.1
. OCS No. 1
. OCS NO.1
. OCS NO.1
. OCSNo. 1
. OCS No.2
. OCS NO.2
. OCS No.2
. OCS NO.2
. OCS NO.2
. OCS NO.2
. OCS NO.2
. OCS NO.2
. OCS NO.3
. OCS No.3
. OCS NO.3
. OCS NO.3
. OCS No.3
. OCS NO.3
.OCS NO.3
. OCS No.3
. OCS No.3
. OCS NO.3
. OCS NO.3
Power Failure
General Malfunction
Exhaust Fan Failure
Recirculating Pump NO.1 Failure (Low/High Motor Amps)
Recirculating Pump NO.2 Failure (Low/High Motor Amps)
Scrubber Differential Pressure High
Exhaust H2S Level High
Power Failure
General Malfunction
Exhaust Fan Failure
Scrubber Differential Pressure High
Exhaust H2S Level High
Sodium Hypochlorite Storage Tank Leak
Caustic Storage Tank Leak (Rapid Withdrawal)
Chemical Storage Tanks Containment Leak
Power Failure
General Malfunction
Exhaust Fan Failure
Scrubber Differential Pressure High
Stage No. 1 Recirculating Pump Failure (Low/High Motor
Amps)
. Stage NO.1 pH Low and High
Stage NO.1 Sump Low Level
Stage Nos. 2 & 3 Recirculating Pump Failure (Low/High
Motor Amps)
Stage Nos. 2 & 3 pH Low and High
Stage Nos. 2 & 3 ORP Low and High
Stage Nos. 2 & 3 Sump Low Level
0:17000 Control and Information Systems Scope and General Requiremenls.doc:01-15-1 0
17000-4 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS No.4
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS NO.4
. OCS No.4
. OCS NO.5
. OCS No.5
. OCS NO.5
. OCS NO.5
. OCS NO.5
. OCS NO.5
. OCS NO.5
. OCS NO.5
. OCS NO.5
. OCS No.5
. OCS NO.5
. OCS NO.5
. OCS NO.5
Power Failure
General Malfunction
Exhaust Fan Failure
Scrubber Differential Pressure High
Stage No. 1 Recirculating Pump Failure (Low/High Motor
Amps)
Stage No. 1 pH Low and High
Stage NO.1 Sump Low Level
Stage No. 2 Recirculating Pump Failure (Low/High Motor
Amps)
Stage NO.2 pH Low and High
Stage No.2 Sump Low Level
Stage No.3 Recirculating Pump Low Failure (Low/High Motor
Amps)
Stage NO.3 pH Low and High
Stage NO.3 ORP Low and High
Power Failure
General Malfunction
Exhaust Fan Failure
. Scrubber Differential Pressure High
Stage No. 1 Recirculating Pump Failure Low/High Motor
Amps)
Stage NO.1 pH Low and High
Stage No.1 Sump Low Level
Stage No. 2 Recirculating Pump Failure (Low/High Motor
Amps)
Stage NO.2 pH Low and High
Stage NO.2 Sump Low Level
Stage NO.3 Recirculating Pump Failure (Low/High Motor
Amps)
Stage NO.3 pH Low and High
Stage NO.3 ORP Low and High
. OCS Nos. 4 & 5 Sodium Hypochlorite Storage Tank Leak (Rapid Withdrawal)
. OCS Nos. 4 & 5 Caustic Storilge Tank Leak (Rapid Withdrawal)
. OCS Nos. 4 & 5 Containment Leak
0:17000 Control and Information Systems Scope and General Requirements.doc:01-15-10
17000-5 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
,.-- -- .~-~ -, -~,,'-'.".'.-
1.02 RELATED ITEMS
A. Field moun.ted switches, torque switches; limit switches, valve and gate operator position
transmitters, sump pump controls and other instrumentation and controls furnished with
mechanical or electrical equipment not listed in the instrument schedule shall be furnished,
installed, tested and calibrated as specified under other Divisions. Additional and related
work performed under other Divisions includes the following:
1. Instrument AC. power disconnect switch for process instrumentation, AC.
grounding systems, and conditioned AC. power supplies for all digital equipment,
control panels and accessories.
2. Conduit and raceways for all instrumentation and control system signal wiring,
grounding systems, special cables and data highway cables.
3. Instrumentation and control system signal wiring.
4. Grounding and lightning/surge protection system cables and ground rods.
5. Temnination of all instrumentation and control system signal wiring at motor control
centers (MCC's), switchgear and other items furnished under Division 16.
6. Final wiring and termination to AC. grounding systems and AC. power supplies.
1.03 GENERAL INFORMATION AND DESCRIPTION
A Where manufacturers are named for a particular item of equipment, it is intended as a gUide
to acceptable quality and performance and does not exempt such equipment from the
requirements of these Specifications or Drawings.
B. In order to centralize responsibility, it is required that all equipment (including field
instrumentation and control system hardware and software) offered under this Division shall
be furnished and installed by the instrumentation subcontractor, or under the supervision of
the instrumentation subcontractor, who shall assume complete responsibility for proper
operation of the instrumentation and control system equipment, including that of coordinating
all signals, and furnishing all appurtenant equipment.
C. The Contractor shall retain total responsibility for the proper detailed design, fabrication,
inspection, test, delivery, assembly, installation, activation, checkout, adjustment and
operation of the entire instrumentation and control system as well as equipment and controls
furnished under other Divisions of the Specifications. The Contractor shall be responsible
for the delivery of all detailed drawings, manuals and other documentation required for the
complete coordination, installation, activation and operation of mechanical equipment,
equipment control panels, local control panels, field instrumentation, control systems and.
related equipment and/or systems.
D. The instrumentation and control system shall be capable of simultaneously implementing all
real-time control and information system functidns, and servicing all operator service
requests as specified, without degrading the data handling and processing capability of any
system component. It shall also be possible to simultaneously generate displays on all
workstations and print out data on all printers without degradation of system performance.
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17000-6 NCWRF COMPLIANCE ASSURANCE PROJECT
January 201 0 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
E. Control system inputs and outputs are listed in the Input/Output Schedule. This information,
together with the control strategy descriptions, operator interface 110 list, process and
instrumentation diagrams,. and electrical control schematics, describes the real-time
monitoring and control functions to be performed. In addition, the system shall provide
various man/machine interface and data reporting functions as specified in the software
sections of this Specification.
F. The mechanical, process, and electrical drawings indicate the approximate locations offield
instruments, control panels, systems and equipment as well as field-mounted equipment
provided by others. The instrumentation subcontractor shall examine the mechanical, .
process and electrical drawings to determine actual size and locations of process
connections and wiring requirements for instrumentation and controls furnished under this
Contract. The instrumentation subcontractor shall inspect all equipment, panels,
instrumentation, controls and appurtenances either existing or furnished under other
Divisions of the Specifications to determine all requirements to interface same with the
control and information system. The Contractor shall coordinate the completion of any
required modifications with the associated supplier of the item furnished.
G. The instrumentation subcontractor shall review and approve the size and routing of all
instrumentation and control cable and conduit systems furnished by the electrical
subcontractor for suitability for use with the associated cable system.
H. The Contractor shall coordinate the efforts of each supplier to aid in interfacing all systems.
This effort shall include, but shall not be limited to, the distribution of approved shop
drawings to the electrical subcontractor and to the instrumentation subcontractor furnishing
the equipment under this Division.
I. The Contractor shall be responsible for providing a signal transmission system free from
electrical interference which would be detrimental to the proper functioning of the
instrumentation and control system equipment.
J. The terms "Instrumentation", "Instrumentation and Control System", and "Instrumentation,
Control and Information System" shall hereinafter be defined as all equipment, labor,
services and documents necessary to meet the intent of the Specifications.
1.04 INSTRUMENTATION AND CONTROL SYSTEM SUBCONTRACTORS
A. Acceptable instrumentation and control system subcontractors shall be: Revere Controls,
Rocha Controls, McKim & Creed, Curry Controls, OCR and EMA.
B. Instrumentation subcontractor shall contact Collier County Purchasing Department to verify
their company name is In the current approved instrumentation and control subcontractor
list.
1.05 DEFINITIONS
A. . Solid State: Wherever the term solid state is used to describe circuitry or components in the
Specifications, it is intended that the circuitry or components shall be of the type which
convey electrons by means of solid materials such as crystals or which work on magnetic
principles such as ferrite cores. Vacuum tubes, gas tubes, slide wires, mechanical relays,
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January 201 0 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
-.-
---~- ,.
stepping motors or other devices will not be considered as satisfying the requirements for
solid state components of circuitry.
B. Bit or Data Bit: Whenever the terms bit or data bit are used in the Specification, it is intended
that one bit shall be equivalent to one binary digit of information. In specifying data
transmission rate,ttie bit rate or data bit rate shall be the number of binary digits transmitted
per second and shall not necessarily be equal to either the maximum pulse rate or average
pulse rate.
c. CPU Memorv Cvcle Time: CPU memory cycle time shall define the minimum time interval
between the starts of successive read-write cycles.
D. Integrated Circuit: Integrated circuit shall mean the physical realization of a number of circuit
elements inseparably associated on orwithln a continuous body to perform the function ofa
circuit.
E. Mean Time Between Failures (MTBF): The MTBF shall be calculated by taking the number
of system operating hours logged during an arbitrary periOd of not less than six months and
dividing by the number of failures experienced during this period plus one.
F. Mean Time to Repair (MTTR): The MTTR shall be calculated by taking the total system
down time for repair over an arbitrary period of not less than six months coinciding with that
used for calculation of MTBF and dividing by the number of failures causing down time
during the period.
G. Availabilitv: The availability of a nonredundant device or system shall be related to its MTBF
and MTTR by the following formula:
A = 100 x (MTBF/(MTBF + MTTR)) Percent
The availability of a device or system provided with an automatically switched backup device
or system shall be determined by the following formula:
A
-
A2 + 1 - ((1-A1) x (1-A1))
where
A1
A2
-
availability of nonredundant device or system
availability of device or system provided with an automatically switched
backup device or system
H. Abbreviations: Specification abbreviations include the following:
A
ADC
AI
AO
AVAIL
BCD
Availability
Analog to Digital Converter
Analog Input
Analog Output
Available
Binary Coded Decimal
0:17000 Control and Information Systems Scope and General Requirements.doc:01-15-1 0
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January 201 0 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
CSMNCD
CF'U
CRG
CRT
CS
DAC
DBMS
01
DMA
DO
DPDr
DVE
EPROM
FDM
FSK
110
LAN
LDFW
MCC
MTBF
MTTR
OSS
PCB
PCC
PID
PLC.
PROM
RAM
RC
ROY
RMSS
RNG
ROM
RTU
SC
SPOT
ST/SP
TOM
UPS
-
-
-
Carrier Sense Multiple Access/Collision Detect
Central Processing Unit
Cyclic Redundancy Check
Cathode Ray Tube
Control Strategy
Digital to Analog Converter
Data Base Management System
Discrete Input
. Direct Memory Access
Discrete Output
Double Pole, Double Throw
Digital to Video Electronics
Erasable, Programmable Read Only Memory
Frequency Division Multiplexing
Frequency Shift Keyed
Input/Output
Local Area Network
Lead-Follow
Motor Control Center
Mean Time Between Failures
Mean Time To Repair
Operating System Software
Printed Circuit Board
Plant Control Center
Proportional Integral and Derivative Control
Programmable Logic Controller
Programmable Read Only Memory
Random Access Memory
Regulatory Control
Ready
Root Mean Square Summation
. Running
Read Only Memory
Remote Telemetry Unit
Sequential Control
Single Pole, Double Throw
Start/Stop
Time Division Multiplexing
Uninterruptable Power Supply
-
-
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17000-9 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
~,
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I. To minimize the number of characters in words used in textual descriptions on CRT
displays, printouts and nameplates, abbreviations may be used subject to the Engineer's
approval. If a specified abbreviation does not exist for a particular word, an abbreviation may
be generated using the principles of masking and or vowel deletion. Masking involves
retaining the first and last letters in a word and deleting one or more characters (usually
vowels) from the interior of the word.
1.06 ENVIRONMENTAL CONDITIONS
A. Instrumentation equipment and enclosures shall be suitable for ambient conditions specified.
All system elements shall operate properly in the presence of telephone lines, power lines,
and electrical equipment.
B. Inside control rooms and climate-controlled electrical rooms, the temperature will normally
be 20 to 25 degrees Celsius; relative humidity 40 to 80 percent without condensation and
the air will be essentially free of corrosive contaminants and moisture. Appropriate air
filtering shall be provided to meet environmental conditions (i.e., for dust).
C. Other indoor areas may not be air conditioned/heated; temperatures may range between 0
and 40 degrees Celsius with relative humidity between 40 and 95 percent.
D. Field equipment including instrumentation, and panels may be subjected to wind, rain,
lightning, and corrosives in the environment, with ambient temperatures from -20 to 40
degrees Celsius and relative humidity from 10 to 100 percent. All supports, brackets and
interconnecting hardware shall be aluminum or 316 Stainless Steel as shown on the
installation detail drawings.
PART 2 . PRODUCTS
201 INSTRUMENTATION AND CONTROL SYSTEM POWER SUPPLIES, DISTRIBUTION
EQUIPMENT AND CIRCUIT PROTECTION
A. Alternating current power supplies to panel mounted equipment and digital system
equipment shall be by cord and plug. A power disconnect switch shall be furnished at each
field instrument by the Electrical subcontractor where AC power is required.
B. Lightning/Surge transient protectors shall be provided to protect all indoor and outdoor
portions of the instrumentation and control system from induced surges propagating along
all analog and discrete signal and control circuitry, radio, telephone and data transmission
cables and power supply lines at all instrument termination points, digital equipment
termination points and control panel termination points. The protection systems shall be
such that the protective level shall not interfere with normal operation, but shall reduce
surges to levels lower than the instrument surge withstand level, and shall be maintenance-
free and self-restoring.
C. All instruments shall be properly grounded and housed in a suitable case. Ground wires for
all surge protectors shall be connected to a good earth ground and where practical each
ground wire run individually and insulated from each other. Protectors shall be mounted
within the instrument enclosure, field panel or a separate NEMA 4 junction box coupled to
the enclosure, as appropriate.
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January 2010 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
D. Protection of all alternating current (AC) and direct current (DC) instrumentation and control.
system power supply lines shall be provided: Cabinets, panels, consoles and associated
power supplies including two-wire and four-wire instrument and control loops shall be
protected by individual surge arrestor. .Instrulnents shall be protected by individual power
surge arrestor. installed on the power supply to each instrument and adjacent to the
instrument. To prevent damage from electrical lightning, induction, switching surges and
EMP.
E. RFI protection shall be provided to protect all the field instruments, against radio frequency
interference.
2.02 OPTIONAL EQUIPMENT
A. Optional or substituted equipment or both requiring changes in details or dimensions
required to maintain all structural, mechanical, electrical, control, operating, maintenance or
design features Incorporated in these Specifications and Drawings shall be made at not
additional cost to the Owner. In the event that the changes are necessary calculations and
drawings showing the proposed revisions shall be submitted to the Engineer for approval.
The Contractor shall coordinate all changes with other affected trades and contracts and pay
all additional charges incurred.
2.03 NAMEPLATES
A. All items of equipment listed in the instrument schedule, control panels, and all items of
digital hardware shall be identified with nameplates. Each nameplate shall be located so
that it is readable from the normal observation position and is clearly associated with the
device it identifies. Nameplates shall be positioned so that removal of the device for
maintenance and repair shall not disturb the nameplate. Nameplates shall include the
equipment identification number and description. Abbreviations of the description shall be
subject to the Engineer's approval.
B. Nameplates shall be made of 1/16-inch thick machine engraved laminated phenolic plastic
having white numbers and letters not less than 3/16-inch high on a black background.
C. Nameplates shall be attached to metal equipment by stainless steel screws and to other
surfaces by an epoxy-based adhesive that is resistant to oil and moisture. In cases where
the label cannot be attached by the above methods, it shall be drilled and attached to the
associated device by means of-stainless steel wire.
2.04 WIRE AND WIRE LABEL
A. All the instrumentation and control wire inside the Local Control Panels shall be properly
terminated with a minimum percent of extra length of wire (maximum 1 ft.).
B. Discrete Control Wire shall be bundled separately from the Analog Instrument signals.
C. All the wire shall be labeled at both ends with the same 10 number as shown in Section
17920 entitled "Schedule".
.
D. Multi-cables shall also include label on the main jacket indicating where it came from and the
individual wire with 10 number.
0;17000 Control and Information Systems Scope and General Requirements.doc:01-15-10
17000-11 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 CONTROL & INFO SYS SCOPE & GENERAL REOUIRMENTS
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PART 3-EXECUTION
3.01 SCHEDULE OF PAYMENT
A. Progress payments shall be in accordance with the Payment Schedule in the Supplementary
Conditions. The Contractor will be allowed to request payment for field wiring, fiber optic
network cable and similar items on a monthly percent complete basis.
B. The following payment schedule defines project milestones that will be used forestablishing
partial payment amounts.
Task Completed
Maximum Cumulative %
Request for Payment
8%
Shop Drawing and Submittals:
Review and Approval
Installation
Field Testing
Plant Start-up
Final Acceptance
60%
70%
85%
100%
3.02 CLEANING
A. The Contractor shall thoroughly clean all soiled surfaces of installed equipment and
materials.
B. Upon completion of the instrumentation and control work, the Contractor shall remove all
surplus materials, rubbish, and debris that has accumulated during the construction work.
The entire area shall be left neat, clean, and acceptable to the Owner.
3.03 FINAL ACCEPTANCE
A. Final acceptance of the Instrumentation, Control and Information System will be determined
complete by the Engineer, and shall be based upon the following:
~
1. Receipt of acceptable start up completion and availability reports and other
documentation as required by the Contract Documents.
2. Completion of the Availability Demonstration
3. Completion of all punch-list items that are significant in the opinion of the Engineer.
B. Final acceptance of the System shall mark the beginning of the warranty period..
END OF SECTION
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17000-12 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 CONTROL & INFO SYS SCOPE & GENERAL REQUIRMENTS
SECTION 17015
PRELIMINARY DESIGN REVIEW
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall conduct a preliminary design review meeting for Owner personnel and
the Engineer to ensure design compliance with all hardware and software requirements in
the Contract Documents. Other supplemental design review meetings may be held as
required by th~ Engineer or the Owner to resolve specific problems, to provide positive
assurance to the Owner that the design conforms to contractual requirements, or to allow for
concurrent planning activities by the Owner that are dependent upon the as-built system
configuration/operation.
B. The Preliminary Design Review shall, at the discretion of the Owner, be conducted at the
Owner's facility, the Contractor's facility, or at a location suggested by the Owner.
C. The Preliminary Design Review shall be conducted no later than 60 days after notice to
proceed.
1.02 PRELIMINARY DESIGN REVIEW
A. The Preliminary Design Review (PDR) shall be a formal meeting to review the overall system
design with emphasis being placed upon the arrangement and interactive operation of all
items of digital equipment.
B. While the Preliminary Design Review is a meeting rather than a submittal, to the greatest
extent possible all data to be presented at the PDR shall be furnished to the Owner two (2)
weeks prior to the meeting date. Data made available by the Contractor shall include, but
not be limited to the following:
1. Overall system block diagram(s), and preliminary digital hardware placement,
preliminary console and equipment panel arrangements and layouts.
2. A brief functional description of the block diagram(s) shall be provided. The
functional description shall describe the overall system operation, interaction
between system elements, fail-over procedures and system/operator interactions.
3. A listing of the manufacturer's name and model number for each item of hardware
shown in the block diagram(s), all analog instruments and auxiliary equipment such
as power supplies.
4. The fOllowing software information:
a. Brief overall description of software design and organization.
b. List and description of all system software.
c. List and description of all process control system software.
,
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PRELIMINARY DESIGN REVIEW
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5. Brief description of the intended plan for implementing system development,
assembly, checkout, hardware/software performance verification, installation,
activation and factory test activities.
6. Identification of critical engineering and installation activities and long lead-time
procurement items.
7. Preliminary construction schedule, including submittal dates.
8. A copy of the proposed System Maintenance Contract.
9. Resumes listing qualifications of process control system engineering and technical
personnel (including field installation personnel) expected to be assigned to the
project, together with an estimate of the percentage of time such personnel are
expected to devote to the project.
PART 2 - PRODUCTS
(NOT USED)
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
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PRELIMINARY DESIGN REVIEW
SECTION 17030
CONTROL AND INFORMATION SYSTEM SUBMITTALS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall submit for review, complete Shop Drawings for all equipment in
accordance with the General Conditions and Division 1 of the Specifications. All submittal
material shall be complete, legible, and reproducible, and shall apply specifically to this
project.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 01330 - Submittals
B. Section 17000 - Control and Information System Scope and General Requirements
1.03 DIGITAL HARDWARE SUBMITTALS
A. Submit system block diagram(s) showing:
1. All equipment to be provided.
2. All interconnecting cable.
3. Equipment names, manufacturer, and model numbers.
4. Equipment locations.
B. Submit information for all digital equipment including, but not limited to, the following:
1. Bill of materials with equipment names, manufacturers, complete model numbers
and locations.
2. Catalog cuts.
3. Complete technical, material and environmental specifications.
4. Assembly drawings.
5. Mounting requirements.
6. Color samples.
7. Nameplates.
8. Environmental requirements during storage and operation.
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CONTROL & INFO SYTEM SUBMITTALS
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1.04 SOFTWARE SUBMITTALS
A. Software submittals shall include the following as a minimum:
1. Bill of materials with software names, vendors, and complete listings of included
software modules.
2. Standard manufacturer's literature describing the products.
3. Description of function of software in Control and Information System.
4. Limitations or constraints of software.
5. Minimum system (processor and memory) requirements.
6. Operation and maintenance requirements.
B. Submit information on the following software:
1. Third-party software, including:
a. Operating system.
b. Operator workstation (SCADA or HMI) software, including all add-in software
provided to perform specific functions (alarm dialers, schedulers, backup
creation software, etc.).
c. Control software (block oriented and/or ladder logic).
d. Office-type products, such as spreadsheets, word processors, etc.
e. Database management software.
f. Communications software, Including ail applicable local and wide area
network software.
g. Programmable logic controller programming software (where applicable).
2. Software configuration, including:
a. Graphic display organization.
b. Database configuration for operator workstations and database management
system.
c. Trends.
d. System security.
e. Formats for all reports, including all required calculations.
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f. Intercommunications between software products required to implement
system functions.
g. Equipment backup configuration and requirements.
C. Control Strategies
1. Provide control strategy documentation that includes control strategy diagrams
(either block oriented logic or ladder logic diagrams, as appropriate) to describe the
control of all processes. The written description shall follow the format of the
functional control descriptions contained herein. The control strategy submittals
shall contain the following as a minimum:
a. An overall description of the program structure and how it will meet the
specified control requirements.
b. A listing of the program.
c. Extensive comments in the listings to describe program steps.
d. Equation and ladder program derivations for all specified control routines.
e. Resource (processor and memory) requirements.
f. A listing of inputs and outputs to the control strategy.
D. Application Software
1. Provide application software documentation that contains program descriptions for
the operation, modification, and maintenance of all application programs provided for
the digital system.
2. Application software includes all custom routines developed specifically for this
project, or pre-written routines used for accomplishing specified functions for this
project. This shall include VBASIC and C programs, and any other add-in custom
software.
E. Graphic Displays
1.. Submit all graphic displays required to perform the control and operator interface
functions specified herein.
2. Submit graphic displays for review by the Owner and the Engineer at least 60 days
prior to commencement of factory testing.
3. The Contractor shall allow for one major cycle of revisions to the displays prior to
factory testing and one minor cycle of revisions following factory test. A cycle of
revisions shall be defined as all revisions necessary to complete a single set of
changes marked by the Engineer. Additional corrections shall be performed during
start-up as required to accommodate changes required by actual field conditions, at
no additional cost to the Owner.
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4. Two o.fthe required submittals in each revision cycle shall be full color prints of the
entire set of displays. Additional sets may be in black-and-white or gray-scale.
5. Displays shall be printouts of actual process graphics implemented in the system.
1.05 CONTROL PANEL SUBMITTALS
A. Submittals shall be provided for all control panels, and shall include:
1. Exterior panel drawings with front and side views, to scale.
2. Interior layout drawings showing the locations and sizes of all equipment and wiring
mounted within the cabinet, to scale.
3. Panel area reserved for cable access and conduit entry.
4. Location plans showing each panel in its assigned location.
B. Submit information for all exterior and interior panel mounted equipment including, but not
limited to, the following:
1. Bill of materials with equipment names, manufacturers, complete model numbers
and locations.
2. Catalog cuts.
3. Complete technical, material and environmental specifications.
4. Assembly drawings.
5. Mounting requirements.
6. Color samples.
7. Nameplates.
8. Environmental requirements during storage and operation.
C. Submit panel wiring diagrams showing power, signal, and control wiring; including surge
protection, relays, courtesy receptacles, lighting, wire size and color coding, etc.
1.06 INSTRUMENT SUBMITTALS
A. Submit information on all field instruments, including but not limited to the following:
1. Product (item) name and tag number used herein and on the Contract Drawings.
2. Catalog cuts.
3. Manufacturer's complete model number.
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4. . Location of the device.
5. Input - output characteristics.
.
6. Range, size, and graduations.
7. Physical size with dimensions, NEMA enclosure classification and mounting details.
8. Materials of construction of all enclosures, welted parts and major components.
9. Instrument or control device sizing calculations where applicable.
10. Certified calibration data on all flow metering devices.
. 11 ~ Environmental requirements during storage and operation.
12. Associated surge protection devices.
1.07 . WIRING AND LOOP DIAGRAMS
A. Submit interconnection wiring and loop diagrams for all panels and signals in the Control
. . and Information System.
B. Electrical interconnection diagrams shall show all terminations of equipment, including
terminations to equipment and controls furnished under other Divisions, complete with
equipment and cable designations. Where applicable, interconnection wiring diagrams shall
be organized by inpuVoutput card: Interconnecting diagrams shall be prepared in a neat and
legible manner on 11 X 17-inch reproducible prints.
C. Loop drawings shall conform to the latest version of ISA Standards and Recommended
Practices for Instrumentation and Control. Loop Drawings shall conform to ISA S5.4,
Figures 1-3, Minimum Required Items
1.08 PROCESS AND INSTRUMENTATION DIAGRAMS
A. Submit Process and Instrumentation Diagrams showing all instrumentation and control
equipment, and all monitoring and control functions, for the entire Control and Information
System as specified herein.
B. Process arid' Instrumentation Diagrams shall conform tolSA S5.1 and S5.3, and all
applicable ISA standards for symbology, nomenclature, and layout.
1.09 OPERATION AND MAINTENANCE MANUALS
A. The Contractor shall deliver equipment operation and maintenance manuals in compliance
With Section 01830. In addition to the requirements of Section 01830, The Operation and
Maintenance (O&M) manuals shall comply with the following and consist of two basic parts:
1. Manufacturer standard O&M manuals for all equipment and software furnished
under this Division.
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL & INFO SYTEM SUBMITTALS
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2. Custom O&M information describing the specific configuration of equipment and
software, and the operation and maintenance requirements for this particular project.
B. The manuals shall contain all illustrations, detailed drawings, wiring diagrams, and
instructions necessary for installing, operating, and maintaining the equipment. The
illustrated parts shall be numbered for identification. All modifications to manufacturer.
standard equipment and/or components shall be clearly identified and shown on the
drawings and schematics. All information contained therein shall apply specifically to the
equipment fumished and shall only include instructions that are applicable. All such
illustrations shall be incorporated within the printing of the page to form a durable and
permanent reference book.
C. The manuals shall be prepared specificallyfor this installation and shall include all required
cuts, drawings, equipment lists, descriptions, etc. that are required to instruct operation and
maintenance personnel unfamiliar with such equipment. The maintenance instructions shall
include trouble shooting data and full preventive maintenance schedules. The instructions
shall be bound in locking 3-D-ring binders with bindings no larger than 3.5 inches. The
manuals shall include 15% spare space for the addition offuture material. The instructions
shall include drawings reduced or folded and shall provide the following as a minimum.
1. A comprehensive index.
2. A functional description of the entire system, with references to drawings and
instructions.
3. A complete "as-built" set of ill! approved shop drawings, which shall reflect all work
required to achieve final system acceptance.
4. A complete list of the equipment supplied, including serial numbers, ranges, and
pertinent data.
5. Full specifications on each item.
6: Detailed service, maintenance, and operation instructions for each item supplied.
7. Special maintenance requirements particular to this system shall be clearly defined,
along with special calibration and test procedures.
8. Complete parts lists with stock numbers and name, address, and telephone number
of the local supplier.
9. References to manufacturers' standard literature where applicable.
10. Warning notes shall be located throughout the manual where such notes are
required to prevent accidents or inadvertent misuse of equipment.
D. The operating instructions shall clearly describe the step-by-step procedures that must be
followed to implement all phases of all operating modes. The instructions shall be in terms
understandable and usable.by operating personnel and maintenance crews and shall be
useful in the training of such personnel.
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E. The maintenance instructions shall describe the detailed preventive and corrective
procedures required, including environmental requirements during equipment storage and
system operation, to keep the System in good operating condition. All hardware
maintenance. documentation shall make reference to appropriate diagnostics, where
applicable, and all necessary wiring diagrams, component drawings and PCB schematic
drawings shall be included.
F. The hardware maintenance documentation shall include, as a minimum, the following
information:
1. Operation Information - This information shall include a detailed description of how
the equipment operates and a block diagram illustrating each major assembly In the
equipment.
2. Preventive-Maintenance Instructions - These instructions shall include all applicable
visual examinations, hardware testing and diagnostic routines, and the adjustments
necessary for periodic preventive maintenance of the System.
3. Corrective-Maintenance Instructions - These instructions shall include guides for
locating malfunctions down to the card-replacement level. These guides shall
include adequate details for quickly and efficiently locating the cause of an
equipment malfunction and shall state the probable source(s) of trouble, the
symptoms, probable cause, and instructions for remedying the malfunction.
4. Parts Information - This information shall include the identification of each
replaceable or field-repairable component. All parts shall be identified on a list in a
drawing; the identification shall be of a level of detail sufficient for procuring any
repairable or replaceable part. Cross-references between equipment numbers and
manufacturer's part numbers shall be provided.
G. Software documentation shall conform to a standard format and shall include, but not be
limited to, the following:
1. . A program abstract that includes:
a. Program Name - The symbolic alphanumeric program name.
b. Program Title - English text identification.
c. Program Synopsis - A brief text shall be provided that specifies the need for
the program, states when it shall be used and functionally describes all
inputs, outputs and functions performed. This descriptive text shall be
written in a language that is understandable by nonsoftware oriented
readers.
2. A program description that shall include, but not be limited to, the fOllowing:
a. Applicable Documents - List all documents (standard manufacturer's
literature, other program descriptions, etc.) by section, if practical, that apply
to the program. One complete copy of all applicable reference material shall
be provided.
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CONTROL & INFO SYTEM SUBMITTALS
b. Input-Output - Identify each input and output parameter, variable, and
software element used by the program. State the purpose of all inputs,
outputs, and variables.
c. Processing - This section shall contain a description of the overall structure
and function of the program. Describe the program run stream and present a
detailed description of how the program operates. Describe the timing and
sequencing of operations of the program relative to other programs.
Describe all interactions with other programs. Processing logic that is not
readily described without considerable background information shall be
handled as a special topic with references to an appendix or to control
strategy document that details the necessary information. Reference shall
also be made to an appendix or control strategy document for equation and
program algorithm derivations.
d. System Configuration - Describe in detail the system configuration or status
required for program implementation, if appropriate.
e. Limitation and Constraints - Summarize all known or anticipated limitations of
the program, if appropriate.
f. Storage - Define program storage requirements in terms of disk or RAM
memory allocation.
g. Verification - Describe, as a minimUm, a test that can be used by the
operator to assure proper program operation. Define the required system
configuration, input requirements and criteria for successful test completion.
h. Diagnostics - Describe all program diagnostics, where applicable.
Descriptions shall list each error statement, indicate clearly what it means,
and specify what appropriate actions should be taken.
I. Malfunction Procedures - Specify procedures to follow for recovering from a
malfunction due to either operator error or other sources.
1.10 FINAL SYSTEM DOCUMENTATION
A. All documentation shaii be delivered to the Owner prior to final system acceptance in
accordance with the Contract Documents. As a minimum, final documentation shall contain
all information originally part of the control system submittals.
B. If any documentation or other technical information submitted is considered proprietary, such
information shall be designated. Documentation or technical information which is
designated as being proprietary will be used only for the construction, operation, or
maintenance of the System and, to the extent permitted by iaw, will not be published or
otherwise disclosed.
C. Provide a complete set of detailed electrical interconnection diagrams required to define the
complete instrumentation and control system. All diagrams shall be 11 X 17 -inch original
reproducible prints. All diagrams shall be corrected so as to describe final. "as-built"
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CONTROL & INFO SYTEM SUBMITTALS
hardware configurations and to reflect the system. configuration and control methodology
adopted to achieve final system acceptance.
D. Provide system software documentation for the operation and maintenance of all system
. software programs provided. as a part of the digital system. All system. software
. documentation shall be amended as required to delineate all modifications and to accurately
reflect the final as-built software configurations. .
E. Provide application software documentation that contains program descriptions. for the
operation, modification, and maintenance of all application programs provided for the digital
system.
F. Provide control strategy documentation which shall include control strategy (block oriented
or ladder logic) diagrams to describe the control of all processes. Control strategy
documentation shall reflect the system configuration and control methodology adopted to
achieve final system acceptance. Control strategy documentation shall conform to the
submittal requirements listed hereinabove.
G. O&M documentation shall be amended with all final, adjusted values for all setpoints and
other operating parameters for Owner reference.
H. The Owner recognizes the fact that not all possible problems related to real-time events,
software interlocks, flags, active tasks, and hardware maintenance and utilization can be
discovered during the Acceptance Tests. . Therefore, the instrumentation subcontractor
through the Contractor shall investigate, diagnose, repair, update, and distribute all
pertaining documentation of the deficiencies that become evident during the warranty period.
All such documentation shall be submitted in writing to the Owner within 30 days of
identifying and solving the problem.
1.11 PROGRAMS AND SOURCE LISTINGS
A. Provide two copies of all standard, of - the-shelf system and application software (exclusive of
firmware resident software) on tape or disk. One copy shall be the original tapes or disks
from the manufacturer, with one additional copy for backup purposes.
8. Provide two copies of source listings on tape or disk for all custom software written
specifically for this facility, all database files configured for this facility, and all control
strategies. All source listings shall include a program abstract, program' linkage and
input/output data. Comments describing the program flow shall be frequently interspersed
throughout each listing.
1.12 SUBMITTAL/DOCUMENTATION FORMAT
A. All drawing-type submittals and documentation shall be rendered and submitted in the latest
version of AutoCAD.
B. All textual-type submittals and documentation shall be rendered and submitted in the latest
version of Microsoft Word.
0:4101 0-023S17030.doc07 -09-09
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17030-9
NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL & INFO SYrEM SUBMITTALS
-_._,
.-'--',_,,~, '".'--',' ....""-, -.-..
~ ._-~,....-
1.13 ELECTRONICO&M MANUALS
A. Subject to acceptance by the Owner and Engineer, the O&M information may be submitted
in part or in whole in an. electronic format on optical media. The Contractor shall consider
printed copies of the Manual as part of the Work.
B. Electronic O&M manuals shall contain information in standard formats (Adobe, Word,
AutoCAD, HTML, etc.) and shall be easily accessible through the use of standard, "off-the-
shelf' software such as an Internet browser.
PART 2 - PRODUCTS
(NOT USED)
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
0:4101 0-023S17030.doc07 -09-09
January 201 0
17030-10
NCWRF COMPLIANCE ASSURANCE PROJECT -
CONTROL & INFO SYTEM SUBMITTALS
SECTION 17040
CONTROL AND INFORMATION SYSTEM TRAINING REQUIREMENTS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. To familiarize the Owner's personnel with the process control system and field
instrumentation, training shall be provided as detailed hereunder.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
1.03 SUBMITTALS
A. A minimum of 60 days prior to beginning training, submit a detailed training plan describing
the following:
1. A listing of all courses to be conducted.
2. Course content.
3. Applicability of each course to management, operations, maintenance, laboratory,
etc., personnel.
4. Course schedules.
5. Qualifications and experience of individual(s) providing training.
B. A minimum of 14 days prior to beginning each training course, submit documentation for use
by the Owner's personnel during training. The training documentation shall be specific to the
particular course, and shall include the following:
1. A listing of all subjects to be covered.
2. Course schedule.
3. Documentation/lesson plans covering all subjects to be covered during the course
instruction. Information shall be in a "how to" format, with sufficient background
documentation and references to manufacturer literature to provide a thorough and
clear understanding of the materials to be covered.
1.04 GENERAL REQUIREMENTS
A. All costs of providing the training courses shall be borne by the Contractor.
B. As used herein, the term "day" shall mean an eight-hour day, and the term "week" shall
mean a five-day, 40-hour week.
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17040-1 NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL & INFO SYSTEM TRAINING REQUIREMENTS
C. All training courses shall be conducted under the direction of a training director who shall
design a detailed training plan that complements the experience and skill levels of the
Owner's personnel.
D. Training courses shall be structured in order of increasing capability or security levels. The
purpose of this requirement is to allow personnel with lesser training requirements or
security password levels to drop out of the training at certain times while the training
continues for personnel with greater requirements or higher security levels.
E. All training. courses shall include lecture as well as "hands on" experience for each of the
attending personnel. The Contractor shall provide sufficient equipment for this to be
accomplished. For example, training in which the instructor uses the computer and the
Owner's personnel passively observe as the instructor demonstrates system functions shall
not be acceptable.
F. Unless otherwise specified, all training courses shall be conducted in the Owner's facilities.
G. All training shall be completed prior to system acceptance.
H. Standard manufacturer training courses are acceptable pending approval by the Engineer
and Owner.
1.06 MAINTENANCE TRAINING
A. A one day course shall be conducted for at least six persons prior to the start-up of digital
equipment at the Owner's plant. Instruction shall be provided in the following:
1. Operating all digital equipment, including system start-up and shutdown procedures.
2. The use of hardware diagnostic routines, test equipment and test procedures as
required to enable the Owner's personnel to detect and isolate system faults to the
circuit board or module level and to implement repairs by replacing failed circuit
boards or modules.
3. Calibration and routine maintenance procedures for all analog and digital equipment.
B. Step by step written procedures shall be provided for all preventive maintenance tasks and
for identifying hardware faults to the circuit board or module level for all items of digital
equipment.
C. All digital equipment preventive and corrective maintenance training activities shall be limited
to the use. of commercially available off-the-shelf test equipment and to the use of diagnostic
routines and hardware items which are the same as those to be provided as part of the
system. .
PART 2 - PRODUCTS
(NOT USED)
0:4101 0-023S17040.doc07 -09-09
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CONTROL & INFO SYSTEM TRAINING REQUIREMENTS
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
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17040-3 NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL & INFO SYSTEM TRAINING REQUIREMENTS
--
, .
SECTION 17060
SIGNAL COORDINATION REQUIREMENTS
PART 1 . GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall conform to the signal coordination requirements specified herein.
B. The Contractor shall be responsible for coordinating signal types and transmission
requirements between the various parties providing equipment under this Contract. This
shall include, but not be limited to, distribution of appropriate shop drawings among the
equipment suppliers, the electrical subcontractor, the HVAC subcontractor, and the
instrumentation subcontractor.
C. Analog signals shall be signals for transmitting process variables, etc. from instruments and
to and from panels, equipment PLC's and Control System PLC's.
D. Discrete signals shall consist of contact closures or powered signals for transmitting
status/alarm information and control commands between starters, panels, equipment PLC's,
the Control System, etc.
E. The Contractor shall review, verify, tag and log all existing local control panel inputs and
outputs for incorporation into the panel modification work to be completed under the
Contract.
1.02 ANALOG SIGNAL TRANSMISSION
A Signal transmission between electric or electronic instruments, controllers, and all equipment
and control devices shall be individually isolated, linear4-20 milliamperes and shall operate
at 24 volts D.C.
B. Signal output from all transmitters and controllers shall be current regulated and shall not be
affected by changes in load resistance within the unit's rating.
C. All cable shields shall be grounded at one end only, at the control panel, with terminals
bonded to the panel ground bus.
D. Analog signal isolation and/or conversion shall be provided where necessary to interface
with instrumentation, equipment controls, panels and appurtenances.
E. Non-standard transmission systems such as pulse duration, pulse rate, and voltage
regulated shall not be permitted except where specifically noted in the Contract Documents.
Where transmitters with nonstandard outputs do occur, their outputs shall be converted to
an isolated, linear, 4-20 milliampere signal.
F. The Contractor shall provide 24 V power supplies for analog signals and instruments where
applicable and as required inside panels, controls, etc.
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NCWRF COMPLIANCE ASSURANCE PROJECT
SIGNAL COORDINATION REQUIREMENTS
G. Where two-wire instruments transmit directly to the Control and Information System, the
Instrumentation Supplier shall provide power supplies at the PLC-equipped control panels
for those instruments.
H. Where four-wire instruments with on-board loop power supplies transmit directly to the
Control and Information System, the instrumentation subcontractor shall provide necessary
signal isolators or shall otherwise isolate the input from the Control and Information System
loop power supply. Similar provisions shall be made when a third element such as a
recorder, indicator or single loop controller with integral loop power supply is included in the
loop.
1.03 DISCRETE INPUTS
A. All discrete inputs to equipment and Control and Information SystemPLC's, from field
devices, starters, panels, etc., shall be dry contacts in the field device or equipment,
powered from the PLC's, unless specified otherwise.
B. Sensing power (wetting voltage) supplied by the PLC loop power supply shall be 24 VDC.
1.04 DISCRETE OUTPUTS
A. All discrete outputs from local control panels and Control and Information System PLC's to
field devices, starters, panels, etc., shall be 24 VDC powered (sourced) from PLC loop
power supplies.
B. PLC powered discrete outputs shall energize 24 VDC pilot relay coils in the field devices,
starters, panels, etc. which in turn open or close contacts in the associated control circuit.
The 24 VDC relay coil, contacts, and associated control circuitry shall be furnished integral
with the field device, starter, panel, etc. by the supplier and contractor furnishing the field
device, starter, or panel.
1.05 OTHER DISCRETE SIGNALS
A. Discrete signals between starters, panels, etc. where no 24 VDC power supply is available
may be 120 VAC, as long as such contacts are clearly identified In the starter, panel, etc. as
being powered from a different power supply than other starter/panel components and run in
a separate conduit from 24 VDC circuits.
B. Where applicable, warning signs shall be affixed inside the starter, panel, etc. stating that
the panel is energized from multiple sources.
C. Output contacts in the starter, panel, etc. which are powered from other locations shall be
provided with special tags and/or color coding. Disconnecting terminal strips shall be
provided for such contacts.
D. The above requirements shall appiy to all starters and panels, regardless of supplier.
PART 2 - PRODUCTS
2.01 PILOT RELAYS
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NCWRF COMPLIANCE ASSURANCE PROJECT
SIGNAL COORDINATION REQUIREMENTS
A. Pilot relays.shallbe supplied with the following characteristics:
1. 24 VDC (1.6 W maximum) coils.
2.. . At a minimum, DPDT contacts rated at5 A, 120 VAC or 28 VDC.
3. Socketofdifferent configuration from 120 VAC relays.
4. Clips for attachment to sockets.
5. Indicator lights which glow when the relay coil is powered.
PART 3- EXECUTION
(NOT USED)
END OF SECTION
0:17060 Signal Coordination Requirements.doc.07-09-09 17060-3
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
SIGNAL COORDINATION REQUIREMENTS
SECTION 17070
CONTROL AND INFORMATION SYSTEM TESTING - GENERAL
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall test the .control and Information System as specified herein to
demonstrate compliance with the Contract Documents.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17071 - Factory Assembly Test
C. Section 17073 - Field Testing
1.03 SUBMITTALS
A. For each of the specified tests, submit a test plan to the Engineer at least one month in
advance of commencement of the tests. The test plan shall contain the following
information at a minimum:
1. A schedule of all testing to be conducted.
2. A brief description of the testing to be performed.
3. Test objectives.
4. Testing criteria per the Specifications.
5. Check lists and procedures for performing each of the specified tests.
6. Sample test result documentation.
7. Requirements for other parties.
1.04 GENERAL REQUIREMENTS
A. All system start-up and test activities shall follow detailed test procedures, check lists, etc.,
previously approved by the Engineer. The Engineer shall be notified at least 21 days in
advance of any system tests and reserves the right to have his and/or the Owner's
representatives in attendance.
B. The Contractor shall provide the services of experienced factory trained technicians, tools
and equipment to field calibrate, test, inspect, and adjust all equipment in accordance with
manufacturer's specifications and instructions.
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CONTROL & INFO SYSTEM TESTING-GENERAL
C. The Contractor (or designee) shall maintain master log books for each phase of installation,
startup and testing activities specified herein. Each log book shall include signal, loop or
control strategy tag number, equipment identification, description and space for sign-off
dates, Contractor signature and Engineer signature. Example test documentation specific to
each phase of testing shall be approved prior to initiation of that testing, as specified
hereinabove.
D. All test data shall be recorded on test forms, previously approved by the Engineer. When
each test has been successfully completed, a certified copy of all test results shall be
furnished to the Engineer together with a clear and unequivocal statement that all specified
test requirements have been met and that the system is operating in accordance with the
Contract Documents.
E. The Engineer will review test documentation in accordance with the Contract Documents
and will give written notice of the acceptability ofthe tests within 10 days of receipt ofthe test
results.
PART 2 - PRODUCTS
(NOT USED)
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
0:4101 Q-023S17070.doc07 -09-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL & INFO SYSTEM TESTING-GENERAL
SECTION 17073
FIELD TESTING
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall perform field testing on the Control and Information System as
speCified herein to demonstrate compliance with the Contract Documents to the Engineer
and Owner's personnel.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17070 - Control and Information System Testing, General
1.03 GENERAL REQUIREMENTS
A. All system start-up and test activities shall follow detailed test procedures, test report, check
lists, etc., previously approved by the Engineer.
B. Control system start-up and testing shall be performed to ensure that all plant processes
shall be systematically and safely placed under digital control in the following order:
1. Primary elements such as transmitters and switch devices shall be calibrated and
tested as specified in Sections 17600, 17700, and 17800 (by Contractor).
2. Each final control element shall be individually tested as specified hereinafter (by
Contractor).
3. Each instrument and control loop shall be tested as specified hereinafter (by
Contractor).
4. Each control strategy shall be tested under automatic digital control as specified
hereinafter (by Contractor).
5. The entire control system shall be tested for overall monitoring, control,
communications, and information management functions, and demonstrated for
system availability as specified hereinafter (by Contractor and Engineer).
C. System start-up and test activities shall include the use of water, if necessary, to establish
service conditions that simulate, to the greatest extent possible, normal operating conditions
in terms of applied process loads, operating ranges and environmental conditions.
D. Each phase of testing shall be fully and successfully completed and all associated
documentation submitted and approved prior to the next phase being started. Specific
exceptions are allowed if written approval has been obtained in advance from the Engineer.
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NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD TESTING
1.04 CONTRACTOR'S RESPONSIBILITIES
A. The Contractor shall ensure that all mechanical equipment, equipment control panels, local
control panels, field instrumentation, control system equipment and related equipment
and/or systems are tested for proper installation, adjusted and calibrated on a loop-by-Ioop
basis prior to control system startup to verify that each is ready to function as specified.
Each test shall be witnessed, dated and signed off by both the Contractor (or designee) and
the Engineer upon satisfactory completion.
B. The Contractor shall be responsible for coordination of meetings with all affected trades. A
meeting shall be held each morning to review the day's test schedule with all affected trades.
Similarly, a meeting shall be held each evening to review the day's test results and to review
or revise the next day's test schedule as appropriate.
C. The Contractor shall ensure that the electrical subcontractor conforms to the start-up, test
and sign-off procedures specified herein to assure proper function and coordination of all
motor control center control and interlock circuitry and the transmission of all discrete and/or
analog signals between equipment furnished by the electrical subcontractor and the control
system specified herein.
D. The Contractor shall ensure thatthe HVAC subcontractor conforms to the start-up, test and
sign-off procedures specified herein to assure proper function of all HVAC system control
and interlock circuitry and the transmission of all discrete and/or analog signals between
HVAC equipment and controls and the control system specified herein.
1.05 FINAL CONTROL ELEMENT TESTING
A. The proper control of all final control elements shall be verified by tests conducted by the
Contractor in accordance with the requirements specified herein.
B. All modulating final control elements shall be tested for appropriate speed or position
response by applying power and input demand signals, and observing the equipment for
proper direction and level of reaction. Each final control element shall be tested at 0,25,50,
75, and 100 percent of signal input level and the results checked against specified accuracy
tolerances. Final control elements which require turndown limits such as VFD's shall be
initially set during this test.
C. All non-modulating final control elements shall be tested for appropriate position response by
applying and simulating control signals, and observing the equipment for proper reaction.
1.06 LOOP CHECKOUT
A. Prior to control system startup and testing, each monitoring and control loop shall be tested
by the Contractor on an individual basis from the primary element to the final element,
including the PLC I/O module and PLC data table, for continuity and for proper operation
and calibration.
B. Signals from transducers, sensors, and transmitters shall be utilized to verify control
responses. . Simulated input data signals may be used subject to prior written approval by
the Engineer. All modes of control shall be exercised and checked for proper operation.
0:17073 Field Testing.doc:07-09-09
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17073-2
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD TESTING
C. The accuracy of all DAC's shall be verified by manually entering engineering unit data values
at the PLC programmer or work station and then reading and recording the resulting analog
output data.
D. The accuracy of all ADC's shall be verified using field inputs or by manually applying input
signals atthe final controller, and then reading and recording the resulting analog input data
at the PCL programmer or work station.
E. Final control elements and ancillary equipment shall be tested to verify that proper and
stable control is achieved using local area control panels, motor control center circuits, and
local field mounted control circuits. All hardwired control circuit interlocks and alarms shall
be operational. The control to final control elements and ancillary equipment shall be tested
using both manual and local automatic (where provided) control circuits.
F. Each loop tested shall be witnessed, dated and signed off by both the Contractor (or
designee) and the Engineer upon satisfactory completion.
1.07 CONTROL SYSTEM STARTUP AND TESTING
A. Control system startup and testing shall be performed by the Engineer to demonstrate
complete compliance with all specified functional and operational requirements. Testing
activities shall include the simulation of both normal and abnormal operating conditions.
B. All digital hardware shall be fully inspected and tested by the Contractor for function,
operation and continuity of circuits. All diagnostic programs shall be run by the Contractor to
verify the proper operation of all digital equipment.
C. Each control strategy shall be tested by the Engineer to verify the proper operation of all
required functions. The control system start-up and test activities shall include procedures
for tuning all control loops incorporating PID control modules, and for adjusting and testing
all control loops as required to verify specified performance.
1.08 PLANT STARTUP COORDINATION
A. Plant start-up shall comply with requirements specified in the Contract Documents and those
requirements specified herein. Plant start-up shall commence after all previously described
start-up and test activities have been successfully completed and shall demonstrate that the
Instrumentation, Control and Information System can meet all contract requirements with
plant equipment operating over full operating ranges under actual operating conditions.
B. The control system start-up period shall be coordinated with the phased replacement of
existing control system equipment as well as process startup activities and shall be extended
as required until all plant processes are fully operational and to satisfy the Engineer that all
control system contract requirements have been fulfilled in accordance with the Contract
Documents.
C. The instrumentation subcontractor's personnel shall be resident at the treatment facility to
provide both full time (eight hours/day, five days/week) and 24 hours on call (seven
days/week) support of equipment operating and maintenance activities for the duration of
the plant start-up period.
0: 17073 Field Testing .doc:07 -09-09
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17073-3
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD TESTING
-----_..~ .
~,
___.._"0.--__
, .- - "'"~--~--~_"''''^,=~.,._'''''.'- ,.."..-..=-----.-.
D. At least one qualified control systems technician shall be provided by the Contractor for
control system startup and test activities (at least two when loop checkout is being.
performed).
PART 2 - PRODUCTS
(NOT USED)
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
0:17073 Field Tesling.doc:07-09-09
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17073-4
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD TESTING
SECTION 17080
QUALITY ASSURANCE
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. It is the intent of these Specifications and Drawings to secure high quality in all materials,
equipment and workmanship in order to facilitate operations and maintenance of the Plant.
The Contractor shall provide equipment and services to meet this intent.
1.02 REFERENCE SPECIFICATIONS, CODES AND STANDARDS
A. All work shall be installed in accordance with the National Electric Code, National Electric
Safety Code, OSHA, state, local and other applicable codes.
1.03 QUALITY ASSURANCE - GENERAL
A. All equipment and materials shall be new and the products of reputable recognized
suppliers having adequate experience in the manufacture of these particular items.
B. For uniformity, only one manufacturer will be accepted for each type of product.
C. All equipment shall be designed for the service intended and shall be of rugged construction,
of ample strength for all stresses which may occur during fabrication, transportation, erection
and during continuous or intermittent operation. They shall be adequately stayed, braced.
and anchored and shall be installed in a neat and workmanlike manner. Appearance and
safety, as well as utility, shall be given consideration in the design of details.
D. All components and devices installed shall be standard items of industrial grade, unless
otherwise noted, which shall be of sturdy and durable construction and be suitable for long,
trouble-free service.
E. Electronic equipment shall be all solid state construction, utilizing microprocessors, unless
otherwise specified. Components shall be derated to assure dependability and long-term
stability.
F. Printed circuit boards in field mounted equipment shall be suitable for the specified
environmental conditions.
G. Alignment and adjustments shall be noncritical, stable with temperature changes or aging
and accomplished with premium grade potentiometers.
H. Components of specially selected values shall not be inserted into standard electronic
assemblies in order to meet the performance requirements of this specification.
1.05 OPTIONAL EQUIPMENT
A. Optional or substituted equipment or both requiring changes in details or dimensions
required to maintain all structural, mechanical, electrical, control, operating, maintenance or
0:17080 Quality Assurance.doc07-09-09
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17080-1
NCWRF COMPLIANCE ASSURANCE PROJECT
OUALlTY ASSURANCE
design features incorporated in these Specifications and Drawings shall be made at no
additional cost to the Owner. In the event that the changes are necessary, calculations and
drawings showing the proposed revisions shall be submitted for approval. The Contractor
shall coordinate all changes with other affected trades and contracts and pay all additional
charges incurred.
1.06 GUARANTEE
A. The instrumentation subcontractor through the Contractor shall install, maintain and
guarantee the Instrumentation, Control and Information System as specified under the
General Conditions and Division 1 of the Specifications. Maintenance personnel provided
by the instrumentation subcontractor shall instruct the Owner's personnel in the operation,
adjustment, calibration and repair of the equipment being serviced. All preventive and
corrective. activities shall be documented with service reports which shall identify the
equipment being serviced, state the condition ofthe equipment, describe all work performed
and list materials used. A copy of all service reports shall be delivered to the Owner on the
day the work is performed.
B. The instrumentation subcontractor shall provide the services of factory-trained service
technician(s) at least twice during the guarantee period, for the purpose of performing
preventive hardware maintenance.
C. Corrective hardware and software maintenance during the guarantee period shall be
performed in accordance with the requirements of Division 1 and, in addition, shall meet the
following requirements:
1. Corrective hardware maintenance shall be performed by factory-trained service
. technician(s) specifically trained to service the digital equipment provided.
Technicians possessing suitable training and experience shall be provided to
perform corrective maintenance on all other equipment. The hardware service
technician(s) shall be available on-site within 24 working hours after notification by
the Owner.
2. Corrective software maintenance shall be performed for software provided by the
instrumentation subcontractor and incorporated into the system prior to the
completion of system commissioning. Corrective software maintenance shall include
the supply, installation and startup of all application software upgrades released
during the guarantee period.
3. Corrective hardware and software maintenance performed during the guarantee
period shall be performed at no cost to the Owner.
4. As used herein, the term "working hours" shall be defined as those of the treatment.
facility (seven days per week, 24 hours per day). The term "business hours" shall be
defined as the hours between 8 a.m. and 5 p.m., local time, Monday through Friday;
excluding holidays.
5. The guarantee period shall commence upon final acceptance of the completed
treatment facility in accordance with the provisions of the Contract Documents.
D. The instrumentation subcontractor shall submit to the Owner a proposed maintenance
agreement incorporating the following features:
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QUALITY ASSURANCE
1.. . Extension of preventive hardware maintenance services as described above for a
period of up to five years from the expiration of the warranty period.
2. Provisions for corrective hardware and/or software maintenance work on a will-call
basis for a period of up to five years from the expiration of the warranty period.
Corrective maintenance work shall be performed by properly trained personnel as
described above.
E. The proposed agreement shall include provisions for paymentbased upon an annual fee for
preventive maintenance and cost plus expenses for corrective maintenance work. The
portion.. dealing with corrective maintenance shall be written to include corrective
maintenance caused by actions of the Owner during the warranty period and shall contain
clauses for renegotiation of contract prices based upon changes in recognized economic
indicators published by the United States Department of Commerce.
1.07 SHIPPING HANDLING AND STORAGE
A. In addition to shipping, handling and storage requirements specified elsewhere In the
Contract Documents, air conditioning/heating shall be provided for storage of all field
instrumentation, panels, digital equipment and ancillary devices to maintain temperatures
between 20 and 25 degrees C and relative humidity 40 to 60 percent without condensation.
The air shall be filtered and free of corrosive contaminants and moisture.
1.08 FABRICATION
A. Fabrication of all equipment and panels shall confonm to the codes and standards outlined in
this Section, and other portions of the Contract Documents. Panels shall be U.L. Certified
prior to shipment.
B. The Engineer may inspect the fabricated equipment at the factory before shipment to job
site. The Contractor shall provide the Engineer with sufficient prior notice so that an
inspection can be arranged at the factory. Inspection of the equipment at the factory by the
Engineer will be made after the manufacturer has performed satisfactory checks,
adjustments, tests and operations.
C. Equipment approval at the factory only allows the equipment to shipped to the project site.
The Contractor shall be responsible for the proper storage, installation and satisfactory
start-up and operation of the equipment to the satisfaction of the manufacturer and the
Engineer.
1.09 INSTALLATION
A. All instrumentation and control system installation work shall conform to the codes and
standards outlined in this Section, and other portions of the Contract Documents.
B. The instrumentation subcontractor shall assign a competent representative who shall
provide full time coordination and supervision of all on-site instrumentation and control
system construction work from commencement of plant construction through completion and
final acceptance. .
C. All labor shall be performed by qualified craftsmen in accordance with the standards of
workmanship in their profession and shall have had a minimum of five years of documented
experience on similar projects. .
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QUALITY ASSURANCE
-,-.--...-.,. ~_.-...
D. All equipment and materials shall fit properly in their installations. Any required work to
correct improperly fit installations shall be performed at no additional expense to the Owner.
E. Sufficient common-mode and differential-mode noise rejection shall be provided to insure
operation of the plant process control system to meet all specification requirements.
General practice shall include:
1. Maintaining crossings between noisy wires and signal wires at right angles.
2. Maintaining separation between noisy wires and signal wires as wide as practical.
3. Grounding all signals, shields and power supplies at the process control unit or local
control panel.
4. Providing passive filters on signals with time constant compatible with scan intervals
and overvoltage protection.
5. Minimizing the number of cable splices.
6. Providing a floating output for transmitters that have their own power sources.
F. Separate grounding systems shall be provided for the control system power and logic
circuits. The power system ground shall be connected to the AC power ground system in
the associated building. The logic ground shall be a #1/0 insulated wire run directly from
each control panel containing digital hardware to a separate copper ground rod outside each
associated building. Logic and power grounding systems shall be bonded In accordance
with the control system manufacturer's recommendations as well as all applicable code
requirements.
G. The case of each field instrument and control panel shall be grounded in compliance with
the National Electric Code.
H. Power wires shall be separated from parallel-running signal wires by the following minimum
spacing:
CIRCUIT
VOLTAGE NAC)
.
MINIMUM
SPACING (IN.)
120
240
480
2000 and above
12
18
18
24
I. The Contractor shall provide all required cutting, drilling, inserts, supports, bolts, and
anchors, and shall securely attach all equipment and materials to their supports. Embedded
supports for equipment furnished under this Division shall be provided and installed as
shown specified herein and shown on the drawings.
J. Following acceptance of the pre-installation tests by the Engineer, and in accordance with
the construction schedule, the Contractor shall commence installation of the digital control
system hardware. Digital system equipment items shall not be installed, however, until all
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QUALITY ASSURANCE
. architectural, mechanical, HVAC and electrical work has been completed in the equipment
rooms, MCC's, control rooms and all structural and/or mechanical work has been completed
within 50 feet of equipment locations.
K. Upon completion of the above construction work, the Contractor shall request an inspection
of the above-named areas. The Engineer will issue a written approval to proceed with
delivery and installation only after being satisfied that all work described above has been
properly performed. Digital equipment shall remain atthe pre-installation project staging site
prior to approval for delivery to the project site. Partial shipments may be required to meet
constructiohschedule requirements.
PART 2 - PRODUCTS
(NOT USED)
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
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QUALITY ASSURANCE
SECTION 17120
-.-.
PROGRAMMABLE LOGIC CONTROLLERS
PART 1- GENERAL
1.01 THE REQUIREMENT
A. The existing HMI/SCADA system controlling the wastewater plant is composed with nine (9)
Allen-Bradley Family5 PLCs equipped with 5/20 and 5/40 processors, and one (1) Allen-
Bradley ControlLogix located in the Solids Processing Building, Tag No. PLC-3.
B. New Input/Output Modules shall be furnished and installed to expand the capacity of the
existing HMIISCADA system
C. The Contractor shall furnish, test, install and place in satisfactory operation the Allen-Bradley
Remote Flex I/O complete with power supply, Remote I/O Adapter, Digital Input Modules
and Analog Input Modules, all assembled in a wall-mounted NEMA-4 enclosure.
1.02 SUBMITTALS
A. General: The Contractor shall submit shop drawings and Operation and Maintenance
instructions and other. information as specified in accordance with Section entitled,
"Submittals", and Section 17000 entitled "Scope and General Requirements".
B. Operations and Maintenance Manuals: The Contractor shall submit operation and
maintenance manuals in accordance with the procedures and requirements set forth in
Section entitled, "Submittals" and Section 17000 entitled "Scope and General
Requirements".
1.03 MANUFACTURER'S SERVICE REPRESENTATIVE
A. The Contractor shall provide the services of a qualified instrumentation and control system
subcontractor technical representative who shall adequately supervise the installation and
testing of all equipment furnished under this Contract and instruct the Contractor's personnel
and the Owner's personnel in its maintenance and operation.
B. Any additional time required to achieve successful installation and operation shall be at the
expense of the Contractor.
1.04 PRODUCT DELIVERY STORAGE AND HANDLING
A. All equipment parts shall be properly protected in accordance with manufacturer
requirements so that no damage or deterioration will occur during a prolonged delay from the
time of shipment until installation is completed and the units and equipment are ready for
operation.
B. Factory assembled parts and components shall not be dismantled for shipment unless
permission is received in writing from the Engineer.
0:17120 Programmable Logic Controllers.doc:01~ 11-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
PROGRAMMABLE LOGIC CONTROLLERS
C. Finished iron or steel surfaces not painted shall be properly protected to prevent rust and
corrosion.
D. Each box or package shall be properly marked to show its net weight in addition to its
contents.
PART 2 - PRODUCTS
2.01 FAMIL Y5 PLC INPUT/OUTPUT MODULE
A. The Allen Bradley 17711/0 Modules to be furnished are:
1. Digital input module: Allen Bradley Model 1771-IBD
2. Digital output module: Allen-Bradley Model 1771-0W16
3. Analog input module: Allen-Bradley Model 1771-IL
4. Analog output module: Allen-Bradley Model 1771-0FE
2.02 CONTROLLOGIX INPUT/OUTPUT MODULE
A. The Allen-Bradley 1756 I/O Modules to be furnished are:
1. Digital Input Module Model 1756-AB32
2. Analog Input Module Model 1756-IF61
2.03 REMOTE FLEX I/O ASSEMBLY
A. The Remote Flex 110 Assembly shall be housed in the wall-mounted NEMA-4 Enclosure
RIO-10.1 located in the MLE Odor Control System. The Remote Flex I/O shall communicate
via Fiber Optic to the existing PLC-10 In the Electrical Building.
B. The Allen-Bradley Remote Flex I/O assembly shall be completed with the following:
1. Allen-Bradley Power Supply 1794-PS13
2. Allen-Bradley Remote I/O Adapter 1794-ABS
3. Allen-Bradley 16 Digital Input Module 1794-IB16
4. Allen-Bradley 8 Analog Input 1794-IA8
5. Allen-Bradley Wire Terminal Base 1794- TB3
C. The complete 110 list can be found in Section 17920 - Schedule.
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PROGRAMMABLE LOGIC CONTROLLERS
PART 3 " EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17000, Part 3 of the specifications.
END OF SECTION
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PROGRAMMABLE LOGIC CONTROLLERS
SECTION 17185
COMMUNICATIONS NETWORKS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place In satisfactory operation a media
communications network complete with accessories, and appurtenances as herein specified
and as shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Scope and General Requirements
B. Section 17190 - Un interruptible Power Systems
1.03 GENERAL INFORMATION AND DESCRIPTION
A. These Specifications are intended to give a general description of what is required, but do
not cover all details which will vary in accordance with the requirements of the equipment
furnished. They are, however, intended to cover the furnishing, the shop testing, the delivery
and complete installation and field testing, of all materials, equipment and appurtenances for
complete systems herein specified, whether specifically mentioned in the Specification or
not.
B. For all units there shall be furnished and installed all necessary and desirable accessory
equipment and auxiliaries whether specifically mentioned in these Specifications or not.
This installation shall incorporate the highest standards for the type of service shown on the
Drawings including field testing of the entire installation and instruction of operating
personnel in the care, operation, and maintenance of all equipment.
C. The universal remote I/O communications network equipment shall be of first class
workmanship and shall be entirely designed and suitable for the intended services. All
materials used in fabricating the equipment shall be new and undamaged.
1.04 MANUFACTURER'S SERVICE REPRESENTATIVE
A. The Contractor shall provide the services of a qualified instrumentation and control system
subcontractor technical representative who shall adequately supervise the installation and
testing of all equipment furnished under this Contract and instruct the Contractor's personnel
and the Owner's personnel in its maintenance and operation.
B. Any additional time required to achieve successful installation and operation shall be at the
expense of the Contractor.
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COMMUNICATIONS NElWORKS
-.....,,---.-...-,.---."'.---.-
__''''''M
"-_.._."-,,, '~-----;"------'''- ,.,-,
PART 2 - EQUIPMENT
2.01 FIBER OPTIC CABLE
A. Fiber optic cable shall contain a minimum of six (6) optical tubing. Fiber optic tubing shall
be multi fiber; 62.5/125 micron, tight-buffered, riser rated multifiber breakout type, with an
Aramid strength member. Maximum attenuation through the fiber shall not exceed 3.75
dBlkm at 850nm. Bandwidth shall be 160 Mhz-km at 850 nm. Cable shall be suitable for
duct or aerial applications with a UVresistant black PVC sheath.
B. Maximum tensile load shall be 3000 N short term and 1200 N long term. Minimum bend
radius shall be 20X outside diameter under installation tensile load and 10X outside
diameter long term tensile load. Operating temperature range shall be -40 to +850 c. Fiber
optic cable shall be UL-listed OFNR rated as manufactured by Optical Cable Corporation,
B-Series Ultra Fox,. part number BX006-095D-W3EB-900R or Phoenix Digital Model #
FOC-USNA-06-062.
C. Fiber optic cable shall utilize mechanically spliced, field installable, ST compatible
connectors. Connections shall have a typical loss of 0.2 dB or better and shall provide
stable optical performance after numerous rematings. Heat or UV cured connections shall
not be acceptable. Connectors shall be as manufactured by Methode Electronics, Inc.,
OPTOKON "Quick-Cure".
D. Contractor shall terminate and test the fiber optic cable. Contractor shall measure the dB loss
of each fiber over the cable length and provide a report of the test results to the Engineer for
approval. The fiber optic test shall be witnessed by the Engineer. Cumulative losses shall not
exceed requirements of Items A and C, above.
E. The instrumentation subcontractor shall be responsible to determine the total lengths of fiber
optic cable needed to connect R 10-10.1 remote flex I/O enclosure and PLC-10 in the
Electrical Building #2. We estimate the fiber optic cable lengths to be less than 1,000 ft.
2.02 FIBER OPTIC CABINETS/PANELS
A. Two fiber optic patch panels shall be provided to terminate the fiber optic cable at both ends.
Patch panels shall include a minimum of 6 fiber ports. Connectors shall be ST type. Each
port shall be labeled. Each cable shall be labeled so to indicate the panel at which its
remote end is terminated.
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
COMMUNICATIONS NETWORKS
SECTION 17190
UNINTERRUPTIBLE POWER SYSTEMS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation all uninterruptible
power systems, with all spare parts, accessories, and appurtenances as herein specified
and as shown on the Drawings.
B. One UPS shall be provided for each operator workstation and its peripherals (i.e. printer,
network equipment, radio, etc.) provided under this Contract.
C. One UPS shall be provided for each programmable automation controller (PAC) and its
appurtenant equipment provided under this Contract. However, courtesy receptacles in
PAC cabinets shall not be powered by the UPS.
D. UPS's shall be mounted in or near enclosures containing digital hardware, unless otherwise
specified or shown on the Drawings, as follows:
1. UPS's for operator's consoles shall be mounted within the consoles.
2. UPS's for control panels containing PACs shall be mounted either within the cabinet
or in an adjacent cabinet of suitable environmental rating.
3. Where the UPS is mounted within a dedicated enclosure, that enclosure shall be
properly sized for heat dissipation and all other applicable requirements as specified
in Section 17500 and its subordinate Sections.
4. Where the UPS is mounted within the PAC cabinet, it shall not interfere with access
to other equipment or wiring within the panel (i.e., it shall not be necessary to move
or remove the UPS to remove or service other panel-mounted equipment). Forfloor-
mounted PAC cabinets with bottom wiring access (inClUding those cabinets with
legs), the UPS shall be placed on a dedicated shelf within the cabinet.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17100 - Control and Information System Hardware, General
C. Section 17120 - Programmable Automation Controllers
1.03 SUBMITTALS
A. The Contractor shall submit UPS sizing calculations for all UPS's furnished under this
Contract in accordance with Section 17030 - Control and Information System Submittals.
0:17190 Uninterruptible PowerSystems.doc:09.17-09 17190-1
January 2010
NCWRF COMPLIANCE ASSURANCE PROJECT
UNINTERRUPTIBLE POWER SYSTEMS
h'~',__'."__._" _".~_.,__~
----"...,...~-~._-,-,--,._.....
PART 2 - EQUIPMENT
2.01 UN INTERRUPTIBLE POWER SYSTEMS
A. Each UPS shall consist of a freestanding UPS module and battery modules as required to
meet backup run time requirements.
B. UPS's shall be true on-line type. Each UPS shall be sized to match the maximum power
requirements of the associated digital equipment, control panel power supplies and
accessories. Under normal operation, the AC power shall be converted to DC. The DC
power from the battery charger shall supply an inverter and maintain the battery module at
full charge. The AC output from the inverter shall be fed to the associated digital equipment
power supply unit and/or other equipment power supplies as appropriate. Upon loss of the
AC supply, the inverter shall continue to supply normal power to the device, drawing DC
from the batteries.
C. An automatic bypass switch shall be provided on UPS's of greater than 2 kVA capacity. The
transfer switch shall be of the solid state, make-before-break type and shall automatically
transfer load from the inverter to the AC line in the event of an inverter malfunction. The
total transfer time shall be 5 milliseconds or less. The transfer switch shall be provided with
a manual override.
D. A manually operated maintenance bypass switch shall be provided for each UPS installation
to allow hardware to be powered while the UPS is removed for maintenance. The bypass
switch shall be the make-before-break type to ensure continuous power to the associated
PAC.
E. Loss of AC power shall be monitored on the line side of the UPS and reported via normally
closed (fail safe) unpowered contacts to the associated PAC.
F. Each UPS shall meet the following requirements:
1. Input voltage shall be 117 VAC, single phase, 60 Hz.
2. Voltage regulation shall be +/-5 percent for line and load changes.
3. The output frequency shall be phase-locked to the input AC line on AC operation
and shall be 60 hertz +/-0.5 percent when on battery operation.
4. The batteries shall be of the sealed, lead acid or lead calcium gelled electrolyte type,
or VRLA absorbed glass mat (AGM) type. The battery modules shall have a
minimum full load backup time of 30 minutes for PAC-based control panels.
5. A status monitoring and control panel shall be provided and shall include the
following:
a. Status indicating lights for both normal and abnormal conditions.
b. Individual alarm contacts that shall close upon loss of the AC line, low battery
level or operation of the static transfer switch. Contacts shall be wired to the
closest discrete input subsystem. Alternatively, an RS-232 or USB port shall
0:17190 Uninterruplible Power Systems.doc:09-17-09 17190-2
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNINTERRUPTIBLE POWER SYSTEMS
provide UPS status to an operator workstation. All required interface
software and hardware shall be provided.
c. Circuit breaker for the AC input.
6. Sound absorbing enclosure.
7. EMI/RF noise filtering.
8. UPS's.shall be furnished complete with a UPS/Network Management Card (Smart
Card) to monitor the battery power and other UPS related data from the HMI
workstations.
9. Surge protection shall be provided on the AC input circuit, which shall have a UL
TVSS clamping voltage rating of 400 V wi~h a <5 ns response time.
G. UPS systems shall be manufactured by Best Power and/or APC.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17000, Part 3 of the Specifications.
END OF SECTION
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UNINTERRUPTIBLE POWER SYSTEMS
. SECTION 17500
ENCLOSURES,GENERAL
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall fumish, test, install and place in satisfactory operation the control
enclosures, with all spare parts, accessories, and appurtenances as specified herein and as
shown on the Drawings.
B. Control enclosures shall be assembled, wired, and tested in the instrumentation
subcontractor's own facilities, unless specified otherwise. All components and all necessary
accessories such as power supplies, conditioning equipment, mounting hardware, signal
input and output terminal blocks', and plug strips which may be required to complete the'
system shall be provided.
C. Control enclosures shall be assembled with U.L. Listed electrical components and the
control enclosures shall bear the U.L. Label.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
C. Section 17510 - Cabinets and Panels
D. Section 17520 - Field Panels
E. Section 17550 - Panel Instruments and Accessories
F. Section 17560 - Transient Voltage Surge Suppression Devices
G. Section 17600 - Un powered Instruments, General
H. Section 17700 - Powered Instruments, General
I. Section 17800 - Analytical Instruments, General
J. Section 17900 - Schedules and Control Descriptions, General
K. Refer to Division 16 for additional requirements for cable, circuit breakers, disconnect
switches, etc.
1.03 GENERAL INFORMATION AND DESCRIPTION
A. These Specifications are intended to give a general description of what is required, but do
not cover all details which will vary in accordance with the requirements of the equipment
furnished. They are, however, intended to cover the furnishing, shop testing, delivery and
complete installation and field testing, of all materials, equipment and appurtenances for
0:41010-023517500:09-17-09
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17500-1
NCWRF COMPLIANCE ASSURANCE PROJECT
ENCLOSURES,GENERAL
complete systems herein specified, whether specifically mentioned in the Specification or .
not.
B. For all units there shall be furnished and installed all necessary and desirable accessory
equipment and auxiliaries whether specifically mentioned in these Specifications or not.
This installation shall incorporate the highest standards for the type of service shown on the
Drawings including field testing of the entire installation and instruction of operating
personnel in the care, operation, and maintenance of all equipment.
C. All equipment shall be of first class workmanship and shall be entirely designed and suitable
for the intended services. All materials used in fabricating the equipment shall be new and
undamaged.
D. All equipment of each type (i.e., all controllers, all indicators, all relays, all surge protectors,
all signal converters, etc.) provided under this Contract shall be furnished by a single
manufacturer.
E. The cabinet itself, and all interior and exterior equipment, shall be identified with nameplates.
The equipment shall be mounted such that service can occur without removal of other
equipment. Face mounted equipment shall be flush or semiflush mounted with flat black
escutcheon. All equipment shall be accessible such that adjustments can be made while
the equipment is in service and operating. All enclosures shall fit within the allocated space
as shown on the Drawings.
F. Manufacturer standard cabinetry may be furnished subject to the requirements of the
Contract Documents and favorable review by the Owner.
G. Due consideration shall be given to installation requirements for enclosures in new and
existing structures. The Contractor shall examine plans and/or field inspect new and
existing structures as required to determine installation requirements, and shall coordinate
the installation of all enclosures with the Owner and all affected contractors. The Contractor
shall be responsible for all costs associated with installation of enclosures, inclUding repair
of damage to structures (incidental, accidental or unavoidable).
1.04 TOOLS, SUPPLIES AND SPARE PARTS
A. Tools, supplies and spare parts shall be provided as specified in Section 17050 - Tools,
Supplies and Spare Parts. In addition, the spare parts items shall be provided as specified
in the individual cabinet and panel specification sections.
PART 2 - PRODUCTS
2.01 TERMINAL BLOCKS
A. Terminal blocks shall be assembled on non-current carrying galvanized steel DIN mounting
rails securely bolted to the cabinet subpanel. Terminals shall be of the screw down pressure
plate type as manufactured by Phoenix Contact, Wieland, Square D, or equal.
B. . Power terminal blocks shall be single tier with a minimum rating of 600 volts, 30 amps.
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ENCLOSURES,GENERAL
.._.,_._--'~-,_.<~"----_._,-,--
C. Signal terminal blocks shall be single tier with a minimum rating of 600 volts, 20 amps.
PART 3 - EXECUTION
3.01 FABRICATION
A. Enclosures shall provide mounting for power supplies, control equipment, inpuVoutput
subsystems, panel mounted equipment and appurtenances. Ample space shall be provided
between equipment to facilitate servicing and cooling.
B. Enclosures shall be sized to adequately dissipate heat generated by equipment mounted
inside the panel. If required, one or more of the following shall be provided to facilitate
cooling:
1. Louvered openings near the bottom and top (NEMA 12 cabinets only).
2. Thermostatically controlled, low noise internal air blowers (initial setpoint 750F) to
circulate air within the enclosure, maintaining a uniform internal temperature.
3. Thermostatically controlled, low noise cooling fans to circulate outside air into the
enclosure, exhausting through louvers near the top of the cabinet (NEMA 12
cabinets only). Air velocities through the enclosure shall be minimized to assure
quiet operation.
4. All openings in cabinets and panels shall be fitted with dust filters.
C. Enclosures shall be constructed so that no screws or bolt heads are visible when viewed
from the front. Punch cut-outs for instruments and other devices shall be cut, punched, or
drilled and smoothly finished with rounded edges.
D. The temperature inside each enclosure containing digital hardware (i.e., cabinet, panel or
console) shall be continuously monitored and shall generate an alarm to the nearest PLC if
the temperature rises to an adjustable, preset high temperature.
E. Terminals shall be marked with a permanent, continuous marking strip. One side of each
terminal shall be reserved exclusively for field incoming conductors. Common connections
and jumpers required for internal wiring shall not be made on the field side of the terminal.
Subject to the approval of the Engineer, a vendor's pre-engineered and prefabricated wiring
termination system will be acceptable.
F. Wiring shall comply with accepted standard instrumentation and electrical practices. Power,
control and signal wiring shall comply with Division 16 of the specifications. For each pairof
parallel terminal blocks, the field wiring shall be between the blocks.
G. Separate terminal strips shall be provided for each type of power and signal used within
each cabinet.
H. All wiring shall be bundled and run open or enclosed in vented plastic wireway as required.
All conductors run open shall be bundled and bound at regular intervals, not exceeding 12
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ENCLOSURES,GENERAL
inches, with nylon cable ties. Care shall be taken to separate electronic signal, discrete
signal, and power wiring. A copper ground bus shall be installed in each cabinet.
I. Interior panel wiring and field wiring shall be tagged at all terminations with machine-printed
plastic sleeves. The wire numbering system and identification tags shall be as specified in
Section 16120 - Wires and Cables. Where applicable, the wire number shall be the ID
number listed in the inpuVoutput schedules.
J. Wires shall be color-coded as follows:
Equipment Ground - GREEN
120 VAC Power - BLACK
SHIELDED
120 VAC Power Neutral- WHITE
120 VAC Control (Internally Powered) - RED
120 VAC Control (Externally Powered) - YELLOW
24 VAC Control- ORANGE
-
DC Power (+) - RED
DC Power (-) - BLACK
DC Control- BLUE
Analog Signal (+) - BLACK Shielded
Analog Signal (-) - WHITE Shielded
K. Enclosures shall be provided with a main circuit breaker and a circuit breaker on each
individual branch circuit distributed from the panel. Main breaker and branch breaker sizes
shall be coordinated such that an overload in a branch circuit will trip only the branch breaker
but not the main breaker.
L. Enclosures shall be provided with 120 volt duplex receptacles for service equipment and
fluorescent service lights.
M. Enclosures shall be furnished with red laminated plastic warning signs in each section. The
sign shall be inscribed "WARNING - This Device Is Connected to Multiple Sources of
Power". Letters in the word "WARNING" shall be 0.75 inch high, white.
N. The interconnection between equipment and panel shall be by means of flexible cables
provided to permit withdrawal of the equipment from the cabinet without disconnecting the
plugs. .
3.02 PAINTING
A. All steel enclosures shall be free from dirt, grease, and burrs and shall be treated with a
phosphatizing metal conditioner before painting. All surfaces shall be filled, sanded, and
finish coated by spraying a 1-2 mil epoxy prime coat and smooth, level, high grade textured
0:41010-023S17500:09-17-09
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17500-4
NCWRF COMPLIANCE ASSURANCE PROJECT
ENCLOSURES,GENERAL
finish between flat and semigloss shine. The colors shall be selected by the Owner from a
minimum of six color samples provided.
B. Materials and techniques shall be of types specifically designed to produce a finish of
superior quality with respect to adherence, as well as impact and corrosion resistance.
C. Panels fabricated from stainless steel shall not be painted.
3,03 INSTALLATION
A. Refer to Section 17000 for additional requirements.
END OF SECTION
0:41 01 0-023S17500:09-17-09
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17500-5
NCWRF COMPLIANCE ASSURANCE PROJECT
ENCLOSURES,GENERAL
SECTION 17510
CABINETS AND PANELS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the cabinets and
panels, with all spare parts, accessories, and appurtenances as specified herein a nd as
shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17100 - Control and Information System Hardware, General
C. Section 17500 - Enclosures, General
D. Section 17900 - Schedules and Control Descriptions, General
PART 2 - PRODUCTS
2.01 CABINETS AND PANELS
A. Cabinets and panels shall be formed or welded construction, reinforced with Unistrut,
Powerstrut, or equal to facilitate mounting of internal components or equipment. Sufficient
access plates and doors shall be provided to facilitate maintenance and testing of the
cabinet's equipment. Doors shall be removable. Cabinets and panels with any dimension
36 inches or greater shall be provided with removable lifting lugs designed to facilitate safe
moving and lifting of the panel during installation. All doors shall be fitted with common-
keyed locks.
B. Cabinets and panels shall be minimum 14 USS gauge. Cabinets and panels with any
dimension greater than 36 inches shall be 12 USS gauge.
C. Cabinets and panels located inside buildings, but located in areas other than climate
controlled (heated and air conditioned) electrical or control rooms, shall be as a minimum
316 stainless steel NEMA 4X construction, or as specified or shown on the Drawings for
hazardous area classification (Class, Division, Group), or submersible (NEMA 6)
applications. Epoxy coated cast copper-free aluminum construction shall also be acceptable
for NEMA 4, 6 and 7 applications. Cabinets located in chlorine storage/feed areas shall be
of non-metallic, FRP construction, rated NEMA 4X.
D. Cabinets and panels within climate controlled (heated and air-conditioned) electrical or
control rooms shall be all steel fully enclosed NEMA 12 units with gasketed doors.
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CABINETS AND PANELS
E. Cabinets and panels shall have doors on the front and shall be designed for front access.
NEMA 12 cabinets shall be fitted with three-point door latches. Door latches for NEMA 4X .
cabinets shall be all stainless steel, fast operating clamp assemblies that do not require bolts
or screws to secure. Door hardware on NEMA 4X cabinets located in chlorine storage/feed
areas shall be non-corrosive in that environment.
F. Panels and cabinets located outside fence-secured areas shall be fitted with padlockable
latch kits.
G. All cabinets and panels shall be provided with drawing pockets for as-built panel drawings.
One copy ofthe appropriate panel as-built drawings shall be furnished and left in the pocket
of each panel.
H. Panels with any dimension greater than 36 inches that contain a programmable controller
(PAC) shall be provided with a folding laptop programmer shelf on the inside of the door.
I. Cabinets and panels shall be prefabricated cabinets and panels by Hoffman, Rittal, or
Saginaw Control and Engineering. The Contractor may optionally provide cabinets that are
custom-fabricated by the instrumentation subcontractor or by a reputable panel fabrication
shop acceptable to the Engineer.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17500 for additional requirements.
END OF SECTION
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NCWRF COMPLIANCE ASSURANCE PROJECT
CABINETS AND PANElS
SECTION 17520
FIELD PANELS
PART 1- GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the cabinets and
panels, with all spare parts, accessories, and appurtenances as specified herein and as
shown on the Drawings.
B. Field Panels shall be assembled with U.L. listed electrical components and the Field Panels
shall bear the U.L. label.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17500 - Enclosures, General
-
.
.
C. Section 17900 - Schedules and Control Descriptions, General
PART 2 - PRODUCTS
2.01 FIELD PANELS
A. Field panels for outdoor service shall be suitable for wall or pipe mounting. Panels shall
have the following features:
1. 316L stainless steel NEMA 4X construction.
2. A hinged and gasketed door. Door latches shall be all stainless steel, fast operating
clamp assemblies which do not require bolts or screws to secure.
3. Field panels located outside fence-secured areas shall be fitted with padlockable
latch kits.
4. Thermal insulation (if needed).
5. External sun shields or cooling plates around the panel.
B. Field panels shall be adequately sized to house instruments, power supplies, surg e
protection, and appurtenant equipment. Sufficient space shall be provided for servicing
instruments without rernoval of equipment from the enclosure.
C. Field panels shall be as manufactured by Hoffman, Rittal, Harnmond, or equal.
D. Thermal insulated panels and sun shields shall be as manufactured by O'Brien or equal.'
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.17520-1
NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD PANELS
- ,,_....,---._---
__..m~w",,_._
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17500 for additional requirements.
END OF SECTION
. O:41010-023S17520:09-17-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
FIELD PANELS
SECTION 17550
PANEL INSTRUMENTS AND ACCESSORIES
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the panel
instruments and accessories, with all spare parts, accessories, and appurtenances as
specified herein and as shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirernents
B. Section 17100 - Control and Information System Hardware, General
C. Section 17500 - Enclosures, General
D. Section 17900 - Schedules and Control Descriptions
1.03 GENERAL INFORMATION AND DESCRIPTION
A. All equipment mounted on the face of a panel shall conform to the same NEMA rating
specified for the panel construction.
1.04 TOOLS, SUPPLIES AND SPARE PARTS
A. Tools, supplies and spare parts shall be provided as specified in Section 17050 - Tools,
Supplies and Spare Parts. In addition, the instrumentation subcontractor shall provide a
proposed list of spare parts items to be provided.
PART 2 - PRODUCTS
2.01 ELECTRONIC INDICATORS
A. Electronic indicators shall be 3.5 or 6 digit, as appropriate, with 0.56" high red LED display.
Indicators shall be provided with nameplate and scale calibrated to match the calibration of
the primary element. The unit shall be designed primarily for use with 4-20 mA current loop
signal circuits. Indicator operating voltage shall be 115 VAC 10%,60 Hz. Indicator controls
shall include three (3) front-panel push buttons for modifying alarm values and other indicator
setup. Two (2) form-C relays shall be provided for each indicator. Relay contact outputs
shall be rated 5A, 120/240 VAC, resistive load. Where required, a regulated and isolated 24
V excitatiDn power supply shall be provided. Indicators shall be Red Lion Model IMP or
APLCL, or equal.
0:4101 0-023S17520:09-17 -09
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NCWRF COMPLIANCE ASSURANCE PROJECT
PANEl INSTRUMENTS AND ACCESSORIES
---
__._.'M'
2.02 SIGNAL CONVERTERS
A. Signal converters shall be provided as required to provide control functions and to interface
instrumentation and controls, equipment panels, motor control centers and other
instrumentation and controls supplied under other Divisions to the controls provided herein.
B. General Requirements - Converters shall be of the miniature type, utilizing all solid state
circuitry suitable for mounting within new or existing cabinetry. Where sufficient cabinet.
space is not available, sub panels or supplemental enclosures shall be provided. Power
supply shall be 120V, 60 hertz where required by the converter. Repeatability shall be 0.10/0
of span, dead band shall be 0.1 % span, maXimum. Where specific converters are not listed,
but are required to interface with the process control system, they shall comply with the
general requirements stated herein.
C. Current to Current Isolators - Current to current isolators shall be furnished where necessary
to provide an isolated current loop, calculations or signal amplification between the plant
process control system and instrumentation and control loops. Isolators shall be sized such
that resistance of existing loops shall not exceed maximum rated resistance. Isolators shall
be as manufactured by AGM, Moore Industries, Rochester Instrument Systems (RIS), or
equal.
D. Voltage to Current Transducers - Voitage to current (or current to voltage) transducers shall
convert a voltage signal of one magnitude to a 4-20 milliamp DC current signal. The output
current shall be directly proportional to the input signal voltage. Transducers shall be sized
such that loop resistance does not exceed maximum rated resistance. Transducers shall be
as manufactured by AGM, Moore Industries, Rochester Instrument Systems (RIS), or equal.
E. Frequency to Current Transducers - Frequency to current transducers shall convert
pulse-rate and pulse-duration signals to 4-20 mA, 24 VDC analog signals. Converters shall
include field-adjustable input frequency range. Converter power shall be 120 VAC, 60 hertz.
Transducers shall be sized such that loop resistance does not exceed maximum rated
resistance. Transducers shall be suitable for signal transmission via leased telephone lines.
Transducers shall be Timeverter as manufactured by AGM, Moore Industries equivalent,
Rochester Instrument Systems (RIS) equivalent, or equal.
F. Current to Frequency Transducers - Current to frequency transducers shall convert 4-20
mA, 24 VDC analog signals to pulse-rate and pulse-duration signals. Converters shall
include field-adjustable output frequency range. Converter power shall be 120 VAC, 60
hertz. Transducers shall be sized such that loop resistance does not exceed maximum rated
resistance. Transducers shall be suitable for signal transmission via leased telephone lines.
Transducers shall be Quantimer as manufactured by AGM, Moore Industries equivalent,
Rochester Instrument Systems (RIS) equivalent, or equal.
G. Integrators -Integrators shall be provided as interchangeable plug-in modules with zero and
span adjustment available on the front plate of the units. Output shall range from 0 to 0.1
through 0 to 10 pulses per second. Accuracy shall be :': 0.1 % of input span. Integrators
shall convert linear analog signals to pulse rate and provide a solid-state output. Integrators
shall. be as manufactured by AGM Electronics, Moore Industries, Rochester Instrument
Systems (RIS), or equal.
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PANEL INSTRUMENTS AND ACCESSORIES
H. Electronic Switches (Alarm Relays) - Electronic switches shall be fumished with a calibrated
dial for adjusting set points. The input to the switch shall be 4-20 mADC, and the set point
. shall be adjustable over the full range. Unless otherwise noted, the dead band shall be fixed
, at less than:? percentof span. The set point stability shall be i:0.1% per degree F.The
. repeatability shall be '0.1 % of span. The units shall be furnished with SPOT relays rated at
10 amperes at 115 VAC. Electronic switches shall be as manufactured by AGM, Moore
Iridustrres, Rochester Instrument Systems (RIS), or equal.
I. RTDto Current Signal Converters - RTD to current signal converters shall convert a 3"wfre
." RTD:input signal to an isolated 4-20 mADC output signal. Each converter shall operate from'
. a 120 VAC power source. Accuracy shall be 0.10 percent of span or better. Calibrated
span of each converter shall be as iridicatedonthe instrument list. The Contractor shall
coordinate calibration of the signal converters with existing RTD elements. The signal
converters shall be furnished in the manufacturer's standard enclosure for installation in an
existing indoor electrical cabinet. Signal converters shall be as manufactured by AGM,
Moore Industries, Rochester Instrument Systems (RIS), or equal.
J. Interposing Relays - Where required to interface between motor control centers, equipment
controls, and control panels, interposing relays and associated control wiring circuitry shall
be furnished and installed to provide the monitoring and/or control functions specified herein.
Interposing relays shall be miniature type, DPDT, minimum 10 amp, 120 VAC contact rating.
Relay coils shall be 120 VAC or 24 VDC as required. Relays shall be Type KU as
manufactured by Square 0, Potter & Brumfield, Allen-Bradley, or equal.
K. Timing Relays - Timing Relays (TR) shall be the general purpose plug-in type, Type JCK.as
manufactured by Square D Company,Cutler-HqmmerlWestinghouse Electric Corporation
equivalent, Allen-Bradley equivalent, or equal. Timing relays shall be electronic type with
120 VACcoils unless otherwise specified or indicated on the Drawings. Timers shall be
provided with a minimum of two SPOT timed output contacts and instantaneous contacts
where required. Contact ratings shall be the same as for interposing relays as specified
above.
L. Intrinsically Safe Relays and Barriers -Intrinsically safe relays and barriers shall be provided
where required to interface with equipment such as float level switches that are located in
NFPA-classified hazardous areas. Intrinsically safe relays and barriers shall be FM
approved and shall be manufactured by Pepperl and Fuchs, Crouse Hinds, Square D, or
equal.
2.03 TOTALIZERS
A. Totalizing counters shall be provided for flush panel, spring-clip mounting. Face dimensions
of the totalizing counters shall be no larger than 1-118-inches high by 2-inches wide.
Totalizing counters shall contain eight digits. Height of the digits shall not be less than
5/32-inch. Numerals shall be white on a black background. The counter shall be
. non-resettable and shall be totally compatible for operation on the pulses supplied by the
associated instrument or integrator. The totalizing. counter shall be capable of a maximum
count rate of 25 counts/second.
B. Legend plates shall be provided for each of the totalizing counters with white letters on a
black background with legends as specified below.
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NCWRF COMPLIANCE ASSURANCE PROJECT
PANEL INSTRUMENTS AND ACCESSORIES
C. Totalizing counters shall be manufactured by Kessler-Ellis, or equal.
2.04 ACCESSORIES
A. Control operators such as pushbuttons (PB), selector switches (SS), and pilot lights (PL)
shall be Culier-HammerlWestinghouse Type E34, Square D Company Type SK; or equal.
Control operators shall be 30.5 mm, round, heavy-duty, oil tight NEMA 4X corrosion
resistant.
B. Pushbuttons shall be non-illuminated, spring release type. Push buttons shall include a full
guard. Panic stop/alarm push buttons shall be red mushroom type with manual-pull release.
Selector switches shall be non-illuminated, maintained contact type. Pilot lights shall be of
the proper control voltage, LED type with light lens colors shall be as specified below.
Color
Function
Red
Green
Amber
BluelWhite
Yellow
Running (Open)
Stopped or Off (Closed)
Fault
Generic Status
Abnormal Conditions
C. Control operators shall have legend plates as specified herein, indicated on the Drawings, or
otherwise directed by the Engineer. Legend plates shall be plastic, black field (background)
with white lettering. Engraved nameplates shall be securely fastened above each control
operator. If adequate space is not available, the nameplate shall be mounted below the
operator.
D. Control operators for all equipment shall be as specified herein and of the same type and
manufacturer unless otherwise specified or indicated on the Drawings.
E. Alarm horns shall be general-purpose type, flush panel mount, 115 VAC power suppiy or
24 VDC power supply, suitable for indoor or weatherproof service, as required. Volume
shall be adjustable.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17500 for additional requirements.
END OF SECTION
0:41010-023S17520:09-17-09
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
PANEL INSTRUMENTS AND ACCESSORIES
SECTION 17560
TRANSIENT VOLTAGE SURGE SUPPRESSION DEVICES
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. . The Cpntractor shall furnish, install and place in satisfactory operation the transient voltage
surge suppression (TVSS) devices as specified herein and as shown on the Drawings.
,
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17100 - Digital Hardware System Configuration
C. Section 17500 - Enclosures, General
D. Section 17900 - Schedules and Control Descriptions, General
1.03 GENERAL INFORMATION AND DESCRIPTION
A. All surge protectors of each type provided under this Contract shall be furnished by a single
manufacturer.
1.04 TOOLS, SUPPLIES AND SPARE PARTS
A. Tools, supplies and spare parts shall be provided as specified in Section 17050 - Tools,
Supplies and Spare Parts. In addition, the following specific spare parts items shall be
provided:
1. Five of each type of transient voltage surge suppression (TVSS) devices provided
under this Contract.
PART 2 - PRODUCTS
2.01 ELECTRICAL TRANSIENT PROTECTION, GENERAL
A. All electrical and electronic elements shall be protected against damage due to electrical
transients induced in interconnecting lines from lightning discharges and nearby electrical
systems.
B. Manufacturer's Requirements: All surge suppressor devices shall be manufactured by a
company that has been engaged in the design, development, and manufacture of such
devices for at least 5 years. Acceptable manufacturers shall be Phoenix Contact, Edco,
Transtectcir, Joslyn or equal.
C. Suppressor Locations: As a minimum, provide surge suppressors atthe following locations:
0:41 01 0-023S17560:09-17-09
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17560-1 NCWRF COMPLIANCE ASSURANCE PROJECT
TRANSIENT VOLTAGE SURGE SUPPRESSION DEVICES
.~-"------
- --_.,..~-_. ..~_..._.,~-----' ,.,..,.....
1. At any connections between ac power and electrical and electronic equipment,
including panels, assemblies, discrete field sensors, and field mounted analog
transmitters.
2. At both ends of all input/output analog signal circuits that have any portion of the
circuit extending outside of a protecting building.
3. At one end, panel side, of all input/output digital signal circuits that have any portion
of the circuit extending outside of a protecting building.
4.. At both ends of all copper-based communications cables which extend outside of a
building.
5. On all external telephone communications lines.
D. As a general guideline the surge suppressor shall be as follows:
1. 120-Volt field mounted analog transmitter. The protector shall combine AC power
protection and 4-20 mA signal line protection. The suppressor shall be EDCO series
SLAC or equal.
2. 120-Volt power surge suppressor shall be EDCO series HSP121 BT or equal.
3. 4-20 mA signal line protection at the panel side shall be EDCO series SS 641/2,
Joslin model 180-28 or equal.
4. Two wire field mounted analog transmitter 4-20 mA signal line protection shall be
JOSLIN model 1669-06, Edco, or equal.
5. Two wire discrete input/output signal line protection shall be Edco Series SRA-64
Series or PC642 Series or equal.
2.02 AC POWER PROTECTION
A. Surge suppressor assemblies for connections to AC power supply circuits shall be
assemblies that:
1. Have been provided with two 3-terminal barrier terminal strips capable of accepting
No. 12 AWG solids or stranded copper wire. One terminal strip shall be located on
each end of the suppressor unit
2. Are epoxy encapsulated within a nonflammable phenolic enclosure with provision for
mounting to interior of equipment racks, cabinets, or to the exterior of freestanding
equipment. Epoxy encapsulation shall be flame retardant.
3. Are constructed as multistage devices. The first stage shall be a high energy metal
oxide varistor element. The second stage shall consist of fast-acting high power
bipolar silicon avalanche devices. First and second stages shall be interconnected
through a series air core inductor of sufficient current-carrying capacity to permit a
continuous operating current of 15 amperes. Inductors having ferrous or other high
0:41010-023S17560:09-17-09
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17560-2 NCWRF COMPLIANCE ASSURANCE PROJECT
TRANSIENT VOLTAGE SURGE SUPPRESSION DEVICES
permeability core materials are not acceptable. Suppressor assemblies shall be the
automatic recovery .type.
4. Meet or exceed the following performance criteria based on a test surge wave shape
. with an 8-microsecond rise time and a 20-microsecond exponential decay time:
a. Minimum Operating Voltage: 130Vac
b. Maximum Breakdown Voltage: 150Vac
c. Maximum Operating Current: 15 amps
d. Peak First Stage Surge Current: 20,000 amps
e. Maximum First Stage Clamping Voltage: 350 volts
f. Maximum Second Stage Clamping Voltage: 210 volts
g. Ambient Temperature Range: -20 degrees C to +85 degrees C
2.03 ANALOG SIGNAL CIRCUIT PROTECTION
A. Surge suppressors for analog signal circuits shall:
1. Have four lead devices with a threaded mounting/grounding stud.
2. Have a circuit consisting of a 3-electrode gas tube and silicone avalanche devices to
clamp each line to ground. High energy gas tube and silicone avalanche devices
shall be separated by a series impedance.
3. Be epoxy encapsulated with a nonflammable phenolic enclosure. Epoxy
encapsulation shall be flame retardant.
4. Limit line-to-ground and line-to-Iine voltage to 33 volts on 24V dc circuits.
5. Meet or exceed the following performance criteria based on a test surge wave with
8-microsecond rise time and 20-microsecond exponential decay time:
a. Recovery: Automatic
b. Peak Source Current: 10,000 amps
c. Pulse Lift Before Failure: 100 occurrences
d. . Minimum Voltage Clamp Rating: 33 volts
e. Series Impedance: 24 ohms total
f. Temperature Range: -20 degrees C to +85 degrees C
g. Operating Voltage: Less than 30V dc
h. Operating Current: . 4 to 20 mA dc
i. Resistance Line-to-Ground: Greater than 1 megohm
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January 2010
17560-3 NCWRF COMPLIANCE ASSURANCE PROJECT
TRANSIENT VOLTAGE SURGE SUPPRESSION DEVICES
~ ----
2.04 COMMUNICATION CIRCUIT PROTECTION
A. Surge suppressors for copper-based data communication circuits shall:
1. Be designed for the specific data communication media and protocol to be protected
(i.e. telephone, serial, parallel, network, data highway, coax, twinax, twisted pair, RF,
etc,).
2. Provide protection of equipment to within the equipment's surge withstand levels for
applicable standard test wave forms of the following standards:
a. IEC 60-1/ DIN VDE 0432 part 2
b. CCITT K17 / DIN VDE 0845 part 2
c. IEEE C62.31
3. Be epoxy encapsulated with a nonflammable phenolic enclosure. Epoxy
encapsulation shall be flame retardant.
4. Provide automatic recovery.
5. Operate in a temperature range of -1 0 degrees C to +60 degrees C
2.05 DISCRETE SIGNAL CIRCUIT PROTECTION
1. Surge suppressors for discrete signal circuits shall:
1. Have four lead devices with a threaded mounting/grounding stud.
2. Have a circuit consisting of a 3-electrode gas tube and silicone avalanche devices to
clamp each line to ground. High energy gas tube and silicone avalanche devices
shall be separated by a series impedance.
3. Be epoxy encapsulated with a nonflammable phenolic enclosure. Epoxy
encapsulation shall be flame retardant.
4. Limit line-to-ground and line-to-Iine voltage to 60 volts on 24V dc circuits.
5. Meet or exceed the following performance criteria based on a test surge wave with
8-microsecond rise time and 20-microsecond exponential decay time:
a. Recovery: Automatic
b. Peak Source Current: 10,000 amps
c. Pulse Lift Before Failure: 100 occurrences
d. Minimum Voltage Ciamp Rating: 60
e. Series Impedance: 15 ohms total
f. Temperature Range: -40 degrees C to +85 degrees C
g. Resistance Line-to-Ground: Greater than 1 megohm
0:41010-023S17560:09-17-09 17560-4 NCWRF COMPLIANCE ASSURANCE PROJECT
January 2010 TRANSIENT VOLTAGE SURGE SUPPRESSION DEVICES
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17500 for additional requirements.
END OF SECTION
..
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January 2010
17560-5 NCWRF COMPLIANCE ASSURANCE PROJECT
TRANSIENT VOLTAGE SURGE SUPPRESSION DEVICES
SECTION 17600
UNPOWERED INSTRUMENTS, GENERAL
PART 1 . GENERAL
1.01 THE REQUIREMENT
A. The Instrumentation Subcontractor shall furnish, install, test and place in operation process
instrumentation (flow elements, pressure switches, etc.) as scheduled herein together with
all signal converters, transmitters, isolators, amplifiers, etc. to interface all instrumentation,
panels, controls and process equipment control panels with the process controls as shown
on the Drawings and as specified. The Contractor may elect to install primary elements
(flowmeters, etc.) on process lines provided that the Instrumentation Subcontractor provides
full on-site supervision during installation. Mounting of associated transmitters, indicators,
power supplies, brackets and appurtenances shall be provided as specified herein and
shown on the Drawings.
B. It is the intent of this Specification and the Contract Documents that all process taps,
isolation valves, nipples, penetrations, embedded instrumentation supports, conduit, wiring,
terminations, and the installation of process instrumentation on process lines shall be
provided under this Contract. The Instrumentation Subcontractor shall supervise installation
of equipment provided under this Division where installation is provided by others.
C. Tappings and connections for primary process sensors shall be sized to suit each individual
installation and the requirements of the instrument served. It is the Contractor'.s
responsibility to ensure that the location, supports, orientation and dimensions of the
connections and tappings for instrumentation furnished under this Division are such as to
provide the proper bracing, the required accuracy of measurement, protection of the sensor
from accidental damage and accessibility for maintenance while the plant is in operation.
Isolation valves shall be provided at 9l! process taps.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17510 - Cabinets and Panels
C. Section 17698 - Instrumentation and Control System Accessories
D. Un powered instruments furnished with mechanical equipment shall be furnished, installed,
tested and calibrated as specified elsewhere in the Contract Documents.
1.03 QUALITY ASSURANCE
A. ISA Standards and Practices for Instrumentation - latest edition shall apply.
B. Refer to Division 16 for additional electrical standards and requirements.
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NCWRF COMPLIANCE ASSURANCE PROJECT
UNPOWERED INSTRUMENTS. GENERAL
1.04 TOOLS, SUPPLIES AND SPARE PARTS
A. Tools, supplies and spare parts shall be provided for each unpowered instrument as listed in
its Specification Section.
B. In addition to the above requirements, the Instrumentation Subcontractorshall provide spare
parts as specified in individual instrument specification sections.
PART 2 - PRODUCTS
2.01 GENERAL
A. Unless otherwise specified, instruments shall be provided with enclosures suitable for
specified environmental conditions. Field-mounted devices shall be rugged and mounted on
walls or pipe stanchions.
PART 3 - EXECUTION
3.01 INSTALLATION
A. Equipment shall be located so that it is accessible for operation and maintenance. The
Instrumentation Subcontractor shall examine the Drawings and Shop Drawings for various
items of equipment in order to determine the best arrangement for the work as a whole, and
shall supervise the installation of process instrumentation supplied under this Division.
B. Field equipment shall be wall mounted or mounted on two-inch diameter aluminum pipe
stands welded to a 1Q-inch square D-inch thick aluminum steel base plate unless shown
adjacent to a wall or otherwise noted. Instruments attached directly to concrete shall be
spaced out from the mounting surface not less than D-inch by use of phenolic spacers.
Expansion shields in walls shall be used for securing equipment or wall supports to
concrete surfaces. Unless otherwise noted, field instruments shall be mounted between 48
and 60 inches above the floor or work platform.
C. Embedded pipe supports and sleeves shall be Schedule 40, Type 304 stainless steel pipe,
ASA B-36.19, with stainless steel blind flange for equipment mounting as shown on the
Drawings.
D. Materials for miscellaneous mounting brackets and supports shall be 304 stainless steel
construction.
E. Pipe stands, miscellaneous mounting brackets and supports shall comply with the
requirements of Division 5 of the specifications.
3.02 ADJUSTMENT AND CLEANING
A. The Instrumentation Subcontractor shall comply with the requirements of Division 1 ofthese
Specifications and all instrumentation and control system tests, inspection, and calibration
requirements for all instrumentation and controls provided under this Contract and specified
herein. The Engineer, or his designated representative(s), reserves the right to witness
any test, inspection, calibration or start-up activity. Acceptance by the Engineer of any
plan, report or documentation relating to any testing or commissioning activity specified
0:41010-023S17600:09-17-09
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17600-2
NCWRF COMPLIANCE ASSURANCE PROJECT
UN POWERED INSTRUMENTS, GENERAL
- .
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herein shall not relieve the Contractor of his responsibility for meeting all specified
requirements.
B. The subcontractor shall provide the services of factory trained technicians, tools and
equipment to field calibrate, test, inspect and adjust each instrument to its specified
performance requirement in accordance with manufacturer's specifications and instructions.
Any instrument which fails to meet any contract requirements, or any published
manufacturer performance specification for functional and operational parameters, shall be
repaired or replaced, at the discretion of the Engineer, at no cost to the Owner. The
Contractor shall bear all costs and provide all personnel, equipment and materials necessary
to implement all installation tests and inspection activities for equipment specified herein.
C. At least 60 days before the anticipated initiation of installation testing, the Contractor shall
submit to the Engineer a detailed description, in duplicate, of the installation tests to be
conducted to demonstrate the correct operation of the instrumentation and control system.
0, Field instrument calibration requirements shall conform to the following:
1. The Instrumentation Subcontractor shall provide the services of factory trained
instrumentation technicians, tools and equipment to field calibrate each instrument
supplied under this Contract to its specified accuracy in accordance with the
manufacturer's specification and instructions for calibration.
2. Each instrument shall be calibrated at 0,25,50,75 and 100 percent of span using
test instruments to simulate inputs and read outputs. Test instruments shall be rated
to an accuracy of at least five (5) times greater than the specified accuracy of the
instrument being calibrated. Where applicable, such test instruments shall have
accuracies as set forth by the National Bureau of Standards.
3. The Instrumentation Subcontractor shall provide a written calibration sheet to the
Engineer for each instrument, certifying that it has been calibrated to its published
specified accuracy. The Contractor shall submit proposal calibration sheets for
various types of instruments for Engineer approval prior to the start of calibration.
This sheet shall include but be limited to date, instrument tag numbers, calibration
data for the various procedures described herein, name of person performing the
calibration, a listing of the published specified accuracy, permissible tolerance at
each point of calibration, calibration reading as finally adjusted within tolerance,
defect noted, corrective action required and corrections made.
4. If doubt exists as to the correct method for calibrating or checking the calibration of
an instrument, the manufacturer's printed recommendations shall be used as an
acceptable standard, subject to the approval of the Engineer.
5. Upon completion of calibration, devices shall not be subjected to sudden
movements, accelerations, or shocks, and shall be installed in permanent protected
positions not subject to moisture, dirt, and excessive temperature variations.
Caution shall be exercised to prevent such devices from being subjected tD
overvoltages, incorrect voltages, overpressure or incorrect air. Damaged equipment
shall be replaced and recalibrated at no cost to the Owner.
END OF SECTION
0:4101 Q-023S17600:09-17-09
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17600-3
NCWRF COMPLIANCE ASSURANCE PROJECT
UN POWERED INSTRUMENTS, GENERAL
SECTION 17610
INSERT VENTURI FLOW TUBES
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation all insert venturi
flow tubes, with all spare parts, accessories, and appurtenances as herein specified and as
shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17600 - Unpowered Instruments, General
C. Section 17760 - Pressure Indicating Transmitters
1.03 SUBMITTALS
A. The manufacturer shall provide data that substantiates head loss and accuracy for the flow
tubes submitted, which shall include the following information:
1. Differential vs. flow curves.
2. Differential vs. flow data in tabular format.
3. Non-recoverable head loss data.
4. A certified dimensional drawing for each flow tube.
5. Specific equations for calculating airflow in scfm or liquid flow in gpm, as appropriate,
in the following format:
Actual scfm =
constant
x
(Differential p)'Tl X (Operating Press.)'"
(Operating Temp.) 11<
(Gas)
gpm (or mgd) = constant x (Differential P) 1/2
(Liquid)
B. Two copies of each of the following curves with plastic see-through type envelopes shall be
furnished for each venturi tube by the manufacturer:
1. Certified differential pressure vs. flow at nominal static pressures.
2. For airflow, flow coefficient vs. pressure for above curves for a pressure range of
+3 psig from the nominal static pressures.
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17610-1
NCWRF COMPLIANCE ASSURANCE PROJECT
INSERT VENTURI FLOW TUBES
e._.~ .
.
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PART 2 " PRODUCTS
2.01 INSERT VENTURI FLOW TUBES
A. The Contractor shall furnish the exact internal diameter of process piping to the
instrumentation subcontractor for fabricating and calibrating flow tubes. The flow tube shall
have pressure and temperature capabilities at least equal to the surrounding air piping. The
Contractor shall coordinate end conditions for installation allowing for future removal ofthe
tube by use of expansion fittings and flanges in the pipeline, as shown on the Drawings.
B. Insert flow tubes shallproduce a differential pressure proportional to the square of flow. Inlet
and outlet cones shall be made of polyester resin reinforced with 30 percent fiberglass by
weight or stainless steel. The outlet cone angle shall be 100 or smaller for optimum energy
recovery. The venturi meter shall have a cylindrical, precision-machined, 304 stainless
steel throat section with a minimum length equal to 0.5 times its diameter. Center flange
material shall be epoxy-coated carbon steel, and shall match the pressure classification of
the surrounding pipe. Flange gaskets shall be provided for sealing and shall be consistent
with the rest of the gaskets used in the pipeline. Flow tube shall be designed for operation
on air lines with temperature ranging from OOF to 2500F.
C. Static Tapped Insert Venturi 12.0" x 4.80" 304 stainless steel throat and center flange to fit
Ciass 150 flanges; FRP inlet and outlet cones for 2500F max. continuous temperature;
complete with Static Tapped Upstream Spool Piece with two (2) y," NPT High Pressure
Taps, and y," Drain & Vent Taps, constructed of all 304 stainless steel with Class 150 flat
faced flanges.
D. Pressure taps shall be )I,-inch or X-inch NPT as recommended by the manufacturer,
constructed of 304L stainless steel. If the X-inch taps are furnished, appropriate fittings
shall be provided to connect to the Y>-inch process tubing. The low-pressure sensing tap
shall be installed in the cylindrical throat section ofthe flow tube. The static or high-pressure
sensing tap shall be located in the upstream spool piece of the flow tube. Location of the
upstream tap shall be directed by the flow tube supplier. Corner-type high-pressure taps
shall not be acceptable. Flushing/drain assemblies with stainless steel ball valves for
isolation, together with fittings and appurtenances, shall be furnished on all high and low
pressure taps.
E. Accuracy shall be + or - 1.0% of actuai flow rate over the specified flow range. Permanent
head loss shall not exceed 8% of the maximum differential pressure.
F. Sizing of all the insert flow tubes for airflow shall be based on a pressure of 10.5 psig and a
temperature of 1750F.
G. The flow tubes shall be Model HVT-PS as manufactured by Primary Flow Signal, Inc., or
equivalent models by Badger Meter, or manufacturer BIF Products.
PART 3 " EXECUTION
3.01 iNSTALLATION
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NCWRF COMPLIANCE ASSURANCE PROJECT
INSERT VENTURI FLOW TUBES
A. All insert venturi meters and appurtenant work, including pressure taps, shall be installed in
strict accordance with the manufacturer's printed instructions.
B. Refer to Section 17600, Part 3 for additional requirements.
END OF SECTION
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January 2010
17610-3
NCWRF COMPLIANCE ASSURANCE PROJECT
INSERT VENTURI FLOW TUBES
'W._~
SECTION 17650
PRESSURE GAUGES
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the pressure
gauges, with all spare parts, accessories, and appurtenances as herein specified and as
shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17600 - Un powered Instruments, General
C. Section 17698 -Instrumentation Accessories
PART 2 - PRODUCTS
2.01 PRESSURE GAUGES
A. Process gauges shall be stem mount type furnished with factory installed isolating ring seal
or diaphragm seal as specified. The filling medium shall be a noncompressible liquid
suitable for operation in an ambient temperature ranging from -1 OOF to +150oF. All pressure
and vacuum indicators shall be furnished with glass filled polyester, 316 stainless steel case,
and stainless steel bourdon tube and movement. Accuracy shall be +1 percent. Snubbers
and resettable maximum reading pointers shall be provided where scheduled.
B. Low Pressure Gauges requirements are:
Air and non-combustible, compatible gases.
Die cast aluminum case and bezel, with acrylic cover. Exterior
finish is coated gray to withstand 168 hour salt spray corrosion test.
+2% of full scale throughout range at 700F (21.1 OC).
-20" Hg. to 15 psig.
Relief plug opens at approximately 25 psig standard gages only.
20 to 140oF.
4" diameter dial face.
Diaphragm in vertical position. Consult factory for other position
orientations.
Process Connections: 1/8" female NPT duplicate high and low pressure taps - one pair
side and one pair back.
Service:
Housing:
Accuracy:
Pressure Limits:
Overpressure:
Temperature Limits:
Size:
Mounting Orientation:
0:41010-023S1765009-17-09
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17650-1
NCWRF COMPLIANCE ASSURANCE PROJECT
PRESSURE GAUGES
C. The complete gauge assembly and appurtenances shall be fully assembled and tested
prior to field mounting.
D. Process pressure gauges shall be Ashcroft Duraqauqe Model 1279, or WIUA Corl;h
E. Low pressure gauges shall be Dwver Model 2000.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17600, Part 3.
END OF SECTION
0:41010-023S17650:09-17-09
January 201 0
17650-2
NCWRF COMPLIANCE ASSURANCE PROJECT
PRESSURE GAUGES
SECTION 17670
LEVEL SWITCHES (SUSPENDED FLOAT TYPE)
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the float level
switches, with all spare parts, accessories, and appurtenances as herein specified and as
shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17600 - Unpowered Instruments, General
PART 2 - PRODUCTS
2.01 LEVEL SWITCHES (SUSPENDED FLOAT TYPE)
A. Level switches of the direct acting float-operated design shall be comprised ofa hermetically
sealed, approximately 5 inch diameter plastic casing float, containing microswitches and
flexibly supported by means of a heavy neoprene or PVC jacket, with three conductor cable
a minimum of 10 feet in iength. Unless otherwise specified, media specific gravity is 0.95 to
1.05. Microswitches shall be one normally open, and one normally closed, 5A-115V AC
capacity. Float hangers and supports shall be provided as shown on the installation detail
drawings. Float switches shall be Model ENM as manufactured by Flygt.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17600, Part 3 of the specifications.
END OF SECTION
0:4101 0-023S17670:01-13-1 0
January 201 0
17670-1
NCWRF COMPLIANCE ASSURANCE PROJECT
LEVEL SWITCHES (SUSPENDED FLOAT TYPE)
SECTION 17698
INSTRUMENTATION AND CONTROL SYSTEM ACCESSORIES
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the
Instrumentation and Control System Accessories with all spare parts, and appurtenances as
herein specified and as shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17600 - Unpowered Instruments, General
C. Section 17700 - Powered Instruments, General
PART 2 - PRODUCTS
2.01 INSTRUMENTATION AND CONTROL SYSTEM ACCESSORIES
A. General: Accessories include various items of equipment which may be required in the
system but are not scheduled. Accessories are shown on details, flow sheets or plans.
Accessories are also called out in specifications for scheduled instruments and in the
installation specifications. It is not intended, however, that each piece of hardware required
will be specifically described herein. This subarticle shall be used as a guide to qualify
requirements for miscellaneous hardware whether the specific item is described or not.
B. Process Tubing: Process tubing shall be 1/2 x 0.065-inch seamless, annealed, ASTM A-
269 Type 316L stainless steel with Type 316 - compression fittings.
C. Power, Control and Signal Cables: Power, control and signal wiring shall be provided under
Division 16 of the Specifications.
D. Diaphragm Seals: Diaphragm seals shall be provided to systems as shown on the Contract
Drawings, as specified herein and/or for isolation of pressure gauges, switches and
transmitters attached to systems containing chemical solutions or corrosive fluids. As a
minimum, seals shall be of all 316 stainless steel construction. Diaphragms shall be 316L
stainless steel for operating pressures at or above 15 psi and elastomers for operating
pressures below 15 psi. Diaphragm material shall be non-reactive with the process fluid.
Refer to the Instrument Schedules for specific materials requirements. Seal shall have fill
connection, 1/4-inch NPT valved flush port and capable of disassembly without loss of filler
fluid. Where specified, diaphragm seals shall comply with the above requirements and shall
be provided with 316 SS factory filled capillaries. Seals shall be Helicoid Type 100 HA,
Mansfield & Green, Ashcroft, or equal.
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January 2010
17698-1 NCWRF COMPLIANCE ASSURANCE PROJECT
INSTRUMENTATION & CONTROL SYSTEM ACCESSORIES
E. Isolating Ring Seals: For solids bearing fluids, line pressure shall be sensed by a flexible
cylinder lining and transmitted via a captive sensing liquid to the associated pressure
sensing instrument(s).
1. For heavy solids/slurry applications (primary sludge), wherever the associated
pressure instrument is used for control purposes, or where shown on the Contract
Drawings, the sensor body shall be full line size wafer design, with 316 stainless
steel housing and assembly flanges and Buna N flexible cylinder lining for in-line
mounting. The wafer shall have through bolt holes or centerline gauge for positive
alignment with the associated flanged piping. The captive liquid chamber and
associated instrument(s) shall be furnished with threaded drain tap and plug.
2. Isolating ring seals shall be RED Valve Series 40, Ronningen-Petter Iso-Ring,
Moyno RKL Series W, or equal.
3. For all other solids bearing fluids, pressure shall be sensed via a 1/2" diameter
spool-type isolating ring seal mounted on a 1/2" pipe nipple at 900 from the process
piping. An isolation ball valve shall be provided between the process piping and the
ring seal, and a clean out ball valve shall be provided between the ring seal and the
atmosphere. The pressure instrument shall be back or side mounted to the ring seal
such that the gauge or readout may be viewed normally. Isolating ring seals for
normal solids service shall be Red Valve Series 42, Ronningen-Petter Iso-Spool, or
equal.
F_ Filling Medium: The filling medium between instruments, isolating ring seals and chemical
seals shall be a noncompressible liquid suitable for operation in an ambient temperature
ranging from -100F to +150oF.
G. Isolation Valves: Isolation valves shall be 1/2 - inch diameter ball valves with 316 stainless
steel body, 316 stainless steel ball.
H. Piping and Fittings: Piping and fittings shall be heavy wall 316 stainless steel pipe.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17600, Part 3 of the specifications.
END OF SECTION
0:41010-023S17698:09-17-09
January 201 0
17698-2 NCWRF COMPLIANCE ASSURANCE PROJECT
INSTRUMENTATION & CONTROL SYSTEM ACCESSORIES
SECTION 17700
POWERED INSTRUMENTS, GENERAL
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Instrumentation Subcontractor shall furnish, install, test and place in operation powered
process instrumentation (flow elements, level transmitters, etc.) as scheduled herein
together with all signal converters, transmitters, isolators, amplifiers, etc. to interface all
instrumentation, panels, controls and process equipment control panels with the process
control system as shown on the Drawings and as specified. Powered instruments are those
instruments which require power (120 VAC or 24 VDC loop power) to operate. The
Contractor may elect to install primary elements (flowmeters, etc.) on process lines provided
that the Instrumentation Subcontractor provides full on-site supervision during installation.
Mounting of associated transmitters, indicators, power supplies, brackets and
appurtenances shall be provided as specified herein and shown on the Drawings.
B. It is the intent of this Specification and the Contract Documents that all process taps,
isolation valves, nipples, penetrations, embedded instrumentation supports, conduit, wiring,
terminations, and the installation of process instrumentation on process lines shall be
provided under this Contract. The Instrumentation Subcontractor shall supervise installation
of equipment provided under this Divi~ion where installation is provided by others.
C. Tappings and connections for primary process sensors shall be sized to suit each individual
installation and the requirements of the instrument served. It is the Contractor's
responsibility to ensure that the location, supports, orientation and dimensions of the
connections and tappings for instrumentation furnished under this Division are such as to
provide the proper bracing, the required accuracy of measurement, protection of the sensor
from accidental damage, and accessibility for maintenance while the plant is in operation.
Isolation valves shall be provided at ill! process taps.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17510 - Cabinets and Panels
C. Section 17600 - Un powered Instruments, General
D. Section 17698 - instrumentation and Control System Accessories
E. Section 17800 - Analylicallnstruments, General
F. Powered instruments furnished with mechanical equipment shall be furnished, installed,
tested and calibrated as specified elsewhere in the Contract Documents.
0:41010-023S17700:09-17-09
January 2010
17700-1
NCWRF COMPLIANCE ASSURANCE PROJECT
POWERED INSTRUMENTS, GENERAL
-
'--"._-'"~'-'''"''._--''-
1.03 GENERAL INFORMATION AND DESCRIPTION
A. These Specifications are intended to give a general description of what is required, but do
not cover all details which will vary in accordance with the requirements of the equipment
furnished. They are, however, intended to cover the fumishing, the shop testing, the delivery
and complete installation and field testing, of all powered instruments and appurtenances
whether specifically mentioned in the Specification or not.
B. The powered instruments shall be furnished and installed with all necessary accessory
equipment and auxiliaries whether specifically mentioned in these Specifications or not.
This installations shall incorporate the highest standards for the type of service shown on the
Drawings including loop testing of the entire installation and instruction of operating
personnel in the care, operation, calibration and maintenance of all powered
instrumentation.
C. All the powered instrumentation shall be of first class workmanship and shall be entirely
designed and suitable for the intended services. All materials used in fabricating the
equipment shall be new and undamaged.
1.04 TOOLS, SUPPLIES AND SPARE PARTS
A. Toois, supplies and spare parts shall be provided as specified in Section 17050 entitled
"Tools, Supplies and Spare Parts - General".
B. In addition to the above requirements, the Instrumentation Subcontractor shall provide one
remote handheld configuration device for communication with all "smart" instruments
furnished under this Contract. The devices shall be capable of performing configuration,
test, and format functions from anywhere on the 4-20 mA signal loop for a particular
transmitter or by direct connection. The configuration device shall be Fischer & Porter Model
50HC1000, or equal.
PART 2 - PRODUCTS
2.01 GENERAL
A. All instrumentation supplied shall be the manufacturer's latest design. Unless otherwise
specified, instruments shall be solid state, electronic, using enclosures to suit specified
environmental conditions. Microprocessor-based equipment shall be supplied unless
otherwise specified. All instruments shall be provided with mounting hardware and floor
stands, wall brackets, or instrument racks as shown on the Drawings, or as required.
B. Equipment installed in a hazardous area shall meet Class, Group, and Division as shown on
the Drawings, to comply with the National Electrical Code.
C. All field instrumentation for outdoor service shall be furnished in and subsequently installed
in Field Panels or Sun Shade in accordance with the ISA Sheets of the Specifications.
However, it shall not be necessary to provide the manufacturer's NEMA 4 or 4X enclosures
for instruments which will be subsequently mounted in separate in field panels.
D. All instruments shall return to accurate measurement without manual resetting upon
restoration of power after a power failure.
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NCWRF COMPLIANCE ASSURANCE PROJECT
POWERED INSTRUMENTS. GENERAL
E. Unless otherwise shown or specified, local indicators shall be provided for all instruments.
Where instruments are located in inaccessible locations, local indicators shall be provided
and shall be mounted as specified in Subsection 3.01 (B) herein. All indicator readouts shall
be linear in process units. Readouts of 0-100% shall not be acceptable (except for speed
and vaive position). Floating outputs shall be provided for all transmitters.
F. Unless otherwise specified, field instrument and power supply enclosures shall be 316
stainless steel, fiberglass or PVC coated copper free cast aluminum NEMA 4X construction.
G. Where separate elements and transmitters are required, they shall be fully matched, and .
unless otherwise noted, installed adjacent to the sensor. Special cables or equipment shall
be supplied by the associated equipment manufacturer.
H. Electronic equipment shall utilize printed circuitry and shall be coated (tropicalized) to
prevent contamination by dust, moisture and fungus. Solid-state components shall be
conservatively rated for long-term performance and dependability over ambient atmosphere
fluctuations. Ambient conditions shall be, 15 to 50 degrees C and 20 to 100 percent relative
humidity, unless otherwise specified. Field mounted equipment and system components
shall be designed for installation in dusty, humid, and corrosive service conditions.
I. All devices furnished hereunder shall be heavy-duty type, designed for continuous industrial
service. The system shall contain products of a single manufacturer, insofar as possible,
and shall consist of equipment modeis which are currently in production. Ail equipment
provided, where applicable, shall be of modular construction and shall be capable of field
expansion.
J. All non-loop-powered instruments and equipment shall be designed to operate on a 60 Hz
alternating current power source at a nominal 117 V, plus or minus 10 percent, except where
specifically noted. All regulators and power supplies required for compliance with the above
shall be provided. Where equipment requires voltage regulation, constant voltage
transformers shall be supplied.
K. All analog transmitter and controiler outputs shall be isolated, 4-20 milliamps into a load of
0-750 ohms, unless specifically noted otherwise. All switches shail have double-pole,
double-throw contacts rated at a minimum of 600 VA, unless specified otherwise.
L. Materials and equipment used shall be U.L. approved wherever such approved equipment
and materials are available.
PART 3 - EXECUTION
3.01 INSTALLATION
A. General
1. Equipment shall be located so that it is accessible for operation and maintenance.
The Instrumentation Subcontractor shall examine the Drawings and Shop Drawings
for various items of equipment in order to determine the best arrangement for the
work as a whole, and shall supervise the installation of process instrumentation
supplied under this Division.
0:41010-023S17700:09-17-09
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NCWRF COMPLIANCE ASSURANCE PROJECT
POWERED INSTRUMENTS, GENERAL
---
-----.'----..-'.-..--,-,., -
2. Electrical work shall be performed in compliance with all applicable local codes and
practices. Where these specifications and the Drawings do not delineate precise
installation procedures, API RP550 shall be used as a guide to installation
procedures.
B. Sill!jpment Mountinq and Su~port
1. Field equipment shall be wall mounted or mounted on two-inch diameter aluminum
pipe stands welded to a 1O-inch square 1/2-inch thick aluminum steel base plate
unless shown adjacent to a wall or otherwise noted. Instruments attached directly to
concrete shall be spaced out from the mounting surface not less than 1/2-inch by
use of phenolic spacers. Expansion shields in walls shall be used for securing
equipment or wall supports to concrete surfaces. Unless otherwise noted, field
instruments shall be mounted between 48 and 60 inches above the floor or work
platform.
2. Embedded pipe supports and sleeves shall be schedule 40,304 stainless steel pipe,
ASA B-36.19, with stainless steel blind flange for equipment mounting as shown on
the Drawings,
3. Materials for miscellaneous mounting brackets and supports shall be 304 stainless
steel construction.
4. Pipe stands, miscellaneous mounting brackets and supports shall comply with the
requirements of Division 5 of the specifications.
5. Where transmitters are supported from process piping, leveling saddles shall be
provided. Transmitters shall be oriented such that output indicators are readily
visible.
C. Control and Siqnal Wirinq
1. Electrical, control and signal wiring connections to transmitters and elements
mounted on process piping or equipment shall be made through liquid-tight flexible
conduit. Conduit seals shall be provided where conduits enter all field instrument
enclosures and all cabinetry housing electrical or electronic equipment.
3.02 ADJUSTMENT AND CLEANING
A. General
1. The Instrurl)entation Subcontractor shall comply with the requirements of Division 1
of these Specifications and all instrumentation and control system tests, inspection,
and calibration requirements for all instrumentation and controls provided underthis
Contract and specified herein. The Engineer, or his designated representative(s),
reserve the right to witness any test, inspection, calibration or start-up activity.
Acceptance by the Engineer of any plan, report or documentation relating to any
testing or commissioning activity specified herein shall not relieve the Contractor of
his responsibility for meeting all specified requirements.
2. The Subcontractor shall provide the services of factory trained technicians, tools and
equipment to field calibrate, test, inspect and adjust each instrument to its specified
performance requirement in accordance with manufacturer's specifications and
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NCWRF COMPLIANCE ASSURANCE PROJECT
POWERED INSTRUMENTS, GENERAL
instructions. Any instrument which fails to meet any contract requirements, or any
published manufacturer performance specification for functional and operational
parameters, shall be repaired or replaced, at the discretion of the Engineer, at no
cost to the Owner. The Contractor shall bear all costs and provide all personnel,
equipment and materials necessary to implement all installation tests and inspection
activities for equipment specified herein.
3. At least 60 days before the anticipated initiation of installation testing, the Contractor
shall submit to the Engineer a detailed description, in duplicate, of the installation
tests to be conducted to demonstrate the correct operation of the instrumentation
supplied hereunder.
B. Field Instrument Calibration Requirements
1. The Instrumentation Subcontractor shall provide the services of factory trained
instrumentation technicians, tools and equipment to field calibrate each instrument
supplied under this Contract to its specified accuracy in accordance with the
manufacturer's specification and instructions for calibration.
2. Each instrument shall be calibrated at 0,25,50,75 and 100 percent of span using
test instruments to simulate inputs and read outputs. Test instruments shall be rated
to an accuracy of at least five (5) times greater than the ~pecified accuracy of the
instrument being calibrated. Where applicable, such test instruments shall have
accuracies as set forth by the National Bureau of Standards.
3. The Instrumentation Subcontractor shall provide a written calibration sheet to the
Engineer for each instrument, certifying that it has been calibrated to its published
specified accuracy. The Contractor shall submit proposal calibration sheets for
various types of instruments for Engineer approval prior to the start of calibration.
This sheet shall include but be limited to date, instrument tag numbers, calibration
data for the various procedures described herein, name of person performing the
calibration, a listing of the published specified accuracy, permissible tolerance at
each point of calibration, calibration reading as finally adjusted within tolerance,
defect noted, corrective action required and corrections made.
4. If doubt exists as to the correct method for calibrating or checking the calibration of
an instrument, the manufacturer's printed recommendations shall be used as an
acceptable standard, subject to the approval of the Engineer.
5. Upon completion of calibration, devices calibrated hereunder shall not be subjected
to sudden movements, accelerations, or shocks, and shall be installed in permanent
protected positions not subject to moisture, dirt, and excessive temperature
variations. Caution shall be exercised to prevent such devices from being subjected
to overvoltages, incorrect voltages, overpressure or incorrect air. Damaged
equipment shall be replaced and recalibrated at no cost to the Owner.
6. After completion of instrumentation installation, the Instrumentation Subcontractor
shall perform a loop check. The Contractor shall submit final loop test results with all
instruments listed in the loop. Loop test results shall be signed by all representatives
involved for each loop test.
END OF SECTION
-- 0:41010-023S17700:09-17-09
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17700-5
NCWRF COMPLIANCE ASSURANCE PROJECT
POWERED INSTRUMENTS, GENERAL
-------.-
SECTION 17701
MAGNETIC FLOW METERS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the magnetic
flow meters, with all spare parts, accessories, and appurtenances as herein specified and as
shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17700 - Powered Instruments, General
PART 2 - PRODUCTS
2.01 MAGNETIC FLOW METER SYSTEMS
A. Magnetic flow meter systems shall include a wafer style magnetic flow tube and a remote
microprocessor based transmitter that is capable of converting and transmitting a signal from
the flow tube. The magnetic flow meters shall utilize the characterized field principle of
electromagnetic induction, and shall produce DC signals directly proportional to the liquid
flow rate.
B. Each meter shall be furnished 304 stainless steel material with a Teflon liner as specified
herein. Liner shall have a minimum thickness of 0.125 inches. The inside diameter of the
liner shall be within 0.125 of the inside diameter of the adjoining pipe. Liner protectors shall
be provided on all flow tubes.
C. Flow tu be shall be provided with flush mounted Hastelloy-electrodes, or as recommended by
the manufacturer.
D. Grounding rings shall be provided for all meters.
E. All materials of construction for metallic welted parts (electrodes, grounding rings, etc.) shall
be MastelJoy and/or compatible with the process fluid for each meter in accordance with the
manufacturer's recommendations.
F. Flow tube shall be rated for temperatures of up to 1800C and pressures up to 1.1 times the
flange rating of adjacent piping. System shall be rated for ambient temperatures of -30 to
+650C. Meter and transmitter housings shall meet NEMA 4X requirements as a minimum.
When meter and transmitter are located in classified explosion hazard areas, the meter and
transmitter housings shall be selected with rating to meet the requirements for use in those
areas.
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G. The transmitter shall provide pulsed DC coil drive current to the flow tube and shall convert
the returning signal to a linear, isolated 4-20 mA DC signal. The transmitter shall utilize
"smart" electronics and shall contain automatic, continuous zero correction, signal
processing routines for noise rejection, and an integral LCD readout capable of displaying
flow rate and totalized flow. The transmitter shall continuously run self diagnostic routines
and report errors via English language messages.
H. The transmitter's preamplifier input impedance shall be a minimum of 109-1 0'1 ohms which
shall make the system suited for the amplification of low-level input signals and capable of
operation with a material build up on the electrodes.
I. The transmitter shall provide an automatic low flow cutoff below a user configurable low flow
condition (0-10%). The transmitter's outputs shall also be capable of being forced to zero by
an external unpowered signal.
J. The transmitter shall be capable of communicating digitally with a remote configuration
device via a frequency-shift-keyed, high frequency signal superimposed on the 4-20 mA
output signal. The remote configuration device shall be capable of being placed anywhere
in the 4-20 mA output loop. The remote configuration device shall be as specified under
Section 17700. A security lockout feature shall be provided to prevent unauthorized
modification of configuration parameters.
K. Accuracy shall be 0.5% of rate over the flow velocity range of 0.3 to 10.0 m/s. Repeatability
shall be 0.1% of rate; minimum rangeability shall be 100:1. Minimum required liquid
conductivity shall not be greater than 5 uS/cm. Maximum response time shall be adjustable
between 1 and 100 seconds as a minimum. Transmitter ambient temperature operating
limits shall be -10 to +50 degrees Celsius. Power supply shall be 115 VAC, 60 Hz.
L. Provide flow tubes that are factory calibrated and assigned a calibration constant or factor to
be entered into the associated transmitter as part of the meter configuration parameters.
Manual calibration of the flow meter shall not be required. Meter configuration parameters
shall be stored in non-volatile memory in the transmitter. An output hold feature shall be
provided to maintain a constant output during configuration changes. Flow Meters shall be
factory calibrated to NIST traceable standards. Provide certified factory calibration records.
M. Provide flow meter systems with in-situ flow calibration verification. Provide field verification
system (including hardware and software) that automatically tests the flow measurement
system and is capable of producing a printed certificate of calibration verification that is
traceable. (ABB CalMaster 2 Suite, Endress Hauser Proline Fieldcheck with Field Tool
Software).
N. The cables for interconnecting the meter and transmitter shall be minimum 30' long
furnished by the manufacturer. Transmitter shall be mounted on 2-inch pipe stand as shown
in the Drawings or as specified.
O. The flow transmitter shall have at least the following outputs:
. Current Output
. Pulse Output
4-20 mA with Hart communications protocol
0-10,000 pulses/sec
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-" ~
P. Manufacturer's representative shall conduct a field inspection after installation, conduct start-
up of the flow meters, certify in writing the meters' proper installation, and verify calibration of
flowmeters after installation.
Q. Magnetic flow meter systems shall comply with IS09001 standards and be as manufactured
by ABB Magmaster WW version, or Endress Hauser Proline Promag 50W. Manufacturer
to provide a written five year extended warranty from (a) date of issuance of "Certificate of
Proper Installation" and Operation and (b) production of self-calibration report acceptable to
Engineer and Owner, whichever is later.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17700, Part 3.
END OF SECTION
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SECTION 17740
ULTRASONIC LIQUID LEVEL MEASUREMENT SYSTEMS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the ultra$onic
liquid level measurement systems, with all spare parts, accessories, and appurtenances as
herein specified and as shown on the Drawings.
B. The Ultrasonic Level Transmitter shall convert the level above the Chlorine Contact Tank
Effluent weir inflow.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17700 - Powered Instruments, General
PART 2 - PRODUCTS
2.01 ULTRASONIC LEVEL CONTROLLERS
A. Each ultrasonic level monitoring system shall include one ultrasonic level sensor and an
"intelligent" transmitter (controller). The ultrasonic level monitoring system shall be required
to monitor the level of liquids as shown on the Drawings and/or as specified herein.
Location of the sensor and transmitters shall be as shown on the Drawings and/or as
specified.
B. For outdoor installation, the use of approved watertight conduit hub/glands shall be required.
Tank mounting applications shall include mounting flange adaptor supplied by the
manufacturer, which is compatible with the process liquid and the tank flange connection.
C. The level sensor shall be unaffected by moisture droplets on the transducer face and
operate on the ultrasonic echo ranging principle. Sensor accuracy shall be a minimum of
0.25 percent of level measurement range, and include integral temperature compensation
with an accuracy of 0.01 % per 'C. Resolution shall be at least 0.1 percent of full range or
0.08 inches, whichever is greater.
D. The transmitter shall be programmable with an LCD display which shall have the capability
to display a minimum of 4 characters at one time and shall be shielded from direct sunlight.
The transmitter shall compensate for temperature and air density. The controller shall be
capableof performing the following functions: level monitor, both linear arid nonlinear level
to flow relationships, volumetric, level signals, control of up to 5 pumps, alarms, monitor
pump runtime and pump sequencing. Output level signal shall be linear, isolated 4-20 mA
DC. Power requirement for the transmitter shall be 120 VAC, 60 Hz. The units shall have a
NEMA 4X stainless steel or nonmetallic enclosure. The units shall have as a minimum, the
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ULTRASONIC LIQUID LEVEL MEASUREMENT SYSTEMS
required number of programmable set points to perform the functions specified. Each set
point shall operate a set of contacts rated at 10 amps, 120 VAC.
E. Ultrasonic level measurement system shall be the Mini Ranger Plus by Siemens Miltronics.
2.02 ULTRASONIC LEVEL TRANSMITTERS - COMPACT DESIGN SCHEDULE
A. Compact design ultrasonic level monitoring systems shall have the level sensor and the
electronics combined in a single unit.
B. Sensor wetted parts shall be Tefzel with seamless molding design. Both the ultrasonic
transducer and temperature compensation sensing element shall be housed in the same
sensor housing.
C. System accuracy shall be a minimum of 0.25% offull scale reading. Measuring range of the
system shall be up to 26.2 ft with a minimum blanking zone of approximately 10 inches from
the face of the sensor. The system output shall be linear, isolated 4-20 mA DC proportional
to the liquid level. Display shall be LCD type with push buttons for data entry, level display
and status prompts. Display shall have three digits for data display and multisegment
graphic for operational status.
D. The electronics housing shall be rated NEMA 4 and the enclosure shall be molded PVC. For
outdoor installation, the use of approved watertight conduit hub/glands shall be required.
Tank mounting applications shail include mounting flange adaptor supplied by the
manufacturer, which is compatible with the process liquid and the tank flange connection.
Sensor mounting thread shall be 2" NPT.
E. Compact design ultrasonic levei transmitters shall be furnished in standard, extended range,
or intrinsically safe version as specified in the instrument schedule. The intrinsically safe
ultrasonic level transmitter shall be suitable for use in Class 1 and 2, Division 1, Group A
through G area classifications. Power requirements for each version of the ultrasonic level
transmitter listed above shall be 18 to 30 VDC except the intrinsically safe version shall be
12 to 28 VDC. Operating temperature of the unit shall be -400F to 140oF.
F. Ultrasonic level transmitter shall be Seimens Miltronics "Hydro Ranger 200".
PART 3 - EXECUTION
3.01 REQUiREMENTS
A. Refer to Section 17700, Part 3 of the specifications.
END OF SECTION
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ULTRASONIC LIQUID LEVEL MEASUREMENT SYSTEMS
SECTION 17750
NON-INTRUSIVE LEAK DETECTION SYSTEM
PART 1 - GENERAL
1.01 THE REQUIREMENT
The Contractor shall furnish, test, install and place in satisfactory operation the
Sodium Hypochlorite Leak Detection System for the double containment pipe systems
complete with all spare parts, and appurtenances as herein specified and as shown
on the Drawings.
PART 2 - PRODUCTS
2.01 CHLORINE LEAK DETECTION SYSTEM
A. Each sodium hypochlorite dual containment pipe system, shall be equipped with
Leak Detection Sensor(s) reporting the alarm status to a Leak Detection Panel.
When a leak is detected, the audible and visual signals in the Control Panel shall be
activated. Also, a general alarm relay contact shall interact with a plant PLC to
report a General Alarm Condition and the location.
B. Each local Leak Detection Panel shall be equipped an alarm light and test button for
each zone and a local alarm and an alarm silence switch. The panels shall be
NEMA 4X rated and Type 316 stainless steel construction.
C. The Chlorine Leak Detection System shall include the following:
1. Three (3) Leak Detection Panels, one configured for ten (10) alarm zones
and two (2) configured for one alarm zone.
2. Ten (10) Non-Intrusive Leak Sensors.
D. The Leak Detection System shall be manufactured by Guardian Products,
distributed in Florida by Erinton Plastic in Orlando; Phone: (407) 296-3338.
PART 3 - EXECUTION
(NOT USED)
END OF SECTION
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NON.INTRUSIVE LEAK DETECTION SYSTEM
SECTION 17760
PRESSURE INDICATING TRANSMITTERS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation the pressure
indicating transmitters, with all spare parts, accessories, and appurtenances as herein
specified and as shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17700 - Powered Instruments, General
PART 2 - PRODUCTS
2.01 GAUGE PRESSURE INDICATING TRANSMITTERS
A. Gauge pressure transmitters shall be of the capacitance type with a process-isolated
diaphragm with silicone oil fill, microprocessor-based "smart" electronics, and a field
adjustable 30:1 input range. Span and zero shall be continuously adjustable externally over
the entire range. Span and zero adjustments shall be capable of being disabled internally.
Transmitters shall be NEMA 4X weatherproof and corrosion resistant construction with
low-copper aluminum body and 316 stainless steel process wetted parts. Accuracy,
including nonlinearity, hysteresis and repeatability errors shall be plus or minus 0.10 percent
of calibrated span, zero based. The maximum zero elevation and maximum zero
suppression shall be adjustable to anywhere within sensor limits. Output shail be linear
isolated 4-20 milli-amperes 24 VDC. Power supply shall be 24 VDC, two wire design. Each
transmitter shall be furnished with a 4-digit LCD indicator capable of displaying engineering
units and/or milliamps and mounting hardware as required. Overload capacity shall be rated
ata minimum of25 MPa. Environmental limits shall be -40 to 85 degrees Celsius at 0-1 00%
relative humidity. Each transmitter shall have a stainless steel tag with calibration data
attached to body.
B. The capacitance pressure sensor shall be mechanically, electrically, and thermally isolated
from the process and the environment, shall include an integral temperature compensation
sensor, and shall provide a digital signal to the transmitter's electronics for further
processing. Factory set correction coefficients shall be stored in the sensor's non-volatile
rnemoryfor correction and linearization of the sensor output in the electronics section. The
electronics section shall correct the digital signal from the sensor and convert it into a 4-20
mA analog signal for transmission to receiving devices. The electronics section shall
contain configuration parameters and diagnostic data in non-volatile EEPROM memory and
shall be capable of communicating, via a digital signal superimposed on the 4-20 mA output
signal, with a remote interface device. Output signal damping shall be provided, with an
adjustable time constant of 0-36 seconds.
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PRESSURE INDICATING TRANSMITTERS
C. Where scheduled, gauge pressure indicating transmitters shall be calibrated in feet of liquid
for liquid level service.
D. Gauge pressure indicating transmitters shall be 2600T Series as manufactured by ABB,
other equivalent manufactured are acceptable as Rosemount, Endress-Hauser.
2.02 DIFFERENTIAL PRESSURE INDICATING TRANSMITTERS
A. Differential pressure indicating transmitters shall be the same as the gauge pressure
transmitters except for body specifications. Differential pressure units shall be fumished with
close coupled stainless steel three valve manifold assembly. Manifold assembly shall be
HEX Products Model HM, or equal.
B. The electronics sections of differential pressure transmitters shall contain user-selectable
square root extractors to provide a linear 4-20 mA DC flow signal output, when activated.
Square root extractor circuitry shall be activated on the flow transmitters listed in the
Instrument Schedules. In addition, each flow transmitter shall be furnished with laminated
flow versus differential pressure curves wall mounted adjacent to the transmitter.
C. Differential pressure indicating transmitters shall be Model 2600T Series as manufactured by
ABB, other equivalent manufactured are acceptable as Rosemount, Endress-Hauser.
2.03 FLANGE MOUNTED LEVEL INDICATING TRANSMITTERS
A. Flange-mounted tank liquid level indicating. transmitters shall be the same as gauge
pressure transmitters except for body type.
B. The flange mounted sensor shall consist of a special non-corrosive isolating diaphragm with
fill fluid in a sealed capillary system to transmit liquid pressure to the sensing element. A
second isolating diaphragm shall transmit pressure through the fill fluid to the sensing
diaphragm in the center of the capacitance cell. An isolating diaphragm and fluid fill shall
also be provided on the opposite side of the sensing diaphragm to convey atmospheric or
reference pressure.
C. All mounting flanges, diaphragms, O-rings and materials used in construction shall be non-
corroding, compatible with each other and compatible with the liquid being measured.
D. Flange-mounted liquid level transmitters shall be 2600T Series as manufactured by ABB,
other equivalent manufactured are acceptable as Rosemount, Endress-Hauser.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17700, Part 3 of the Specifications.
END OF SECTION
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PRESSURE INDICATING TRANSMITTERS
~--'-',"_.._.",---
SECTION 17800
ANALYTICAL INSTRUMENTS, GENERAL
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The instrumentation subcontractor shall furnish, install, test and place in operation the
analytical instruments as scheduled in the following sections together with all signal
converters, transmitters, isolators, amplifiers, etc. to interface with the process control
system as shown on the Drawings and as specified. The Contractor may elect to install
sensors on process lines provided that the instrumentation subcontractor provides full
on-site supervision during installation. Mounting of associated indicators, sensors, sampling
pumps, power supplies, brackets and appurtenances shall be provided as specified herein
and shown on the Drawings.
B. It is the intent of this Specification and the Contract Documents that ail process taps,
isolation valves, nipples, penetrations, embedded instrumentation supports, conduit, wiring,
terminations, and the installation of process instrumentation on process lines shall be
provided under this Contract. The instrumentation subcontractor shall supervise installation
of equipment provided under this Section where installation is provided by others.
C. Tappings and connections for primary process sensors shall be sized to suit each individual
installation and the requirements of the analytical instrument served. It is the Contractor's
responsibility to ensure that the location, supports, orientation and dimensions of the
connections and tappings for instruments furnished under this Section are such as to
provide the proper bracing, the required accuracy of measurement, protection of the sensor
from accidental damage and accessibility for maintenance while the plant is in operation.
Isolation valves shall be provided at ill! process taps.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17600 - Unpowered Instruments General
C. Section 17698 -Instrumentation and Control System Accessories
D. Section 17700 - Powered Instruments General
E. Analytical instruments furnished with mechanical equipment shall be furnished, installed,
tested and calibrated as specified elsewhere in the Contract Documents.
1.03 GENERAL INFORMATION AND DESCRIPTION
A. These Specifications are intended to give a general description of what is required, but do
not cover all details which will vary in accordance with the requirements of the equipment
furnished. They are, however, intended to coverthe furnishing, the shop testing, the delivery
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ANALYTICAL INSTRUMENTS, GENERAL
and complete installation and field testing, of all analytical instruments and appurtenances
whether speCifically mentioned in the Specification or not.
B. The analytical instruments shall be furnished and installed with all necessary accessory
equipment and auxiliaries whether specifically mentioned in these Specifications or not.
This installation shall incorporate the highest standards for the type of service shown on the
Drawings including loop testing of the entire installation and instruction of operating
personnel in the care, operation, calibration and maintenance of all analytical
instrumentation.
C. All the analytical instrumentation shall be of first class workmanship and shall be entirely
designed and suitable for the intended services. All materials used in fabricating the
equipment shall be new and undamaged.
1.04 TOOLS, SUPPLIES AND SPARE PARTS
A. Tools, supplies and spare parts shall be provided as specified in Section 17000-1.10.
B. Additional items as recommended by the analytical instrument manufacturers or as
described for the specified analytical instrument sections shall be provided.
PART 2 - PRODUCTS
2.01 GENERAL
A. All instrumentation supplied shall be the manufacturer's latest design. Unless otherwise
specified, instruments shall be solid state, electronic, using enclosures to suit specified
environmental conditions. Microprocessor-based equipment shall be supplied unless
otherwise specified. All instruments shall be provided with mounting hardware and floor
stands, wall brackets, or instrument racks as shown on the Drawings, or as required.'
B. Equipment installed in a hazardous area shall meet Class, Group, and Division as shown on
the Drawings, to comply with the National Electrical Code.
C. All field instrumentation for outdoor service shall be furnished in the specified enclosure
complete with sunshield and subsequently installed in Field Panels in accordance with
Section 17500 of the Specifications. However, it shall not be necessary to provide the
manufacturer's NEMA 4 or 4X enclosures for instruments which will be subsequently
mounted in separate in field panels.
D. All instruments shall return to accurate measurement without manual resetting upon
restoration of power after a power failure.
E. Unless otherwise shown or specified, local indicators shall be provided for all instruments.
Where instruments are located in inaccessible locations, local indicators shall be provided
and shall be mounted as specified in Subsection 3.01 B herein. All indicator readouts shall
be linear in process units. Readouts of 0-100% shall not be acceptable (except for speed
and valve position). Floating outputs shall be provided for all transmitters.
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ANALYTICAL INSTRUMENTS, GENERAL
.~
.
F. Unless othelWise specified, field instrument and power supply enclosures shall be 316
stainless steel, fiberglass or PVC coated copper free cast aluminum NEMA 4X construction.
G. Where separate elements and transmitters are required, they shall be fully matched, and
unless othelWise noted, installed adjacent to the sensor. Special cables or equipment shall
be supplied by the associated equipment manufacturer.
H. Electronic equipment shall utilize printed circuitry and shall be coated (tropicalized) to
prevent contamination by dust, moisture and fungus. Solid-state components shall be
conservatively rated for long-term performance and dependability over ambient atmosphere
fluctuations. Ambient conditions shall be -15 to 50 degrees C and 20 to 100 percent relative
humidity, unless othelWise specified. Field mounted equipment and system components
shall be designed for installation in dusty, humid, and corrosive service conditions.
I. All devices furnished hereunder shall be heavy-duty type, designed for continuous industrial
service. The system shall contain products of a single manufacturer, insofar as possible,
and shall consist of equipment models which are currently in production. All equipment
provided,where applicable, shall be of modular construction and shall be capable of field
expansion.
J. All non-loop-powered instruments and equipment shall be designed to operate on a 60 Hz
alternating current power source at a nominal117 V, plus or minus 10 percent, except where
specifically noted. All regulators and power supplies required for compliance with the above
shall be provided. Where equipment requires voltage regulation, constant voltage
transformers shall be supplied.
K. All analog transmitter and controller outputs shall be isolated, 4-20 milliamps into a load of
0-750 ohms, unless specifically noted othelWise. All switches shall have double-pole,
double-throw contacts rated at a minimum of 600 VA, unless specified othelWise.
L. Materials and equipment used shall be U.L. approved wherever such approved equipment
and materials are available.
2.02 ANALYSIS INSTRUMENTS
A. Analyzers shall be industrial grade, suitable for continuous and automatic on-line analysis of
the required parameter under the conditions indicated and shall produce a 4-20 milliampere
transmission signal proportional to the measured variable. Transmission signal output shall
be electrically isolated. Liquid samples shall not pass through housings containing analyzer
electronics. Equipment shall operate satisfactorily in an ambient of minus 20 to plus 120
degrees F and 99 percent relative humidity. Where ambient temperatures will affect
accuracy by more than 1 percent of span, a suitable isothermal enclosure with
thermostatically controlled space heater shall be provided.
B. All enclosures shall be suitable for wall or pipe stand mounting. Indication in process units
and calibration facilities shall be provided at the analyzer. Process fluid temperature will be
within a range of 40 to 90 degrees F.
C. Sample assemblies shall be suitable for submersion or flow through as noted and shall be
chemically inert to constituents of raw wastewater solids or other chemical environment as
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ANALYTICAL INSTRUMENTS, GENERAL
scheduled. Where the sample is drawn prior to filtration, the sample assemblies shall be
capable of handling solids and grease.
D. Each analyzer requiring reagents and/or other replaceable parts shall be furnished with
sufficient chemicals and replaceable parts for startup and acceptance tests and the
specified warranty period.
-
E. Contractor's submittals on these analyzers shall include information on monthly reagent
consumption and a list of replaceable parts required for periodic maintenance and the
recommended operating periods between replacements. Installation of analyzers and
sample preparation shall be in accordance with the analyzer manufacturer's instructions.
F. Analysis instrumentation performance, accuracy and reproducibility shall be as prescribed in
A WW A "Standard Methods for the Examination of Water and Waste Water", latest edition.
For those measurements specified herein, for which performance characteristics are not
listed in the above, the supplier shall state instrument performance characteristics. The
"referee" method shall be as prescribed in EPA Methods for Chemical Analysis of Water and
Wastes (1971).
PART 3 - EXECUTION
3.01 INSTALLATION
A. General:
1. Equipment shall be located so that it is accessible for operation and maintenance.
The instrumentation subcontractor shall examine the Drawings and Shop Drawings
for various items of equipment in order to determine the best arrangement for the
work as a whole, and shall supervise the installation of process instrumentation
supplied under this Division.
2. Electrical work shall be performed in compliance with all applicable local codes and
practices. Where these specifications and the Drawings do not delineate precise
installation procedures, API RP550 shall be used as a guide to installation
procedures.
B. S9J![pment Mounting and SU[!Port:
1. Field equipment shall be wall mounted or mounted on two-inch diameter aluminum
pipe stands welded to a 1O-inch square O-inch thick aluminum steel base plate
unless shown adjacent to a wall or otherwise noted. Instruments attached directly to
concrete shall be spaced out from the mounting surface not less than O-inch by use
of phenolic spacers. Expansion shields in walls shall be used for securing
equipment or wall supports to concrete surfaces. Unless otherwise noted, field
instruments shall be mounted between 48 and 60 inches above the floor or work
platform.
2. Embedded pipe supports and sleeves shall be Schedule 40, Type 304 stainless
steel pipe, ASA B-36.19, with stainless steel blind flange for equipment mounting as
shown on the Drawings.
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3. Materials for miscellaneous mounting brackets and supports shall be 304 stainless
steel construction.
4. Pipe stands, miscellaneous mounting brackets and supports shall comply with the
requirements of Division 5 of the specifications.
5. Where transmitters are supported from process piping, leveling saddles shall be
provided. Transmitters shall be oriented such that output indicators are readily
visible.
C. Control and SiQnal Wirinq:
1. Electrical, control and signal wmng connections to transmitters and elements
mounted on process piping or equipment shall be made through liquid-tight flexible
conduit. Conduit seals shall be provided where conduits enter all field instrument
enclosures and all cabinetry housing electrical or electronic equipment.
3.02 ADJUSTMENT AND CLEANING
A. The instrumentation subcontractor shall comply with the requirements of Division 1 ofthese
Specifications and all instrumentation and control system tests, inspection, and calibration
requirements for all instrumentation and controls provided under this Contract and specified
herein. The Engineer, or his designated representative(s), reserve the right to witness any
test, inspection, calibration or start-up activity. Acceptance by the Engineer of any plan,
report or documentation relating to any testing or commissioning activity specified herein
shall not relieve the Contractor of his responsibility for meeting all specified requirements.
B. The subcontractor shall provide the services of factory trained technicians, tools and
equipment to field calibrate, test, inspect and adjust each instrument to its specified
performance requirement in accordance with manufacturer's specifications and instructions.
Any instrument which fails to meet any contract requirements, or any published
manufacturer performance specification for functional and operational parameters, shall be
repaired or repiaced, at the discretion of the Engineer, at no cost to the Owner. The
Contractor shall bear all costs and provide all personnel, equipment and materials
necessary to implement all installation tests and inspection activities for equipment specified
herein.
C. At least 60 days before the anticipated initiation of installation testing, the Contractor shall
submit to the Engineer a detailed description, in duplicate, of the installation tests to be
conducted to demonstrate the correct operation of the instrumentation supplied hereunder.
D. Field instrument calibration shall conform to the following requirements:
1. The instrumentation subcontractor shall provide the services of factory trained
instrumentation technicians, tools and equipment to field calibrate each instrument
supplied under this Contract to its specified accuracy in accordance with the
manufacturer's specification and instructions for calibration.
2. Each instrument shall be calibrated at 0, 25, 50, 75 and 100 percent of span using
test instruments and specified chemicals of known values to simulate inputs and
read outputs. Test instruments shall be rated to an accuracy of at least five (5) times
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ANALYTICAL INSTRUMENTS, GENERAL
greater than the specified accuracy of the instrument being calibrated. Where
applicable, such test instruments shall have accuracies as set forth by the National
Bureau of Standards.
3. The instrumentation subcontractor shall provide a written calibration sheet to the
Engineer for each instrument, certifying that it has been calibrated to its published
specified accuracy. The Contractor shall submit proposal calibration sheets for
various types of instruments for Engineer approval prior to the star! of calibration.
This sheet shall include but be limited to date, instrument tag numbers, calibration
data for the various procedures described herein, name of person performing the
calibration, a listing of the published specified accuracy, permissible tolerance at
each point of calibration, calibration reading as finally adjusted within tolerance,
defect noted, corrective action required and corrections made.
4. If doubt exists as to the correct method for calibrating or checking the calibration of
an instrument, the manufacturer's printed recommendations shall be used as an
acceptable standard, subject to the approval of the Engineer.
5. Upon completion of calibration, devices calibrated hereunder shall not be subjected
to sudden movements, accelerations, or shocks, and shall be installed in permanent
protected positions not subject to moisture, dirt, and excessive temperature
variations. Caution shall be exercised to prevent such devices from being subjected
to overvoltages, incorrect voltages, overpressure or incorrect air. Damaged
equipment shall be replaced and recalibrated at no cost to the Owner.
6. After completion of instrumentation installation, the instrumentation subcontractor
shall perform a loop check. The Contractor shall submit final loop test results with all
instruments listed in the loop. Loop test results shall be signed by all representatives
involved for each loop test.
END OF SECTION
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ANALYTICAL INSTRUMENTS, GENERAL
-'-^.,~._--"._-_.~.._-. --
SECTION 17851
SINGLE POINT GAS MONITORING SYSTEMS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A The Contractor shall furnish, test, install and place in satisfactory operation the single point
gas monitoring systems with all spare parts, accessories, and appurtenances as herein
specified and as shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17800 - Analytical Instruments, General
1.03 TOOLS, SUPPLIES AND SPARE PARTS
A. One spare H2S sensor.
B. Calibration equipment as recommended by the manufacturer and a one year supply of
calibration gas for each gas measured shall be provided to field calibrate the gas monitoring
systems.
PART 2 - PRODUCTS
2.01 GENERAL
A. A single point hydrogen sulfide continuous monitoring systems shall include a sH2S
electrochemical sensor, and a microprocessor-based transmitter that is capable of
accepting, converting and transmitting signals from the sensor. Other features of the
hydrogen sulfide analyzer are; audible alarm, loss offlow alarm, visuai alarm 3-1/2 digit LED
digital display, NEMA 4X fiberglass enclosure with windows, integral sample pump and
rotameter, lense filter.
2.02 SENSORS
A H2S Sensors shall sample and monitor the stack exhaust air of the odor control system with
the aid of sample pump. Transmitter, sensor assembled in a NEMA 4X enclosure shall be
classified as Class 1, Division 2, Group C and D as specified by the National Electric Code.
1. Electrochemical Volta metric Sensor - Sensors to detect H2S shall be of the
electrochemical gas detector type and shall not require the periodic addition of
reagents.
B. Sensor modules shall contain all relevant sensor information within the module so that the
module may be calibrated off site. This information shall include sensor manufacturer date,
gas type, gas range, calibration data, and default relay parameters. The sensor module
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SINGLE POINT GAS MONITORING SYSTEMS
shall not require a battery or power source to store this data.
C. The allowable distance of tubing between the OCS stack and the sensor/transmitter
assembled in a NEMA 4X enclosure shall be maximum 30 feet.
2.03 TRANSMITTER
A. The transmitter shall be classified as Class I, Division 2, Groups B, C & D. The transmitter
shall have a digital readout to indicate the gas type being monitored and the concentration of
gas present. The display shall sequentially show the gas type and gas concentration. The
transmitter shall have normal, alarm, and fault indicating lights. Alarm level set points shall
be adjustable by means of a hand held infrared controller.
B. Transmitters shall have the following specifications:
1.
2.
Temperature Range:
Drift:
-400C to +60oC
Zero drift, <5% per year
Span drift, <10% per year
0.01 ppm
+ 2% of reading + last digit
+0.5% of full sC.ale
+1.0%^ of full scale
15%-95% relative humidity, non-condensing
2 years (oxygen and toxics)
90 - 130 VAC, 50-60 Hz (internal power supply)
4-20 mA
Rating, 5 amp @ 220 VAC; 5 amp @ 30 VDC
Hydrogen sulfide
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
Resolution:
Accuracy:
Repeatability:
Linearity:
Humidity:
Sensor Life:
Power:
Signal Output:
Relay Contacts:
Gas
C. Calibration shall be performed by a hand held infrared controller. It shall not be necessary to
open the monitor enclosure to perform calibration or adjustment of the unit. With the
exception of a monthly check and recalibrations, no periodic maintenance shall be
necessary.
D. Gas monitoring systems shall be Model LD 17 manufactured by Interscan Corp.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17800, Part 3 of the specifications.
END OF SECTION
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SINGLE POINT GAS MONITORING SYSTEMS
SECTION 17852
PORTABLE HYDROGEN SULFIDE ANALYZER
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish a portable hydrogen sulfide analyzer complete with accessories,
and appurtenances as herein specified.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17000 - Control and Information System Scope and General Requirements
B. Section 17800 - Analytical Instruments, General
PART 2 - PRODUCTS
2.01 GENERAL
A. The portable hydrogen sulfide analyzer shall display low-level concentrations in just
seconds. The unit shall offer an analysis range of 0.003-50 ppm. The portable H2S analyzer
shall utilize an internal rechargeable battery pack or AC power. The unit shall utilize a gold
film sensor. The instrument's selectivity to hydrogen sulfide eliminates interferences from
sulfur dioxide, carbon dioxide, carbon monoxide, and water vapors. When the sample button
is pressed, an internal pump draws air into the instrument. Any hydrogen sulfide in the
sample is absorbed by the sensor which registers a proportional change in electrical
resistance. The hydrogen sulfide concentration is displayed on the LCD, where it remains
until the next sample is taken. Instrument calibration can be verified in the field using the
Functional Test Module. A molded hard carrying case or soft field case give added versatility
and organized storage for the instrument and its accessories.
2.02 ACCESSORIES
A. Molded Hard Carrying Case
B. Rechargeable Battery
C. Functional Test Kit for Field Sensor Verification
2.03 SPECIFICATIONS
A. Portable H2S Analyzer Specifications:
Resolution:
Detection Range:
Precision:
Accuracy
0.001 ppm at Range 0 to 1 ppm at Range 3
0.003-50 rrp
5% Relative Standard Division
Range 0: +0.003 ppm at 0.050 ppm
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PORTABLE HYOROGEN SULFIDE ANALYZER
Range 1: +0.03 ppm at 0.050 ppm
Range 2: +0.3 ppm at 0.050 ppm
Range 3: +2 ppm at 25 ppm
Response Time:
Sample Mode:
10-50 ppm in 13 sec
1.0-10.0 ppm in 16 sec
0.10-1.00 ppm in 25 sec
0.001-0.100 ppm in 30 sec
Survey Mode:
10-50 ppm in 3 sec
1.0-10.0 ppm in 6 sec
0.10-1.00 ppm in 15 sec
0.001-0.100 ppm in 20 sec
Flow Rate:
150 cc/min or 0.15 I/min
Range:
Selectable, Maximum Reading 200 ppm.
Power Requirements:
Internal Battery Pack:
Environmental Range:
100-120 V-, 50/60 Hz, 1 amp
Rechargeable nickel-cadmium (NiCad)
0-40' C, non-condensing, non-explosive
2.05 MANUFACTURE
A. The portable hydrogen sulfide shall be Jerome 631 as manufactured by Arizona Instrument,
or Model 4170SP as manufactured by Interscan.
PART 3 - EXECUTION
3.01 REQUIREMENTS
A. Refer to Section 17800, Part 3 of the specifications.
END OF SECTION
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PORTABLE HYDROGEN SULFIDE ANALYZER
~--,~."._.~--- ~----,_.,_.,-." ,.
SECTION 17900
CONTROL STRATEGY DESCRIPTIONS
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation all equipment as
herein specified and as shown on the Drawings. THE CONTRACTOR SHALL BE
RESPONSIBLE FOR FURNISH COMPLETE FUNCTIONING SYSTEMS AS DESCRIBED
HEREIN.
B. Together with the control system input/output schedule, the equipment specifications
(including functional descriptions for local equipment control panels), and the Drawings, the
functional control descriptions describe the required operation, monitoring, and control ofthe
facilities included in this Contract.
C. The following modules must be included to all the systems, even if they may not appear
elsewhere in the Contract Documents or drawings. The modules are:
1. Analog Inputs
ADS - Analog Data Scaling
ALC - Amplitude Limit Check
DIFIL - Digital Filter
EOC - Engineering Unit Conversion
ROC - Rate-of-Change
2. Discrete
PFRST - Power Failure Restart
DEVAL - Alarm Deviation
PIDOUT - PID Output Processing
HC - Hand Control
D. All equipment and services required in equipment local control panels provided to implement
the monitoring and control functions described herein or in the process input/output
schedules shall be provided by the Contractor through individual equipment suppliers.
E. Unless specifically stated otherwise, all interconnected wiring between all instruments,
panels, controls, and other devices listed in the functional descriptions as required to provide
all functions specified herein shall be furnished by the Electrical Contractor under Division
16. The Electrical Contractor shall provide all cable and conduit required to carry all signals
listed in the process input/output schedules. Special cables that are required for
interconnection between sensors or probes and transmitters or signal conditioners shall be
furnished with the instrumentation devices by the equipment supplier.
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1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17910- Instrument Schedule
B. Section 17920 - Control System Input/Output Schedule
PART 2 - FUNCTIONAL CONTROL DESCRIPTIONS, GENERAL
2.01 DEFINITIONS
A. RUNNING status signals shall be from auxiliary contacts provided with the motor control
equipment (I.e., starter, VFD, SCR, etc.).
B. AUTO status signals shall be defined as HAND-OFF-AUTO switch in the AUTO position or
process control system in AUTO (versus MANUAL).
C. FAIL status signals shall be defined as motor overload and/or any other shut down mode
such as overtorque, overtemperature, low oil pressure, high vibration, etc.
D. READY status signal shall be defined as all conditions, including equipment control power,
satisfied to permit remote control of the equipment.
2.02 CONVENTIONS
A. Operator workstation graphic display symbols and indicator lights on all MCC's, control
panels, starter enclosures, etc. shall conform to the following color convention:
Condition
Color
Running/On/Open
Auto/Ready
Stopped/Off/Closed
Fail/Alarm
Generic Status
Red
White
Green
Amber
Blue or White
2.03 PROCESS CONTROL
A. Where setpolnts, operating limits, and other control settings are provided by the functional
descriptions, these settings shall be initial settings only and shall be used for assistance in
the initial startup of the plant. All such settings shall be fully adjustable and, based on actual
operating conditions, the instrumentation subcontractor shall make all necessary
adjustments to provide smooth, stable operation at no additional cost to the Owner.
B. Provision shall be made in PLC logic to suppress nuisance alarms and control actions by the
following means:
1. For alarms and control actions derived from analog input signals, use adjustable
time delays and dead bands.
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2. For alarms and control actions derived from discrete input signals, use adjustable
time delays.
3. Initial settings for time delays shall be 10 seconds (range 0-120 seconds). Initial
settings for deadbands shall be 5% of span (range 0-100%).
C. All setpoint control shall be by PID control algorithms. Where only proportional control is
specified, tuning constants shall be used to reduce the Integral and Derivative functions to
zero. All setpoints, sequence times, sequence orders, dead bands, PID tuning parameters,
PLC delay timers, variable speed operating range limits, and similar control constants shall
be accessible and alterable from the Operator Workstations.
D. All PLC-controlled equipment shall be provided with adjustable start and stop delays in the
PLC control logic. Unless otherwise specified, these delays shall be initially set at one
minute. Unless otherwise specified, all equipment shall automatically restart after a power
failure utilizing adjustable start delay timers in MCC's and equipment control panels. Unless
otherwise specified, all PLC control strategies shall be based upon automatic restart after a
power failure and shall return to a normal control mode upon restoration of power.
E. The PLC shall be capable of receiving initial run-time values for existing and proposed
equipment. Initial run-lime shall not automatically be assumed to be zero.
F. Equipment failure shall be generated through the PLC for any drive, motor, etc. for which a
run command has been issued, but for which the PLC is not receiving a run status signal.
The failure shall be logged.
G. Instrument failure shall be generated via the operator workstations for any instrument which
is generating a signal which is less than 4 mA or greater than 20 mA
H. A control program that controls multiple pieces of equipment shall not be prevented from
running because not all of the equipment is in AUTO. If equipment within an equipment
chain is required to be running for program operation and it is running in HAND or MANUAL,
then the program shall run and control the other equipment that is in AUTO.
I. All PLC wait states (internal time delays, etc.) after an operator action shall be displayed on
the Operator Workstation.
2.04 PROCESS CONTROL MODULE
A. The control strategies are written descriptions of the programming required to implement
regulatory and sequential control of the unit processes, as shown on the drawings. Control
strategies shall fully reside in the memory of the designated PLC unit. The process input
and outputs, virtual variables and manual inputs referred to in the control strategies are
listed in the associated schedules Sections 17920A and 17920B. The referenced control
modules are listed in the process control module schedule. Inter-module linkages shown on
the P and ID's are not included in the input/output lists or the control strategy descriptions.
The instrumentation subcontractor shall generate a complete listing of all virtual discrete and
analog points that are used to link modules.
Certain modules that apply to all analog inputs, virtual variables, PID controllers and discrete
control are not shown on the P and ID's drawings. Provision shall be made to include the
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CONTROL STRATEGY DESCRIPTIONS
following modules, even though one or more of the modules may be disabled by the user for
a given data base point:
The above process control modules shall be memory resident in the PLC Programmable
Logic Control.
1. Analog Inputs and Virtual Variables - ADS; ALC; DIFIL, EUC, ROC.
2. Discrete and Analog Control- PFRST; DEVAL; PIDOUT; HC.
The P and ID's do not show all of the modules required for sequence control. In most cases,
discrete logic functions are depicted by the symbol I and the associated control strategy
number. The required sequence logic features are specified in the control strategy
description.
2.05 MODULES DESCRIPTION
A. A functional description of each process control module is given in this Section. Module
descriptions, equations are provided below to define the functional requirements of each
module. The regulatory and sequence control modules required are shown on the P and
ID's and specified in the control strategy schedules.
B. Each module shall be structured to permit the realization of all control strategy linkage
requirements. In addition, each module shall be designed so that bumpless, balance free
transfers are obtained during operating mode changeover and initialization. Where
applicable, user-changeable parameters shall be automatically defaulted to a pre-set value if
a specific value is not given during system generation.
C. Modules shall be based upon the process control unit software requirements specified,
configured as necessary to accomplish the functions described herein. The Contractor may
substitute functionally equivalent modules subject to the Engineer's favorable review.
D. ACC-Accumulation Module - The ACC module includes three sub-modules, namely, A
(Average), C (Counter) and I (Integrate). Each of these modules shall be designed to
accumulate over a period specified for periodic logging, e/g/, eight hour shifllogs. Demand
logs of variables that employ the above modules shall produce an intermediate result. Each
of the modules is specified below.
1. ACC-A: The ACC-A module shall average a variable over the interval
specified for periodic logging of the variable. Each sample shall be weighted equally
in the average.
2. ACC-C: The ACC-C module shall accumulate pulses from pulse counter type
input devices over the interval specified for periodic logging of the variable.
Provision shall be made to include a scale factor which shall be user-determined
from the maximum number of pulses than may be accumulated during the maximum
permissible logging interval. The next higher power of two shall be entered as the
scale factor.
3. ACC-I: The ACC-I module shall integrate a variable over the interval specified for
periodic logging of the variable. The module shall include an integration factor to
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CONTROL STRATEGY DESCRIPTIONS
eliminate truncation error. The formula for the integration factor shall be given by the
following equation:
IF
[T1 -1 * T2/S1 * S2 -1 ]
where:
IF
T1
T2
S1
integration factor
period of integration
sample period of integrated variable
equivalent span of unintegrated variable and is defined as the
maximum value of integration over the logging period
span of integrated variable
S2
E. ADS-Analoq Data Scaling - The ADS module shall scale all analog inputs to a common span
and shall normalize the digital representation of each analog input to a percent of the
operating span. The processed value shall be expressed as a binary number that specifies
the analog input's position on a straight line lying between zero and full scale as defined for
a given input by the zero span values in the data base.
F. ALC-Amplitude Limit Check - The ALC module shall perform dual level, high/low amplitude
limit checking and shall identify a limit violation every time a measured or virtual variable
goes out-of-Iimits and retums back into limits. The module shall determine the time at which
each limit excursion occurred. A dead band shall be provided on each limit and shall be
expressed as a percentage of span or in engineering units.
G. AR-Analoq Record - The AR module shall be employed to monitorlrecord measured and/or
calculated analog values. In certain cases, the AR module is represented by FR, PR, ZR,
etc. on the drawings to reflect monitoring/recording of flow, pressure, position, etc. in the
historical database.
H. ASIM-AnaloRlDPut Simulation - The ASIM module shall be used to simulate analog inputs
that are affected by changes in associated manipulated variable and/or other independent
load variables. Inputs shall include up to two analog inputs (I), two associated discrete
inputs (D) and the current analog output (M). ASIM shall execute the following equation:
M = M + K1*D1*11 + K2*D2*12 + K3(R - 0.5)
Discrete inputs (D) are converted to analog values (0 or 1) before execution. The value R is
a random number between 0 and 1.
I. A VE-Averaq~ - The AVE module shall calculate the process variable (PV) as the average of
N inputs as follows:
PV = (SUM)I; N-1
i = 1
where:
- value obtained by input
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CONTROL STRATEGY DESCRIPTIONS
N
number of inputs under scan control (e.g., if N inputs are being
averaged and the operator removes one of the inputs from the scan
list, only (N-1) inputs are averaged).
J. CALC-Calculation - The CALC module shall solve user-specified arithmetic equations. The
equations shall be as specified on the P and ID's, the virtual variable schedule or the
associated control strategy description. As a minimum, CALC shall include the arithmetic
operators - add, subtract, multiply and divide; table look-up/interpolation; the relational
operators -less than or equal, equal, not equal, greater than or equal, greater than; and the
"conditional if' statement.
K. DEC-Decision - The DEC module shall compare two process variables, virtual variables
and/or set points and operate switches based on their relative magnitude. The current
status of this relationship shall be displayed as the output being "true" of "false".
The decision shall be made as follows:
1. If P1 GT.(P2+DP), the decision is "true" and the output = 1.
2. If (P2-DP)LE. P1 LE.(P2 + DP), the output shall remain unchanged.
3. If P1 L T.(P2 - DP), the decision is false -and the output = O.
where:
P1 and P2
DP
-
process variables, virtual variables and/or setpoints
module deadband
L. DEL-Delay - The DEL module shall generate a discrete output with a variable time delay
after the detection of a real or virtual discrete input. The discrete output shall be either a
momentary output (one second) or a maintained output. If the input to the DEL module is
removed before a discrete output is generated, lhen the output of DEL shall remain
unchanged and the timer shall be reset.
M. DEVAL-Deviation Alarm - The DEVAL module shall provide the following functions:
1. Compute the En = Rn - Bn
where:
En
Rn
Bn
-
-
error from set point
set point value
process variable
-
2. Check the deviation of the measurement from the set point against limits.
3. Initialize DM (change in value of manipulated variable) to zero.
N. DIFF-Difference - The DIFF module shall solve the following equation:
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.
--,_._~.__.__.- .-'~
-_..-..._-- ~
Output = K1 (X) - K2 (Y) + K3
where:
X and Y
K1 and K2
K3
-
-
input values
scaling coefficients
bias
-
-
O. DIFIL-Diqital Filter- The DIFIL module shall be of the exponential smoothing type and shall
be used to smooth time-varying analog input data in accordance with the equation given
below. The filter time constant shall be a function of the sampling period and the digital
filtering constant, both of which shall be adjustable.
PVn = PVn_1 + K(Xn-PVn-1)
where:
PVn
-
new filtered value
PVn-1
iast filtered value
K
-
digital filtering constant which is given by tIT
where:
T
required time constant
t
The sampling period
X
new unfiltered value
P. DIV-Divider - The DIV module shall solve the following equation:
Output = K1 * (Y/X) + K2
where:
X and Yare input variables
K 1 - scaling coefficient
K2 - bias
Q. EOR-Exclusive OR - The EOR module shall generate an output if, and only if, one of the
inputs has the value "1 ".
R. EUC-Enqineerinq Unit Conversion - The EUC moduie shall convert scaled analog data to
engineering units by means of the following equation:
Y = (H - L) (D/DH) + L
where:
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Y
value in engineering units
H
-
-
high value of span, expressed in engineering units
L
-
-
low value of span, expressed in engineering units
o
digitized scaled input value in counts
DH
full scale digitized value in counts
S. HC-Hand Control- The HC module operates together with other modules as appropriate to
provide operator requested manual state changes (start, stop, etc.).
T. HS-Hiqh Select - The HS module shall solve the following equations:
If X GT.Y, then output = X
If X L T.Y, then output = Y
where:
X and Yare input values
U. LDFW 1/5 - Lead/Follow Modules 1-5 - All LDFW modules have the following common
characteristics:
1. With the exception of LDFW 3, all LDFW modules sequence the operation of
equipment units by outputting discrete values to an associated MINT module.
2. All LDFW modules shall sequence the operation of equipment units to equalize the
elapsed running times of each unit from the time of original startup or a major
overhaul (when the user resets the run time to zero). Provision shall be made for
both automatic, semi-automatic and manual sequence selection. Automatic
sequence selection shall involve the addition of an available equipment unit with the
least run time when another must be started and the removal of the unit with the
most run time when a unit must be stopped. Automatic sequence selection shall be
inhibited by the manual entry of a desired sequence. Provision shall also be made to
semi-automatically reorder the manually entered lead/follow sequence every "X"
days (value entered by user) so that the unit with least amount of run time is
assigned to "lead" duty and the unit with the most amount is assigned to "standby" or
"last-follow" duty.
3. If an equipment unit fails while in operation or becomes unavailable before it is
commanded to start (as detected by the associated MINT module), the LDFW
module shall immediately drop the unit from the sequence and reorder the sequence
according to the above rules. An alarm shall be given if the last available unit is
operating.
4. User-adjustable time delays shall be provided between the initiation and execution of
all discrete output commands (staggered starting and stopping of drives).
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"--'--
-
.
_.,_._-_..~~.
._"...-.--._---
V. LDFW1-Lead/Follow Sequence Control (Iype 1) - This function is used to control the
starting, stopping and sequencing of two or more pumps operating into a pressure system.
LDFW1 starts a pump whenever the discharge pressure Pa drops below a user-adjustable
value Pre-set, and stops the last-started pump whenever the aggregate pumping capacity of
the running pumps iess one (Fb) exceeds the actual flow (Fa) by more than a
user-adjustable percentage value, Fx i.e., when 100' ((Fb-Fa)/Fb)GT.Fx. A time delay
between starting or stopping pumps shall be provided to stabilize the process. The point
number and the low limit value of the discharge pressure and the point number of the
discharge flow Fa will be entered at the operator workstations by the operator. In general, if
X pumps are provided, a maximum of (X-1) pumps may run simultaneously.
W. LDFW2-Lead/Follow Sequence Control (Type 2) - This function is similar to the LDFW1
function, except that the value of the speed control signal is used for starting an additional
pump in lieu of a fall in discharge pressure. When the speed control signal (Sa) raises
above the speed setpoint limit (Ss), the nex1 pump in sequence is started. Whenever a
motor is started or stopped, the set point Ss shall be increased or decreased by a value (D)
from a table determined by the numberof motors which are running in order to minimize
process bumps.
X. LDFW3-Lead/Follow Sequence Control (Type 3) - LDFW3 sequences the operation of a
series of equipment items to equalize the running times that have elapsed since each was
originally placed in service or given a complete overhaul. LDFW3 does not control the
starting or stopping of equipment. These functions are performed as described in the
associated control strategy.
Y. LDFW4-Lead/Follow Sequence Control (Type 4) - This function is used to control the
starting, stopping and sequencing of two or more pumps operating in conjunction with a level
control system. LDFW4starts the lead pump whenever the level increases above a pre-set
value L 1, and the first follow pump when the level increases above L2 and so on with the
(x-1 )the follow pump being started when lhe level increases to Lx-1. If specified in the
associated control strategy, an additional starting requirement for a follow pump is that the
previously-started pump in the sequence is running at maximum output.
LDFW4 stops the pumps in the reverse order with the last started pump being stopped when
the level drops below a pre-set value L(x-1 )d, the next to the last one at L(x-2)d, and so on,
until the lead pump is stopped. The pump start and stop levels and pump sequence for
each control strategy are entered via the operator workstations.
Z. LDFW5-Lead/Follow Sequence Control (Type 5) - LDFW5 is used to start, stop and
sequence two or more pumps operating in conjunction with a level and flow control system.
LDFW5 starts the lead pump whenever the level increases above a pre-set value L 1, the
first follow pump when the level increases above L2 and so on until the (x-1) the follow pump
is started when the level exceeds L(x-1).
LDFW5 stops the pumps in any nominated order based on either level signals or flow
signals; i.e., a nominated pump can be shut off when either the level in the sump or the
aggregate pump output flow falls to an adjustable, pre-set value. The pump start levels, stop
levels, or flow values and the pump sequence is entered at the workstations.
AA. UN-Linear - The L1N module shall calculate the process variable (PV) as a straight line
function of the digitized input by the following equation:
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PV = (Vh-Ve)*((X-De)/(Dh*De))+Ve
where:
Vh
full scale value in engineering units
Ve
zero scale value in engineering units
D
-
digitized scaled input value in counts
Dh
-
full scale digitized value in counts
De
zero scale digitized value in counts
AB. LS-Low Select - The LS module shall solve the following equations:
If X L T.Y, then output = X
If X GTY, then output = Y
where:
X and Y = input values
AC. MAXMIN-Maximum/Minimum Identification - The MAXIMUM module shall record the
maximum and minimum data value generated by measured and virtual variables during a
designated time interval. Two maximum/minimum identification detection modes shall be
provided. The. first shall consist of monitoring discrete data values which are sequentially
compared against the previously detected discrete maximum and minimum values. The
second mode shall consist of averaging the three most current data values and then
comparing the average against both existing maximum and minimum averaged values. The
second mode is provided to reduce the effects of random noise. For both modes, previously
detected maximum and minimum values shall be replaced whenever exceeded by current
high and low data values, respectively. The time of maximum and minimum value
occurrences shall be recorded.
AD. MINT-Motor Interface - MINT shall control the automatic and manual operation of equipment
with the following combinations of discrete interface points.
1. Ready, running, start/stop
2. Closed, opened, ready, open, close
3. Running (high speed or forward), running (low speed or reverse), ready, start (high
speed or forward), start (low speed or reverse), and stop.
Outputs shall be maintained or momentary as required by the electrical elementary
diagrams.
Operation shall be based upon an internal delay timer, ready alarm status and a discrepancy
alarm status.
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CONTROL STRATEGY DESCRIPTIONS
-
. -~,
"_"'_"_,",<.',.u___
MINT shall first check the equipment ready status. If the ready status is not present, MINT
shall enter a ready alarm state and the equipment shall be stopped by the associated control
strategy (or controi module). Upon recovery of ready status, the equipment will not restart
until subsequently commanded by the associated control strategy (or control module).
If the control command changes (I.e., from start to stop), the appropriate discrete output
shall be generated and a delay time loaded into a counter. During the countdown to zero,
the commanded state shall be compared with the running status. When the two agree, the
counter shall be reset and cleared.
If the counter times out before the requested state is achieved, the equipment shall enter a
discrepancy alarm and the run/start command shall be removed by the associated control
strategy and the next unit in sequence shall be started. When the requested state and run
status again agree, the discrepancy alarm shall be cleared (however, alarm event remains in
the alarm queue until acknowledged by the operator). The discrepancy alarm shall be
disabled where multiple sources of control commands would otherwise cause alarms. MINT
shall continually monitor equipment and alarm status during normal operation.
AE. MSEL-Median Selector - The MSEL module shall select the intermediate value of three real
time measurements of the same process variable. The intermediate value shall be
employed for recording and control purposes. If the differentials between the intermediate
value and the high and low values exceed adjustable, pre-set limits, the time and nature Df
the limit violation shall be recorded.
AF. MSIM-Motor Simulation Module - The MSIM module shall be used to simulate the operation
of pumps, blowers, and other items of rotating motor driven equipment. Inputs to MSIM shall
include a desired state discrete input (D) and a "ready" state discrete input (W). A delay
time (T) shall be provided between a command to start (D=1) and a run status output (R=1).
MSIM shall perform as follows:
If W=1 and D=1; after (T) times out, R=1
If W=1 and D=O; R=O
If W=O, R=O
AG. MUL-Multiplier - The MUL moduie shall employ the following equation:
Output = K1 * (X) * (Y) + K2
where:
X and Yare the values to be multiplied
K 1 = scaling coefficient
K2 = bias
AH. NOT-Not - the NOT module shall generate an output "1" if, and only if, the input does not
have the value "1 ".
AI. OR-Or - The OR module shall generate an output "1" if one or more of the inputs are "1 ".
AJ. PFRST-Power Failure Restart- Major plant equipment is presently installed with time-delay
relay circuits to allow for automatic, sequenced start-up. When power returns, equipment
will come on according to the pre-set hardware time delay. It is imperative that the control
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CONTROL STRATEGY DESCRIPTIONS
system work in conjunction with this hardwired function. In order to do so, the PFRST
function will perform the following:
1. Monitorthe "AC Power Lost" (Alarm contact provided by the controller uninterruptible
power supply). This will be accomplished by wiring it to a digital input. This digital
input will be continuously scanned.
2. When a power loss is detected, the condition will be alarmed to the workstations and
the software will freeze the operation of all discrete and analog alarm primitives (I.e.
system will track but not alarm conditions caused by the power failure) and all control
executing in the affected controller (s) and the maximum outage timer shall start.
The freeze shall remain in effect until power has returned. During this freeze, all
analog and digital outputs will remain at their last commanded state.
3. When power has returned, the controller will continue to be frozen for a pre-set time
(Max Restart Time). This will allow all time-delay relays to time out and the
hardwired sequencing function to be achieved.
4. After this amount of time, the freeze will be released, and all discrete and analog
control functions will continue at the point of execution before the power failure. All
discrete equipment that did not return to its original state will have its outputs turned
offand a deviation alarm will be issued. This mode of execution will occur unless the
maximum outage timer has timed out.. If this timer times out all equipment will be
returned to the manual control mode and a stop command issued.
AK. PID-Proportional plus InteQral plus Derivative - the PID module is an incremental version of
the feedback control algorithm used in analog controllers. The result of each module
calculation is an incremental change to the manipulated variable which may be a valve
position or motor speed as shown on the Drawings. The PID module shall either have its
output connected to a final control element or cascaded to another module. The output of
the control module (DM) includes all changes computed for the proportional (DMp), integral
(DM,), and derivative (DMd) modules as shown in equation (1).
DM = DMp + DM, + DMd
Equation (1)
other control modes, such as P, PI, PD and I shall be derived from equation (1) by deleting
terms as required. In order to provide this modularity, the PID module shall be divided into
three blocks (P, I, and D).
The required modules are presented below:
1. Proportional Module (DM(U - Two proportional modules shall be provided. Equation
(2) is based on the error between set point and the process variable and should be
used only for fast loops where set point response is important, such as in a cascade
control system.
DMp=(1 OO/PB) * (DE") Equation (2)
Equation (3) is based on the process variable and should be used for most cases
when coupled with the integral module because it results in a lower degree of
process upset due to set point changes.
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CONTROL STRATEGY DESCRIPTIONS
-
.... -- ----'."-"~-".-.,..~ ._,,,
_._---,~._-~------_.'.. '
DMp = (1 OO/PV) * (- DBn)
Equation (3)
2. Integral Module (DMi) - Equation (4) represents the integral module and is based on
the error between set point and the process variable.
DM; = (100/PB) * (DtIT;) * En Equation(4)
3. Derivative Module (DMd) - Equation (5) is a process variable-based module which is
sensitive to process changes but insensitive to set point changes.
(DM,) PV
(-100/PB) * (T, lot) * (DBn) Equation (5)
LEGEND
DM
-
total change in control module output
(DMp)E
(DMp)pv
change in M due to error-based proportional module
change In M due to process variable-based
proportional module
OM;
change in M due to integral module
(DM,)pv
change In M due to process variable-based
derivative module
PB
proportional band in percent
Dt
sample time interval
T;
integral time constant
T,
derivative time constant current
En
current error (set point minus process variable)
D
incremental change
DEn
current change in error DE" = (E" - E,,_,)
D(DE,,)=
current second order change in error D (DE") = (DE" - DEn_,)
Bn
current change in process variable subscript "n" =
present value
subscript"n-1" =
previous value
AL. PID-G - PID plus Gap (deadband) - The PID-G module shall introduce a gap ordeadband in
the PID module. An output shall be computed only when the error exceeds the dead band
limit which shall be set by the deviation alarm limits. If the error is within the dead band, the
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CONTROL STRATEGY DESCRIPTIONS
output shall be maintained at its last calculated value. The dead band limit settings may be
asymmetrical with respect to zero error.
AM. PID-R - PID plus Ratio - The PID-R module provides a ratio computation on the setpoint
input signal in addition to the normal PID computation. During the cascade mode of
operation; the set point (SP) is calculated as follows:
SP = (1* R + B)
where:
I
R
B
-
-
input value upon which ratio computation is performed
ratio coefficient
bias coefficient
AN. PIDOUT - PID Output Processinq - The PIDOUT module shall process the calculated DM for
output to another PID controller or to the analog output subsystem. The calculated DM shall
be clamped to a maximum of 15 percent per control strategy calculation unless otherwise
noted, and the excess DM (if any) shall be discarded.
Where specified in a control strategy, PIDOUT may be employed to limit the maximum rate
of change of a PID controller output when the controller is in the automatic control mode.
AO. RAT-Ratio - The RAT module shall solve the following equation:
Output = R * (PV) + K
where:
R
PV
K
-
-
ratio value or set point
value of noncontrolled variable
bias coefficient
-
AP. ROC-Rate-of-Change Limit Check - The ROC module shall identify a limit violation every
time the time rate-of-change of a measured or virtual variable exceeds or becomes less then
a specified limit. The module shall determine the time at which each rate-of-change limit
excursion occurs. A rate-of-change limit-in /rate-of-change-Iimit-out dead band shall be
provided and shall be expressed as a percent of the rate-of-change limit value or in
engineering units.
AQ. SEL-Selector- The SEL module shall permit the selection of two or more signals (discrete or
analog). Operation of the SEL module may be either under manual or program control.
AR. SG-Siqnal Generator - The SG module shall generate one or more adjustable setpoint
signals in response to discrete inputs from any source.
AS. SGAR-Siqnal Generator with Automatic Output Rampinq - The SGAR module shall provide
an output signal that can be ramped at an adjustable rate from maximum to minimum and
vice versa in response to a discrete input signal from any source. Ramp up and ramp down
LPT's shall be enabled on the operator workstation when selected.
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AT. SGT-Signal Generator Time Based - The SGT module shall generate a setpoint signal with
an amplitude that is dependent upon the time of day or elapsed time since last reset. The
SGT module shall accept up to 48 manually entered amplitude values for a 24 hour day or
elapsed time period.
AU. SH-Sample and Hold -The SH module shall accept the digital value of an analog or virtual
variable and produce an output of equal value when a discrete input signal is "high" or "on".
When the discrete input signal is "low" or "off', the SH module shall maintain its last output
and disregard changes to its input.
AU. SQRT-Square Root - The SQRT module shall calculate the process variable (PV) as a
square root function of the digitized value by the following equation:
PV = (Vh-VLl * ((X-DLl/(Dh-DLl)5 + VL
where:
Vh - full scale value in engineering units
VL - zero scale value in engineering units
D - digitized scaled input value in counts
Dh - full scale digitized value in counts
DL - zero scale digitized value in counts
If X LT. DL, X shall be set equal to DL.
AW. SUM-Sum - the SUM module shall solve the following equation:
Output = K1 * X + K2 * Y + K3
where:
X and Yare the values to be summed
K1 and K2 = scaling coefficients
K3 = bias
AX. SW-Switch - The SW module shall permit (1) a single discrete or analog signal to be
switched on or off and (2) one or more discrete or analog signals to be switched to two or
more destinations. The SW algorithm may be either under manual or program control.
A Y. TP- Timinq Proqram - The TP module shall be a general purpose timing program which shall
be initialized either by the computer's time-of-day clock or by the occurrence of an external
process event.
In general, TP shall be used to control the frequency and duration of operation of one or
more final control elements. Where a group of drives, e.g., four screens, are controlled by
TP, it shall be possible to phase the operation of each drive within the group with respect to
the initialization event or to the operation of any other drive within the group. TP shall have
the capacity to handle an unlimited number of process inputs and outputs; this may be
achieved by linking individual TP programs.
AZ. VSIM-Valve Simulation Module - the VSIM module shall be used to simulate the operation of
nonmodulating valves and gates. Inputs to VSIM shall include a desired state discrete input
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CONTROL STRATEGY DESCRIPTIONS
(D) and both opened (R) and closed (G) state discrete inputs. A delay time (T) shall be
provided between a command to change state (D) and the actual change of state (G and R).
VSIM shall perform as follows:
If G = 1 and D = 1, R = 1; after T times out, G = O.
If R = 1 and D = 0, G = 1; after T times out, R = O.
BA. XR - Event Record - The XR module monitors, records and alarms (where appropriate) all
discrete status changes.
BB. XTON-Power Function Generator - The XTON module raises an input to any power and is
given by the following equation:
M = IK
where:
M
I
K
-
output of XTON
input
power to which input is raised.
PART3-CONTROLSTRATEGY
3.01 TANK LEVEL MONITOR AND LEVEL RATE OF CHANGE
A. Process Overview
1. Chemical Storage Tanks ST-23411 & ST-23421 feeding OCS-4 and OCS-5,
Chemical Storage Tanks ST-54410 and ST-54420 servicing OCS-2, OCS-3 and
Pre-Filter Disinfection Chemical Storage Tank ST-74470 shall be completed with
Ultrasonic Level Transmitters LE/L1T-23411, LE/L1T-23421, LE/L1T-51410, LE/L1T-
51420 and LE/L1T-74473 to monitor the level and the volume in the tank, the
low/high tank level alarm and the rapid level of change in the storage tanks.
B. Control Operation
1, The high level rate of change shall activate an alarm when the level in the tank
changes at a higher rate than what the normal operation of the OCS' are demanding.
The rapid level change alarm shall warn the operator of chemical leaks in the
system.
2. The high level rate of change shall compare the level in the tank within an operator
adjustable time delay, and when the delta level is greater than the operator pre-set
level setpoint, then the rapid rate of change alarm shall be annunciated.
3. The rapid level change timer shall always be in service, and only when the high level
alarm is displayed, the time shall stop. If a delta level exceeds the high delta level
setpoint before the time expires, the rapid level change alarm shall be displayed
immediately.
4. The Reset action shall cancel the alarm and restart the timer.
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CONTROL STRATEGY DESCRIPTIONS
C. Control Setpoints
1. The rapid level change shall include the following operator adjustable setpoints:
. Timer Setpoint Range 0-10:00 minutes, initially set at 5:00 minutes
. Delta Level Range 0-12.0 inches, initially set at 2.0 inches
3.02 AERATION SYSTEM CONTROL STRATEGY
A. Process Overview
1. The MLE Aeration System is composed of three Aeration Tanks and five blowers.
The blowers are composed of three existing 300 HP, one new 300 HP and one
existing 150 HP multistage blowers feeding air to three adjacent MLE Aeration Tank
Nos. 4, 5 and 6.
a. Each MLE Aeration Tank is divided into four basins: A, B, C and D; and the air
flow to each basin is controlled independently. The air from the blowers is
forced through find bubble diffusers supplying oxygen to microorganisms and
to provide mixing of suspended solids in each aeration basin.
b. The air to each aeration basin is controlled by a dedicated PID air flow
controller that is modulating the motorized influent valve to maintain the
desired air flow setpoint to the basin. The air flow setpoint to each basin shall
be determined by the operator. The air flow to each basin is measured by a
Venturi Tube mounted upstream of the motor operated modulating valve.
2. The MLE Aeration Control System is composed of the following two major controi
strateg ies:
a. Blowers Air Pressure Control: In Automatic Mode, the 300 HP Lead blowers
shall start and the logic shall perform the following automatic functions:
I. Control the blower inlet throttling valves based upon the blower's air
discharge pressure.
II. The blower air pressure controller shall modulate the blower inlet
throttling valves to maintain the blower's discharge air pressure to a
proper pressure setpoint.
III. The automatic Lead/Lag biower logic shall start/stop the blowers based
upon the blower inlet throttling valve position and blower motor
amperage by performing the following increasing blowers demand
sequence:
Step 1 - 300 HP Lead Blower
Step 2 - 300 HP Lead Blower + 150 HP Lag Blower
Step 3 - 300 HP Lead Blower + 300 HP Lag Blower
Step 4 - 300 HP Lead Blower + 300 HP Lag Blower + 300 HP Lag
Blower
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CONTROL STRATEGY DESCRIPTIONS
The Lead/Lag logicshall continuously monitor the blower motor current
and the blower inlet throttling valve position of the running blowers to
start/stop additional blowers. The logic shall request a Lag blower to
run when the blower motor current and the blower inlet throttling valve
of the running blowers increases above the adjustable current and
valve position setpoints for and adjustable time duration. The logic
shall operate exactly in the same manner when a Lag blower is
requested to stop due to low blower motor current and/or blower inlet
valve position of the running blowers below the minimum operator
adjustable valve position setpoinl.
IV. When the automatic Lead/Lag control logic starts/stops a blower, the
logic shall not allow another blower to start/stop for an extended
adjustable time duration of about 60 minutes. That will allow the
running blower to stabilize the air pressure.
v. The ready 300 HP blowers shall be in a blower rotation sequence to
equalize the blower's runtime.
vi. Lead/Lag blower control logic shall replace a failing blower while in
operation or replace a blower that became unavailable (not ready);
when that occurs the logic shall immediately start the next blower
selected by Lead/Lag sequence.
vii. Lead/Lag operating setpoints:
. The discharge air pressure setpoint to control the blowers shall
be based on the curve characteristic of the blower. The initial
pressure setpoint shall be 9.2 PSI (operator adjustable).
. The minimum/maximum inlet throttling valve shall be initially set
at minimum position of 25%, maximum position of 90%.
. The 300 HP minimum/maximum blower motor amperage
setpoints shall be initially set at minimum amps, maximum
:;\\\\\,,\,\\n\\\amps
',!j,,,:,,;i"";;;,;" .
. The 150 HP minimum/maximum blower motor amperage
setpoints shall be initially set at minimum amps, maximum
'\\'\'\"\'\\'\amps
-,;., ',.",',>"
viii. The total air flow to the MLE Aeration Basins shall be calculated by
adding the flow to each aeration basin in-service (about 1,500
acfm/ea.) plus the air flow to each aeration basin out-of-service (about
520 acfm/ea.).
B. Aeration Basins Air Flow Control
1. The feed-forward flow control shall monitor air flow to each basin by using a Venturi
Tube sensor device assembled with a differential pressure transmitter and it shall
control a motorized valve mounted downstream of the Venturi Tube to maintain the
desired air flow to the basin. The feed-forward controller shall change the pulsating
output to the modulating valve until the deviation (error) between the flows setpoint
and the variable air flow is negligible. The feed-forward flow controller shall use the
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CONTROL STRATEGY DESCRIPTIONS
. - ~ ---~-----,,-
Proportional, Integral and Derivative (PID) action.
2. The MLE Aeration Control Strategies to operate the aeration blowers and to control
the air flow to each aeration basin shall reside in the existing PLC-5 located in the
. Blower Building.
3. Each blower shall be controlled by a local control panel and the blower local control
panels shall be hardwired to the plant PLC-5 in the Blower Building. The blower
control panel shall control the startup and shutdown sequencing of each blower, and
shall provide safety interlocks such as blower surge prevention, motor overload,
motor amperage, bearing temperature and vibration protection.
4. The HMI/SCADA control system shall include the aeration system control strategies
with the following functions:
a. Blower start and stop sequencing
b. Manuai/Automatic blower Control Mode
c. Bumpless Manual/Automatic airflow control valve
d. Airflow control valve minimum airflow control
e. Airflow control
f. Airflow control valve increase/decrease position control
g. Inlet throttling valve control strategies and inlet throttling valve increase/
decrease position control through the individual blower control panels.
h. Minimum inlet throttling valve position with one blower in operation
I. Initiation of the blower start-up sequence with one or two blowers In
operation
J. Initiation of the blower shutdown sequence with multiple blowers in operation
k. Power failure restart: The logic shall automatically sequence the restart of the
blowers following a power failure.
C, Control Equipment
1. Airflow meters and motor operated valves to distribute air to the aeration basins are
summarized herewith as follows:
Airflow Meter
FE/PDIT/24410
FE/POIT/24420
FE/POIT/24430
FE/POIT/24440
Motor Operated Valve
MOV24210
MOV 24220
MOV 24230
MOV 24240
Service
Airflow to Basin No. 4A
Airflow to Basin No. 4B
Airflow to Basin No. 4C
Airflow to Basin No. 40
FE/PDIT/26410
FE/POIT/26420
FE/POIT/26430
FE/PDIT/26440
MOV26210
MOV 26220
MOV 26230
MOV 26240
Airflow to Basin No. 5A
Airflow to Basin No. 5B
Airflow to Basin No. 5C
Airflow to Basin No. 50
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CONTROL STRATEGY DESCRIPTIONS
Airflow Meter
FE/PD1TI28410
FElPDIT/28420
FE/PDIT/28430
FE/PDIT/28440
Motor Operated Valve
MOV 28210
MOV 28220
MOV 28230
MOV 28240
Service
Airflow to Basin No. 6A
Airflow to Basin No. 6B
Airflow to Basin No. 6C
Airflow to Basin No. 6D
2. Five blowers shall provide the air to the aeration basins. The five blowers are
composed of three 300 HP existing blowers, one 300 HP new blower and one 150
HP existing blower.
3. Reduced voltage autotransformer starters are provided for the blowers in the
electrical room in the Blower Building. Front of starter devices shall include a motor
protection unit, mushroom E-stop button, "blower run" indicating light, and "blower
electrical malfunction" indicating light. The control circuit for each blower shall be in
the motor starter. All interconnecting wiring between blowers and control panels,
between the motor starter and blower local control panels.
4. Each blower is provided with a motor operated, inlet throttling valve as follows:
Blower No.
1
2
3
4
5
Inlet Throttling Valve
MOV 25210
MOV 25220
MOV 25230
MOV 25240
MOV 25250
5. Existing pressure transmitter PIT-24452 shall control the blowers inlet throttling to
maintain the desired pressure setpoint, initially set at 9.2 psi.
6. The existing TIT-24451 temperature transmitter and PIT-24452 pressure transmitter
shall be used to calculate the airflow in ACFM (actual cubic feet per minute) to each
basin.
D. Control Operators
1. Blower Start-Up and Shutdown Sequence
a. A blower may be called to start or stop by the following operator actions:
I. Manually at the blower local control panels.
Ii. Manually at the operator workstation.
III. Automatically through the distributed PLC system. A Lead blower
may be called to start autDmatically (1) after all blowers are out of
service (e.g., after power is restored following a power failure or after
failure of a single operating blower), and (2) when called for by the
blower control strategy to meet the pressure setpoint requirements.
A blower may be called to stop automatically because of an abnormal
operating condition orwhen required by the blower control strategy to
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CONTROL STRATEGY DESCRIPTIONS
-~-
.
.__..~"._~..,.. _..,--
.
or
meet the discharge air pressure setpoint. The pressure controller
shall increase or decrease the capacity of the blowers by modulating
the blower inlet valve. The blower motor amperage together with the
blower inlet throttling valve position shall control the start/stop of the
next available Lag blower.
b. When a blower is called to start, the start-up sequence shall operate as the
following:
I. The Automatic control of the basin airflow control valves and the
running blower inlet throttling valves shall be frozen until completion
of the start-up sequence of the new Lag blower is completed.
II. A "blower start-up sequence in progress" indication shall be provided
on the display and shall remain on the screen in flashing mode until
the start-up sequence is completed.
III. The control strategy shall determine the Lag blower to be started.
The strategy shall confirm that alarm conditions are cleared and the
selected blower is ready for starting. The blower to be started may
be designated manually through the operator workstation or by a
lead-lag sequence (with or without automatic alternation). In the
case of a blower failure or if a blower is locked out by a PLC-based
"permissive", the PLC shall start the next available blower according
to the lead-lag sequence. Indication of the next blower to be started
and the next blower to be shut down through the strategy shall be
provided on the blower system graphic display screens.
IV. The control strategy shall transfer the commands to the blower local
control panels, inlet throttling valves on operating blowers and on the
blower to be started to their "Start-up" (initial setting = 50%) position.
Indication that the PLC is "positioning valves" shall be provided on
the graphic display for the blower system. Failure of any of the
valves to move to their required positions within the time required
shall initiate a "start-up sequence/valve failure" alarm that shall
terminate the start-up sequence, and shall restart the automatic
control of the airflow control valves and the blower inlet throttling
valves of the previously operating blowers.
v. Once valves are properly positioned, the PLC shall start the blower.
Note that the blower Hand/Off/Auto selector at the blower control
panel must be in the automatic position, and that all permissives
must be satisfied. After an adjustable 0 to 60 second time delay
(initial setting 30 seconds) and after receiving confirmation that the
blower has started, the PLC shall transmit a "start-up" sequence
completed" status for indication on the graphic display and shall
restore automatic control of the basin control valves and blower inlet
throttling valves.
c. When a blower is called to stop automatically, the control strategy shall
initiate the "shutdown sequence" indication shall be provided through the
PLC system. The shutdown sequence shall include the following:
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CONTROL STRATEGY DESCRIPTIONS
I. Inlet throttling valve for the blowerto be shutdown shall be positioned
at the start-up position through commands to the blower local control
panels.
ii. The PLC will stop the blower called to be stopped. A message shall
be provide on the graphic display identifying the blower that was
stopped.
iii. Emergency stop capability shall be provided through the blower local
control panel and at the motor starter. Emergency stop shall de-
energize all equipment on the blower base and cannot be reset or
reactivated until maintained emergency stop has been released to
restart the blower after an emergency stop. All equipment must be
normally put back to the "Start" position.
2. Manual/Auto Blower Start-Up after All Blowers are Out of Service
a. The instrumentation subcontractor shall provide an independent control strategy
for initiation of the blower start-up sequence after a power failure or after all
blowers are out of service. Operators shall enable or disable this function for
each blower as specified via the operator workstations. When all the blowers
are off service, the program is disabled, and a manual initiation of the blower
start-up sequence shall be required. An alarm message shall be provided
stating that manual start-up of a blower is required.
b. When all the blowers are out of service, the PLC shall discontinue the automatic
control of the blowers until the Lead blower start-up sequence is completed. An
adjustable timer (0 to 30 minutes) shall be provided to each blower to delay the
restart of the same blower for the preset amount of time. The time delay shall
allow the blower to stop rotating completely before restarting.
c. Immediately after all blowers are out of service, all inlet throttling valves shall be
commanded to the "Start" position.
d. The control strategy shall allow only one blower to start at the same time. The
next blower, if requested, shall start only after an operator adjustable time
initially set at 60 minutes (range 0 to 120 minutes).
e. The control strategy shall call for the automatic start-up of additional blowers by
following the lead-lag sequence.
3. Minimum Airflow Control Strategies
a. Independent routines shall be provided for maintaining minimum airflows through
each of the basin airflow control valves. This routine shall override airflow
control valve position when the required process airflow is less than the minimum
airflow set point.
b. Actual mass airflows (ACFM) shall be used to regulate the positions of the
respective basin/airflow valves when the measured airflow is less than the set
point for minimum airflow. The airflow in the aeration basins shall be calculated
(in ACFM) based on differential pressure signals from the venture flow tubes,
and air main pressure and temperature. A graphic display shall be provided to
enable and disable the strategy and to change airflow and pressure set points
and controller dead bands for airflow control to each basin.
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
c. The basin airflow control valves and their respective venture air flow meters shall
be initially set to the following set points:
Basin Basin
Airflow In-Service Out of -Service
Aeration Control Corresponding Airflow Setpoint Airflow Setpoint
Basin Valve Flow Tube (ACFM) (ACFM)
4A MOV-24210 FE/PDIT/24410 1500 0
4B MOV-24220 FE/POIT/24420 0 520
4C MOV-24230 FE/POIT/24430 1500 0
40 MOV-24240 FE/PDIT/24440 1500 0
5A
5B
5C
50
MOV-26210
MOV-26220
MOV-26230
MOV-26240
FE/POIT/26410
FE/POIT/26420
FE/POIT/26430
FE/POIT/26440
1500
1500
o
1500
o
o
520
o
6A
6B
6C
60
MOV-28210
MOV-28220
MOV-28230
MOV-28240
FE/POIT/28410
FE/PDIT/28420
FE/POIT/28430
FE/POIT/28440
1500
1500
o
o
o
o
520
520
d. The initial setting of the dead band shall be -0 and +100 ACFM.
4. Aeration Basin Airflow Control Strategy
a. Each independent basin airflow controller shall be provided to maintain the
desired in-service basins airflow setpoints and the out-of-service airflow
setpoints.
b. A graphic display shall be provided to monitor the basins airflow and the airflow
control valves.
5. Basin Airflow Control Valve Position Control Strategy
a. Independent increase/decrease pulse outputs shall be provided to each airflow
basin control valve. The minimum time between control corrections and pulse
width (time) of each increase and decrease signal shall be selectable through
the graphic display as specified. These tuning constants shall be field-adjusted
for optimum loop stability, speed, and response.
b. A controller with increase/decrease pulse outputs to each of the airflow valve
basin shall be based on the minimum airflow controls for each valve. Under
normal conditions flow controller shall regulate the positioning of the control
valves to maintain the calculated airflow set point. When the airflow
measurement is less than the airflow set point minus the dead band, then the
PLC shall provide increase position pulses to the valves to increase airflow.
When the airflow measurement is within the dead band, then no correction shall
be made. When the airflow measurement is more than the airflow setpoint plus
dead band, then the controller shall provide decrease position pulses to the
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
valves to reduce airflow. The maximum number of pulses per minute and the
length of each pulse shall be selectable through the graphic display as described
above.
c. The minimum and maximum airflow valve position limits shall modulate the basin
airflow valve within the minimum and maximum valve position limits.
6. Blower Inlet Throttling Valve Position Control Strategy
a. The blower inlet throttling valve control strategy shall be programmed by the
instrumentation subcontractor in the PLC and shall increase or decrease the
position of the blower inlet throttling valves based on the pressure in the blower
discharge air header, measured by the Pressure Transmitter PIT -24452. The
blower inlet throttling valve position and the motor amp of the running blowers
shall control the start/stop of any additional blower.
b. Blower discharge pressure controller setpoints shall be used to modulate the
blower inlet throttling valves.
c. Blower motor amps and blower inlet throttling valve position shall control the
start or stop of the Lag blowers. When the blower motor amps and blower inlet
throttling valve position of the running blower exceeds the minimum or maximum
setpoints for an adjustable time duration longer than 0-30 minutes then the Lag
blower shall start or stop.
d. The pressure controller shall regulate the position of the blower inlet throttling
valves through an analog 4-20 mA output signal.
e. The blower inlet throttling valves shall be modulated in parallel by the pressure
controller. Controls shall be provided for correction of deviations of valve
position among operating blowers such that no inlet valve for any operating
blower is more than +2% (1 to 5%) from the average position. This correction
shall occur only during normal modulating operations and will consist of increase
position corrections for the blower(s) inlet valves as required. Such corrections
will be above and beyond the number and frequency of corrections selected in
graphic displays.
7. Blowers Surge Control
a. The instrumentation subcontractor shall provide a control to prevent the
automatic controls from forcing a blower into a surge condition based on blower
amps.
b. When blower motor amps on any operating blower is less than the minimum
amps setpoint, the inlet throttling valve position decrease and the basin/airflow
control valve position decrease signals shall be disabled on all operating
blowers. The amps setpoint for interrupting position decrease signals to the
control valves shall be"",,: Amps 1 for the four large blowers and "'.' Amps 1 for
the small blower. Position decrease signals shall be enabled again when
process requirements result in an increase in inlet throttling valve position and
blower amps draw.
1 Note: Amps setpoints shall be determined during the start-up of the blowers.
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CONTROL STRATEGY DESCRIPTIONS
8. Blowers Overload Control
a. The instrumentation subcontractor shall provide a control to prevent the
automatic control from forcing blowers into overload conditions based on the
blower motors amps.
b. When blower motors amps on any operating blower is above the maximum amps
setpoint, the inlet throttling valve position increase and the basin/airfiow control
valve increase signals shall be disabled on all operating blowers.
c. The amps setpoint for interrupting position increase s' nals to the control valve
shall be W;lml:l:l11 Amps' for the four large blowers and Amps' for the small
blower.
d. Valve position increase signals shall be enabled again when the blower motor
amps return within the normal operating conditions.
9. Control of Blowers Above Surge with One Blower in Operation Control Program
a. A control program shall be provided by the Instrumentation Supplier in the PLC
for preventing automatic controls from forcing a blower into a surge condition
with one blower in operation based on blower motor amps. The decrease
position signals to the inlet throttling valve for the operating blower shall be
disabled under minimum amps, position conditions with one blower in operation.
b. An independent control function in the PLC shall be provided by the
Instrumentation Supplier for discontinuing inlet throttling valve position decrease
signal with one blower in operation when blower motor amps is less than the
setpoint amps. The setpoint amps for interrupting position decrease signals to
the control valves shall be meie]"'l Amps' for the new 300 HP blowers and 11,~:'1~
Amps' for the existing 150 HP blower. Position decrease signals shall be
enabled again when process requirements result in an increase in inlet throttling
valve position and blower amps draw.
10. Control Program for Initiation of the Blower Start-Up Sequence with One, Two or
Three Blowers in Operation
a. The Instrumentation Supplier shall provide an independent control program in
the PLC for initiation of the blower start-up sequence with one, two or three
blowers in operation. A programming display shall be provided for selecting fully
automatic starting, PLC prompt alarm for manual start/stop, and off program for
each of the blowers as specified.
b, A step program and automatic alternation program shall be provided in the PLC
that shall assign operating blowers to provide increasing airfiow as the process
requires. The program shall be used to control starting and stopping of blowers
when blowers are controlled fully automatically and shall be used to generate
alarm messages that selected blowers should be started and stopped manually
when blowers are in the PromptlManuai Mode. Initial settings shall be as shown
in the description of programming displays.
2 Note: Amps setpoints shall be determined during the start-up of the blowers.
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
c. The PLC shall monitor the position of the inlet throttling valves to determine
when a blower start-up sequence is required as described in the description of
program displays.
d. Independent programs shall be provided in the PLC for monitoring inlet throttling
valve position and blower motor amps for each operating blower. A start-up
sequence shall be determined to be required by the PLC when the inlet
throttling valve position for any operating blower reaches 90% open or when
motor amps exceed the maximum amps setpoinl.
e. The PLC shall initiate a blower start-up sequence when blowers are started fully
automatically (or report that a start-up sequence is required when blowers are in
the Prompt/Manual Start/Stop Mode) after an independent adjustable time
delay. The timer shall start timing when the inlet throttling valve on any operating
blower is at 90% open position or when motor amps exceed the maximum amps
setpoint. The timer shall continue timing as long as an inlet throttling valve on
any operating blower is at 90% open. The timer shall stop timing and reset if
inlet throttling valves on all operating blowers is less than 90% open or when the
motor amps decreases below the maximum amps setpoint. This time delay shall
be adjustable through the programming displays and shall be initially set for 10
minutes. When the delay timer times out, the PLC shall automatically initiate
the start-up sequence when blowers are started fully automatically (or report that
a start-up sequence is required when blowers are in the Prompt/Manual
Start/Stop Mode and shall provide an alarm message of which blowers should be
started and stopped according to the step program assignment. It shall be
possible to manually initiate a blower start-up sequence from the graphic display
or Operator's keyboard.
f. The PLC shall not allow more than one blower to be started in an adjustable time
period (initial setting of 60 minutes) under any conditions except when there are
multiple failures of blowers to be started and shall not initiate start-up of
sequence for any single blower more than once in any adjustable time period
(initial setting of 30 minutes) as described in the programming display.
g. When the PLC automatically initiates a blower start-up sequence (or when the
start-up sequence is manually initiated through the graphic display or Operator's
keyboard), the PLC shall disable the airflow control valve and inlet throttling
valve.
h. The PLC shall monitor elapsed time after automatically initiating a blower start-up
sequence. Failure to complete the start-up sequence as sensed by the blower
not running after an adjustable time period as described in the program displays
shall cause the PLC to generate a start-up sequence failure alarm message.
After the start-up sequence failure, the PLC shall initiate a start-up sequence or
report that manual start-up is required for another blower, or, if not available,
shall initiate a start-up sequence of the 150 HP blower. After a successful start-
up, the PLC shall re-establish position control based on blower discharge
pressure.
11. Control Program for Initiation of the Blower Shutdown Sequence with Two, Three or
Four Blowers in Operation
a. The Instrumentation Supplier shall provide an independent control program in
the PLC for initiation of the shutdown sequence with two, three orfour blowers in
0:41010-023S17900:01-11-10
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
operation. The programming display described for selecting fully automatic
starting/stopping, for prompt of Manual Start/Stop and for off program shall
determine how blowers shall be shutdown. As described above, the program
shall be used to control starting and stopping of blowers when blowers are
controlled fully automatically and shall be used to generate alarm messages that
selected blowers should be started and stopped manually when blowers are in
the Prompt/Manual Mode. The program shall not automatically shut down a
single blower in operation.
b. The PLC shall monitor the blowers to determine when a blower shutdown
sequence is required. The PLC shall monitor motor amps of the operating
blowers and the blower inlet valve position to determine when a blower
shutdown sequence is required.
c. Independent control programs shall disable dissolved basin airflow control valve
and blower inlet throttling valve position decrease signals to all operating
blowers when two, three orfour blowers are in service and when the motor amps
for anyone or more of the blowers decreases below the lower limit setpoint
amps. Initial lower limit setpoint for the amps 300 HP blowers 2 ;Fm,: ":'LAmps'
_and the 150 HP blower shall be .Amps'.
d. The PLC shall initiate a blower shutdown sequence when blowers are stopped
fully automatically (or shall report that a shutdown sequence is required) when
blowers are in the Prompt/Manual Start/Stop Mode after an independent
adjustable time delay. The timer shall start timing when the amps for any
operating blower decreases below the lower limit. The timer shall stop timing
and reset when the amps increases above their lower setpoint limits. The initial
setting for this timer shall be 0 minutes and shall be adjustable through the
programming display. When the delay timer times out, the PLC shall
automatically initiate the shutdown sequence when blowers are stopped fully
automatically (or report that a shutdown sequence is required). It shall be
possible to manually initiate a blower shutdown sequence from the graphic
display or Operator's keyboard.
e. The PLC shall select blower(s) to be shutdown for initiation of the shutdown
sequence (or prompting of manual shutdown) based on the step program and
automatic alternation program.
f. The PLC shall begin timing after automaticaliy initiating a blower shutdown
sequence. Failure of the blower to shutdown within 30 seconds (adjustable 0-
120 seconds) shall generate a shutdown sequence failure alarm and shall
maintain status of the step program until the alarm is acknowledged and the
appropriate blower(s) is shutdown.
E. Graphic Displays
1. Graphic displays for the aeration system control strategies shall be provided for a
selection of control modes and control settings. The minimum specific display
requirements are listed below. A graphic display shall be provided for selecting fu lIy
automatic starting/stopping, prompting for manual start/stop, or off program for each
of the four blowers. The blower selection shall be as follows:
3 Note: Amps setpoints shall be determined during the start-up of the blowers.
0:41010-023S17900:01-11-10
Janual'f 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
Fully Automatic PLC Promptfor
150 HP 300 HP Startin /Stoppi'!9.. Manual StartlSto Off Prollram
-- (Blower 1) J
- (Blower 2) J
-- (Blower 3) J
-- (Blower 4) J
(Blower 5) - J
2. A graphic display shall be provided to select lead-lag blower control assignment.
The strategy shall provide alternation of the lead-lag assignments based on
availability oflWo, three, or four blowers. The blower alternation control selection is
as follows:
Lead/Lag Alternation Blower Control
Manual Assignment (No Alternation) 0
Semi-Automatic (Time Alternation) iii Time ~ hrs.
Automatic Blowers (Runtime) 0
3. The manual Lead/Lag blower selection is as follows:
Lead/Lag Blower Selection
2na Lag 3ra Lag 4th Lag Off-
Lead Unit La Unit Unit Unit Unit Se uence
(Blower 1) J
(Blower 2) J
(Blower 3) J
(Blower 4) J
(Blower 5) J J
3. A graphic display shall be provided to select the maximum number of blowers that
may be automatically operated, as follows:
1 2 3 4
Maximum number of blowers allowed to operate at one time J
4. The graphic display shall also include selection ofthe minimum horsepower set point
for limiting the throttling of a single blower in operation and for initiating a shutdown
sequence with multiple blowers in operation as follows (initial settings shall be
noted):
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
~..<
,--
---.------...--.".--
--. ,-".-.-.---.-... _.-'~---'----- -~
Blower Set oints
Control
Surge and Overload
150 HP Motor Blower Limits
Am s4/Max.
Am s4/Max.
300 HP Motor Blower Limits
Min. s'/Max. s'
Min.
Min.
s'
S4
Min.
s4/Max.
s'
5. The graphic display shall include inlet throttling valve minimum and maximum valve
positions. Each valve position setpoint shall be operator adjustable. The minimum and
maximum valve position setpoints shall be used by the automatic control to start or stop
the next Lag blower.
Inlet Throttling Lower Position Upper Position
Valve Limits Limits
Blower No. 1 20% 90%
Blower NO.2 20% 90%
Blower No. 3 20% 90%
Blower NO.4 20% 90%
Blower No. 5 30% 100%
6. A graphic display shall be provided for selecting the "start" position for the inlet throttling
valves on the operating blowers and on blowers to be started as follows (initial settings
shall be as noted):
Blower Throttling Value 150 HP 300 HP
Blower Blower
Inlet Valve Start Position (% Open) 60% 50%
7. Graphic displays shall be provided for basin airfiow calculation and pressure control
loops and for selection of set points, dead bands, and alarm limits as follows:
a. Blower Restart Time Control
Time Setpoint
15 Minutes
Time Setpoint Range
0- 30 Minutes
(Continued on Next Page)
· Note: Amps setpoints shall be determined during the start-up of the blowers.
0:41010-023S17900:01-11-10
January 2010
17900~29
NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
8. Graphic displays shall provide basin airflow set points.
Basin Flow Setpoint Flow Indication Control Dead Refresh
Variable Band Nariabl~
4A 1200 ACFM 10-25001 ACFM +100 ACFM 5min.
4B 1200 ACFM 10-25001 ACFM +100 ACFM 5min.
4C 1200 ACFM 10-25001 ACFM +100 ACFM 5min.
40 1200 ACFM 10-250(1/ ACFM +100 ACFM 5 min.
5A 500 ACFM [0-25001 ACFM +100 ACFM 5 min.
5B 500 ACFM 10-25001 ACFM +100 ACFM 5min.
5C 500 ACFM [0-25001 ACFM +100 ACFM 5min.
50 1200 ACFM [0-25001 ACFM +100 ACFM 5 min.
6A 1200 ACFM 10-25001 ACFM +100 ACFM 5min.
6B 1200 ACFM [0-25001 ACFM :!:100 ACFM 5 min.
6C 500 ACFM [0-25001 ACFM +100 ACFM 5min.
60 500 ACFM 10-25001 ACFM +100 ACFM 5 min.
9. Blower Control Setpoints
I Pressure Setpoint
9.2 PSI
10. Blowers Restart Time Off
a. When a blower stops running, that same blower shall remain off-line for a
predetermined cool-off time.
I Cool-Off Blower Time Setpoint I 15 minutes
11. Blower Control Timer
a. When a Lag blower is requested to run by the control logic, a control timer shall start
counting delaying the start of another blower for an adjustable time setpoint (if the
blower is called to run by the automatic control logic).
I Blower Control Timer
L
30 minutes
12. The following formula has been provided to convert standard SFCM to actual ACFM:
0:41 010-023S17900:01-11-1 0
January 201 0
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
ACFM = SCFM
PACT
ACT
P.u:T-PS>T 0 TSTD
ACFM
SCFM =
( PsrD ) X (TACT)
PACT -PSAT0 TsrD
Where:
ACFM - actual CFM at conditions
SCFM - standard CFM (at 600F and psia = 14.7)
PSTD= barometer pressure at elevation, 14.7 psia at sea level
PACT = absolute pressure at actual level, psia
PSAT = saturation pressure at the actual temperature, psia
o = actual relative humidity
TACT = actual ambient air temperature
T STD = standard temperature, oR = 5280R
- END OF SECTION -
0:4101 0-023S17900:01-11-1 0
January 2010
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NCWRF COMPLIANCE ASSURANCE PROJECT
CONTROL STRATEGY DESCRIPTIONS
SECTION 17910
INSTRUMENT SCHEDULE
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall furnish, test, install and place in satisfactory operation all
instrumentation as herein specified and as shown on the Drawings.
1.02 RELATED WORK SPECIFIED ELSEWHERE
A. Section 17600 - Unpowered Instruments General
Section 17700 - Powered Instruments General
Section 17800 - Analylicallnstruments General
PART 2 - INSTRUMENT SCHEDULE
Tag Service Description Range Size Dwg.
.
FIT-74440 Sodium Hypochlorite to Filter No. 1 o - 100 gph 1" 61-2
FIT-74450 Sodium Hypochlorite to Filter NO.2 0-100 gph 1" 61-2
FIT-74470 Filter Nos. 1 & 2 Pre-chlorination 0-100 gph 1" 61-1
FIT-91462 Reclaimed Water to Pond NO.4 0-15,000 18" 51-1
m
Magnetic Flow Meters (Section 17701)
Tag Service Description Range Size Dwg.
ISCFM\
FE-24410 Aeration Basin No. 4A 0-2,500 12" 31-4
FE-24420 Aeration Basin No. 4B 0-2,500 12" 31-4
FE-24430 Aeration Basin No. 4C 0-2,500 12" 31-4
FE-24440 Aeration Basin No. 40 0-2,500 . 12" 31-4
FE-26410 Aeration Basin No. 5A 0-2,500 12" 31-5
FE-26420 Aeration Basin No. 5B 0-2,500 12" 31-5
FE-26430 Aeration Basin No. 5C 0-2,500 12" 31-5
FE-26440 Aeration Basin No. 5D 0-2,500 12" 31-5
Venturi Flow Tubes (Section 17610)
0:17910 Instrument Schedule.doc:01-14-1 0
January2010
17910.1
NCWRF COMPLIANCE ASSURANCE PROJECT
INSTRUMENT SCHEDULE
Tag Service Description Range Size Dwg.
ISCFMI
FE-28410 Aeration Basin No. 6A 0-2,500 12" 31-6
FE-28420 Aeration Basin No. 6B 0-2,500 12" 31-6
FE-28430 Aeration Basin No. 6C 0-2,500 12" 31-6
FE-28440 Aeration Basin No. 6D 0-2,500 12" 31-6
Venturi Flow Tubes - Continued (Section 17610)
Tag Service Description Range Dwg.
LSH-23401 Storage Chemicai Tank Containment N/A 31-12
LSH-55407 OCS-3 Containment Level N/A 41-3
LSH-55408 OCS-3 Containment Level N/A 41-3
LSH-74474 Pre-Filter Hypochlorite Storage Tank Containment N/A 61-1
LSH-74475 Pre-Filter Hypochlorite Storage Tank Containment N/A 61-1
LSH-91467 Reclaimed Flow Meter Pit N/A 51-1
Level Switches (Suspended Float Type) Section 17670
Tag Service Description Range Dwg.
LE/L1T -23411 Sodium Hypochlorite Storage Tank NO.1 (OCS's) 0-15.0' 31-11
LE/L1T -23412 Sodium Hypochlorite Storage Tank NO.2 (OCS's) 0-15.0' 31-11
LE/L1T-23421 Caustic Storage Tank NO.1 (OCS's) 0-15.0' 31-11
LE/L1T -23422 Caustic Storage Tank NO.2 (OCS's) 0-15.0' 31-11
LE/L1T-74474 Sodium Hypochlorite Storage Tank (Pre-filter) 0-15.0' 61-1
Ultrasonic Load Level (Section 17740)
Tag Service Description Range Dwg.
PT-91458 Pond NO.4 Level 0-6 ft. 51-1
Submersible Level Sensor (Section 11749)
Tag Service Description Range Dwg.
PI-22410 Aeration Basin #4A Air 0-15psi 31-4
PI-24420 AeratiDn Basin #4B Air o - 15 psi 31-4
PI-24430' Aeration Basin #4C Air 0-15psi 31-4
--
PI-24440 Aeration Basin #40 Air o - 15 psi 31-4
-
Pressure Gauges (Section 17650)
0:17910 Instrument ScheduJe.doc:01-14-1 0
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17910-2
NCWRF COMPLIANCE ASSURANCE PROJECT
INSTRUMENT SCHEDULE
PI-2641 0
PI-26420
PI-26430
PI-26440
Pressure Gau es - Continued (Section 176501
Aeration Basin #5A Air 0 - 15 psi
Aeration Basin #5B Air 0 - 15 psi
Aeration Basin #5C Air 0 - 15 psi
Aeration Basin #50 Air 0 - 15 psi
31-5
31-5
31-5
31-5
PI-28410
PI-28420
PI-28430
PI-28440
Aeration Basin #f3A Air
Aeration Basin #f3B Air
Aeration Basin #f3C Air
Aeration Basin #f30 Air
0-15 psi
0-15 psi
0-15 psi
0-15 psi
31-6
31-6
31-6
31-6
Tag Service Description Range Dwg.
OPIT-24410 Aeration Basin No. 4A (1) 31-4
OPIT-24420 Aeration Basin No. 4B (1) 31-4
DPIT-24430 Aeration Basin No. 4C (1) 31-4
OPIT-24440 Aeration Basin No. 40 (1) 31-4
DPIT-26410 Aeration Basin No. 5A (1) 31-5
OPIT-26420 Aeration Basin No. 5B (1) 31-5
OPIT-26430 Aeration Basin No. 5C (1) 31-5
OPIT-26440 Aeration Basin No. 50 (1) 31-5
OPIT-28410 Aeration Basin No. 6A (1) 31-6
OPIT-28420 Aeration Basin No. 6B (1) 31-6
OPIT-28430 Aeration Basin No. 6C (1) 31-6
OPIT-28440 Aeration Basin No. 60 (1) 31-6
Differential Pressure Indicating Transmitters (Section 17760)
Range (1) Differential pressure range shall be coordinated with the insert venture sensor. Supplier
shall determine the differential pressure base upon the flow range 0 - 2500 SCFM
Tag Service Description Range Dwg.
AE/AIT-56414 Pretreatment Bioway OCS #1 0-2.0 ppm 41-1
AE/AIT-55405 Pretreatment OCS #2 0-2.0 ppm 41-2
AE/AIT-55401 ASFT & ASHT OCS #3 0-2.0 ppm 41-3
AE/AIT-21404 Aeration Basins OCS #4 0-2.0ppm 31-9
AE/AIT-22404 Aeration Basins OCS #5 0-2.0 ppm 31-10
Single Point Gas Monitoring Systems (Section 17851)
END OF SECTION
0:17910 Instrument Schedule.doc:01-14-10
January 201 0
17910-3
NCWRF COMPLIANCE ASSURANCE PROJECT
. INSTRUMENT SCHEDULE
SECTION 17920
SCHEDULE
PART 1 - GENERAL
1.01 THE REQUIREMENT
A. The Contractor shall provide all the PLC I/O Input/Output points as herein specified and as
shown on the drawings.
B. The operator interface 110 points list includes all the input/output points between the PLC's
and the PC's.
PART 2 - CONTROL SYSTEM INPUT / OUTPUT SCHEDULE
Refer to following pages for I/O Schedule.
PART 3 - EXECUTION
(Not Used)
(Continued on Next Page)
0:17920 SCHEDULE.DOC: 01.14-10
January 201 0
17920-1
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
I 1.0. NUMBER I DESCRIPTION I Type I Scale/Status I PLcl DWG I
Z 24210 Aeration Basin #4A Control Valve AI 0-100% 5 31-4
24210 B Aeration Basin #4A Air Flow Valve DI LocallRemote 5 31-4
24210 F Aeration Basin #4A Air Flow Valve DI Fault Alarm 5 31-4
24210 HSC Aeration Basin #4A Air Flow Valve DO Vlv. Close Control 5 31-4
24210 HSO Aeration Basin #4A Air Flow Valve DO Vlv. Open Control 5 31-4
Z 24220 Aeration Basin #4B Control Valve AI 0-100% 5 31-4
24220 B Aeration Basin #4B Air Flow Valve DI Local/Remote 5 31-4
- 24220 F Aeration Basin #4B Air Flow Valve DI Fault Alarm 5 31-4
24220 HSC Aeration Basin #4B Air Flow Valve DO Vlv. Close Control 5 31-4
24220 HSO Aeration Basin #4B Air Flow Valve DO Vlv. Open Control 5 31-4
Z 24230 Aeration Basin #4C Control Valve AI 0-100% 5 31-4
24230 B Aeration Basin #4C Air Flow Valve DI Local/Remote 5 31-4
24230 F Aeration Basin #4C Air Flow Valve DI Fault Alarm 5 31-4
24230 HSC Aeration Basin #4C Air Flow Valve DO Vivo Close Control 5 31-4
24230 HSO Aeration Basin #4C Air Flow Vaive DO Vlv. 0 en Control 5 31-4
Z 24240 Aeration Basin #40 Control Valve AI 0-100% 5 31-4
24240 B Aeration Basin #4D Air Fiow Vaive DI Local/Remote 5 31-4
24240 F Aeration Basin #4D Air Flow Valve DI Fault Alarm 5 31-4
24240 HSC Aeration Basin #40 Air Flow Valve DO Vlv. Close Control 5 31-4
24240 HSO Aeration Basin #4D Air Fiow Valve DO Vlv. 0 en Control 5 31-4
F 24410 Aeration Basin #4A Air Fiow AI 0-2500 SCFM 5 31-4
F 24420 Aeration Basin #4B Air Flow AI 0-2500 SCFM 5 31-4
F 24430 Aeration Basin #4C Air Flow AI 0-2500 SCFM 5 31-4
F 24440 Aeration Basin #4D Air Flow AI 0-2500 SCFM 5 31-4
Z 26210 Aeration Basin #5A Control Valve AI 0-100% 5 31-5
26210 B Aeration Basin #5A Air Flow Valve DI Local/Remote 5 31-5
26210 F Aeration Basin #5A Air Flow Valve DI Fault Alarm 5 31-5
26210 HSC Aeration Basin #5A Air Flow Valve DO Vlv. Close Control 5 31-5
26210 HSO Aeration Basin #5A Air Flow Valve DO Vlv. Open Control 5 31-5
Z 26220 Aeration Basin #5B Control Valve AI 0-100% 5 31-5
26220 B Aeration Basin #5B Air Flow Valve DI Local/Remote 5 31-5
26220 F Aeration Basin #5B Air Flow Valve DI Fault Alarm 5 31-5
26220 HSC Aeration Basin #5B Air Flow Valve DO Vlv. Close Control 5 31-5
26220 HSO Aeration Basin #5B Air Flow Valve DO Vlv. 0 en Control 5 31-5
0:17920 SCHEOULE.DQC: 01-05-10
January 201 0
17920-2
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
I 1.0. NUMBER I DESCRIPTION I Ty~1 Scale/Status I PLC I DWG I
Z 26230 Aeration Basin #5C Control Valve AI 0-100% 5 31-5
26230 B Aeration Basin #5C Air Flow Valve 01 Local/Remote 5 31-5
26230 F Aeration Basin #5C Air Flow Valve 01 Fault Alarm 5 31-5
26230 HSC Aeration Basin #5C Air Flow Valve 00 Vlv. Ciose Control 5 31-5
26230 HSO Aeration Basin #5C Air Flow Valve 00 Vlv. Open Control 5 31-5
Z 26240 Aeration Basin #50 Control Valve AI 0-100% 5 31-5
26240 B Aeration Basin #50 Air Flow Vaive Oi Local/Remote 5 31-5
26240 F Aeration Basin #50 Air Flow Valve 01 Fault Alarm 5 31-5
26240 HSC Aeration Basin #50 Air Flow Valve 00 Vlv. Close Control 5 31-5
26240 HSO Aeration Basin #50 Air Flow Valve 00 Vlv. 0 en Control 5 31-5
F 26410 Aeration Basin #5A Air Flow AI 0-2500 SCFM 5 31-5
F 26420 Aeration Basin #5B Air Flow AI 0-2500 SCFM 5 31-5
F 26430 Aeration Basin #5C Air Flow AI 0-2500 SCFM 5 31-5
F 26440 Aeration Basin #50 Air Flow AI 0-2500 SCFM 5 31-5
26840 X UX456 Chemical Stara e Shower / E ewash #1 01 HI h Level Alarm 10 31-5
Z 28210 Aeration Basin #6A Control Valve AI 0-100% 5 31-6
28210 B Aeration Basin #6A Air Flow Valve Oi Local/Remote 5 31-6
28210 F Aeration Basin #6A Air Flow Valve 01 Fault Alarm 5 31-6
28210 HSC Aeration Basin #6A Air Flow Valve 00 Vlv. Close Control 5 31-6
28210 HSO Aeration Basin #6A Air Flow Valve 00 Vlv. Open Control 5 31-6
Z 28220 Aeration Basin #6B Control Valve AI 0-100% 5 31-6
28220 B Aeration Basin #6B Air Flow Valve Oi Local/Remote 5 31-6
28220 F Aeration Basin #6B Air Flow Valve 01 Fault Alarm 5 31-6
28220 HSC Aeration Basin #6B Air Flow Valve 00 Vlv. Close Control 5 31-6
28220 HSO Aeration Basin #6B Air Flow Valve 00 Vlv. Open Control 5 31-6
Z 28230 Aeration Basin #6C Control Valve AI 0-100% 5 31-6
28230 B Aeration Basin #6C Air Flow Valve 01 Local/Remote 5 31-6
28230 F Aeration Basin #6C Air Flow Valve 01 Fault Alarm 5 31-6
28230 HSC Aeration Basin #6C Air Flow Valve 00 Vlv. Close Control 5 31-6
28230 HSO Aeration Basin #6C Air Flow Valve 00 Vlv. 0 en Control 5 31-6
Z 28240 Aeration Basin #60 Control Valve AI 0-100% 5 31-6
28240 B Aeration Basin #60 Air Flow Valve 01 Local/Remote 5 31-6
28240 F Aeration Basin #60 Air Flow Valve 01 Fault Alarm 5 31-6
28240 HSC Aeration Basin #60 Air Flow Valve DO Vlv. Close Control 5 31-6
28240 HSO Aeration Basin #60 Air Flow Valve 00 Vlv. Open Control 5 31-6
--~._~,._"._~--~-_._-~
0:17920 SCHEDULE.DOC: 01-05-10
January 201 0
17920-3
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
1.0. NUMBER DESCRIPTION ~e Scale/Status PLC DWG
F 28410 Aeration Basin #6A Air Flow AI 0-2500 SCFM 5 31-6
F 28420 Aeration Basin #6B Air Flow AI 0-2500 SCFM 5 31-6
F 28430 Aeration Basin #6e Air Flow AI 0-2500 SCFM 5 31-6
..L 28440 Aeration Basin #60 Air Flow AI 0-2500 SCFM 5 3i-6
26840 X UX456 Chemical Stora e Shower / E ewash #2 01 Hi h I.evel Alarm 10 31-6
-
21400 F oes #4 Local Control Panel 01 Power Failure Alarm 10.1 31-9
21401 A MLE OCS #4 Air Fan 01 Run Status 10.1 31-9
21401 F MLE OCS #4 Air Fan 01 Fault Alarm 10.1 31-9
21400 Y MLE oes #4 General Malfunction 01 Malfunction Alarm 10.1 31-9
A 21404 MLE OCS #4 H2S AI 0-2.0 m 10.1 31-9
P 21405 MLE oes #4 Scrubber Oifferential Pressure AI TBO 10.1 31-9
21406 X MLE oes #4 Air Fan Eyewash/Shower #1 01 In Service Status 10.1 31-9
21411 X MLE oes #4 Stage #1 Sump 01 Low Level Alarm 10.1 31-9
21412 A MLE OCS #4 Stage #1 Recirculating Pump 01 Run Status 10.1 31-9
I 21412 MLE OCS#4 Stage #1 Recirculating Pump AI 0-50 Amos 10.1 31-9
21413 A MLE OCS #4 Stage #1 Metering Pump 01 Run Status 10.1 31-9
A 21414 MLE OCS #4 Stage #1 ph AI 0-14 h 10.1 31-9
21421 X MLE OCS #4 Stage #2 Sump 01 Low Level Alarm 10.1 31-9
21422 A MLE oes #4 Stage #2 Recirculating Pump 01 Run Status 10.1 31-9
.J.. 21422 MLE OCS #4 Stage #2 Recirculating Pump AI 0-50 Amos 10.1 31-9
21423 A MLE oes #4 Stage #2 Metering Pump 01 Run Status 10.1 31-9
A 21424 MLE OCS #4 Stage #2 ph AI 0-14 h 10.1 31-9
21431 X MLE oes #4 Stage #3 Sump 01 Low Level Alarm 10.1 31-9
21432 A MLE OCS #4 Stage #3 Recirculating Pump 01 Run Status 10.1 31-9
I 21432 MLE oes #4 Stage #3 Recirculating Pump AI 0-50 Am s 10.1 31-9
21433 A MLE oes #4 Stage #3 Metering #1 Pump 01 Run Status 10.1 31-9
21434 A MLE oes #4 Stage #3 Metering #2 Pump 01 Run Status 10.1 31-9
A 21434 MLE oes #4 Sta e #3 h AI 0- 14 oh 10.1 31-9
A 21435 MLE oes #4 Sta e #3 ORP AI TBO 10.1 31-9
22400 Y MLE oes #5 General Malfunction 01 Malfunction Alarm 10.1 31-10
22400 F MLE oes #5 Local Control Panel 01 Power Failure Alarm 10.1 31-10
- 22401 A MLE oes #5 Air Fan 01 Run Status 10.1 31-10
22401 F MLE oes #5 Air Fan 01 Fault Alarm 10.1 31-10
A 22404 MLE oes #5 H2S AI 0-2.0 m 10.1 31-10
P 22405 X MLE oes #5 Oifferential Pressure AI TBO 10.1 31-10
22406 X MLE oes #5 Eyewash/Shower #2 01 In Service Status 10.1 31-10
22407 X MLE oes #5 Eyewash/Shower #3 01 In Service Status 10.1 31-10
0:17920 SCHEDULE.oOC: 01-05-10
January 2010
17920-4
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
I 1.0. NUMBER I DESCRIPTION ~I Scale/Status I PLcl DWG I
22411 X MLE DeS #5 Stage #1 Sump 01 Low Level Alarm 10.1 31-10
22412 A MLE DeS #5 Stage #1 Recirculating Pump 01 Run Status 10.1 31-10
I 22412 MLE DeS #5 Stage #1 Recirculating Pump AI 0- 50 Amos 10.1 31-10
22413 A MLE DeS #5 Stage #1 Metering Pump 01 Run Status 10.1 31-10
A 22414 MLE DeS #5 Stage #1 ph AI 0-14 h 10.1 31-10
22421 X MLE DeS #5 Stage #2 Sump 01 Low Level Alarm 10.1 31-10
22422 A MLE DeS #5 Stage #2 Recirculating Pump 01 Run Status 10.1 31-10
I 22422 MLE DeS #5 Stage #2 Recirculating Pump AI o - 50 Amos 10.1 31-10
22423 A MLE Des #5 Stage #2 Metering Pump 01 Run Status 10.1 31-10
A 22424 MLE DeS #5 Stage #2 ph AI 0-14 h 10.1 31-10
22431 X MLE DeS #5 Stage #3 Sump 01 Low Level Alarm 10.1 31-10
22432 A MLE Des #5 Stage #3 Recirculating Pump 01 Run Status 10.1 31-10
I 22432 MLE DeS #5 Stage #3 Recirculating Pump AI 0-50Am s 10.1 31-10
22433 A MLE DeS #5 Stage #3 Metering Pump #1 01 Run Status 10.1 31-10
23434 A MLE DeS #5 Stage #3 Metering Pump #2 01 Run Status 10.1 31-10
A 22434 MLE DeS #5 Stage #3 ph AI 0-14 h 10.1 31-10
A 22435 MLE DeS #5 Sta e #3 DRP AI TBO 10.1 31-10
22401 X MLE Des's Chemical Storage Tanks and OCS 01 High Level Alarm 10.1 31-11
Containment Area
23411 X MLE OCS's Shower/Eyewash #4 01 In Service Status 10.1 31-11
L 23411 Sodium Hypochlorite Storage Tank NO.1 AI 0-15.0 ft. 10.1 31-11
L 23421 Caustic Storage Tank No.1 AI 0-10.0 ft. 10.1 31-11
(Continued on Next Page)
0:17920 SCHEDULEDOC: 01-05-10
January-2010
17920-5
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
1.0. NUMBER DESCRIPTION ~ Scale/Status PLC DWG
56409 X Pretreatment Biofilter OCS #1 General Malfunction DI Malfunction Alarm 3 41-1
56410 X Pretreatment Biofilter OCS #1 Local Control Panel DI Power Failure Alarm 3 41-1
56410 A Pretreatment Biofilter OCS #1 Fan DI Run Status 3 41-1
56410 F Pretreatment Biofilter OCS #1 Fan DI Fault Status 3 41-1
56411 A Pretreatment Biofilter OCS #1 Nutrient Pump #1 DI Run Status 3 41-1
56412 X Pretreatment Biofilter OCS #1 Nutrient Tank DI Low Level Alarm 3 41-1
56413 A Pretreatment Biofilter OCS #1 Recirculation Pump DI Run Status 3 41-1
I 56413 Pretreatment Biofilter OCS #1 Recirculation Pump AI 0-50 Amos 3 41-1
A 56414 Pretreatment Biofilter OCS #1 H2S AI 0- 2.0 oom 3 41-1
P 56415 Pretreatment Biofilter OCS #1 Scrubber Differential AI TBD 3 41-1
Pressure
56416 X Pretreatment Biofilter OCS #1 Shower/Eyewash #5 DI In Service Alarm 3 41-1
54400 A Pretreatment OCS #2 Exhaust Fan DI Run Status 3 41-2
54400 F Pretreatment OCS #2 Exhaust Fan DI Fault Status 3 41-2
54400 Y Pretreatment OCS #2 General Malfunction DI Malfunction Alarm 3 41-2
54440 X Pretreatment OCS #2 Local Control Panel DI Power Failure Alarm 3 . 41-2
54401 A Pretreatment OCS #2 Recirculation Pump #1 DI Run Status 3 41-2
I 54401 Pretreatment OCS #2 Recirculation Pump #1 AI 0- 50 Amos 3 41-2
54402 A Pretreatment OCS #2 Recircuiation Pump #2 DI Run Status 3 4i-2
I 54402 Pretreatment OCS #2 Recirculation Pump#2 AI 0-50Am s 3 41-2
A 54405 Pretreatment OCS #2 H2S AI 0-2.0oom 3 41-2
P 54408 Pretreatment OCS #2 Differential Pressure AI Diff. Pressure High 3 41-2
Alarm
0:17920 SCHEOULE.DOC: 01-14-10
January 2010
17920-6
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
/Go. NUMBER DESCRIPTION Type Scale/Status PLC I DWG
55400 X ASFT & ASHT DeS #3 Stage #1 Local DI Power Failure Alarm 3 41-3
- Control Panel
55400 y ASFT & ASHT DeS #3 General Malfunction DI Malfunction Alarm 3 41-3
55401 A ASFT & ASHT DeS #3 Exhaust Air Fan DI Run Status 3 41-3
55401 F ASFT & ASHT DeS #3 Exhaust Air Fan DI Fault Alarm 3 41-3
A 55401 ASFT & ASHT DeS #3 H2S AI 0-2.0 m 3 41-3
P 55405 ASFT & ASHT Des #3 Scrubber Differential AI High Diff. Pressure Alarm 3 41-3
Pressure
55406 X ASFT & ASHT DeS #3 Evewash/Shower DI On/Off Status 3 41-3
55411 X ASFT & ASHT DeS #3 Stane #1 Sum DI Low Level Alarm 3 41-3
55412 A ASFT & ASHT DeS #3 Stage #1 DI Run Status 3 4/-3
Recirculatin Pum
I 55412 ASFT & ASHT DCS #3 Stage #1 AI 0- 50 Amps 3 41-3
Recirculatin Pump
-
55413 A ASFT & ASHT DeS #3 Stage #1 Metering DI Run Status 3 41-3
- Pump
A 55414 ASFT & ASHT DeS #3 Sta e #1 ph AI 0-14 ph 3 41-3
55421 X ASFT & ASHT Des #3 Sta e #2 & 3 Sump DI Low Level Alarm 3 41-3
55422 A ASFT & ASHT DeS #3 Stage #2 & 3 DI Run Status 3 41-3
Recirculatina Pump
I 55422 ASFT & ASHT oes #3 Stage #2 & 3 AI o - 50 Amps 3 41-3
Recirculatin Pump
55423 A ASFT & ASHT DeS #3 Stage #2 & 3 Metering DI Run Status 3 41-3
#1 Pum
552424 A ASFT & ASHT oes #3 Stage #2 & 3 Metering DI Run Status 3 41-3
#2 Pum
A 55424 ASFT & ASHT oes #3 Sta e #2 & 3 h AI 0-14 h 3 41-3
A 55425 ASFT & ASHT DCS #3 Sta e #2 & 3 ORP AI TBD 3 41-3
- 55407 X DeS #3 Containment DI Hi h Level Alarm 3 4/-3
(Continued on Next Page)
0:17920 SCHEDULEDOC: 01-05-10
January 201 0
17920-7
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
1.0. NUMBER DESCRIPTION I Type Scale/Status PLC DWG
F 74440 l:!Ye..ochlorite to Filter #1 Contact Tank Fiow AI 0- 1OO..9Eb 2 61-2
74440 Q l:!Ye..ochloriteto Filter#l Contact Tank Flow DI Pulse 2 61-2
.f.. 74450 l:!Ye..ochiorite to Filter #2 Contact Tank Flow AI 0-100 h 2 61-2
- 74450 Q t!l'e..ochlorite to Filter #2 Contact Tank Flow DI Pulse 2 61-2
- 74460 X Leak Detection Panel DI General Leak Alarm 2 61-2
74470 X Leak Detection Panel DI General Leak Alarm 2 61-1
F 74470 Pre-Chlorination Contact Tank Flow AI 0-100 h 2 61-1
74470 Q Pre-Chlorination Contact Tank Flow DI Pulse 2 61-1
L 74473 Sodium H ochlorite Stora e Tank AI 0-100 h 2 61-1
74474 X Sodium H ochlorite Containment DI HI h Level Alarm 2 61-1
91263 B Recirculate Reclaimed Valve DI Local/Remote Status 4 51-1
91263 F Recirculate Reclaimed Valve DI Fault Alarm 4 51-1
91263 0 Recirculate Reclaimed Valve DI Valve Ooen Status 4 51-1
91263 C Recirculate Reclaimed Valve DI Valve Closed Status 4 51-1
- 912623 HSO Recirculate Reclaimed Valve DO Valve Onen Status. 4 51-1
I- 912623 HSC Recirculate Reclaimed Valve DO Valve Close Status 4 51-1
Recirculate Reclaimed Flow
.f.. 91464 AI 0-15,000 GPM 4 51-1
91464 Q Recirculate Reclaimed Flow DI Pulse 1 /100 GPM 4 51-1
91467 X Recirculate Flow Meterin Vault DI HI h Level Alarm 4 51-1
F 91465 Recirculate Reclaimed Flow AO 0- 15,000 GPM 4 51-1
F 91466 Recirculate Reclaimed Flow SetDoint AO 0-15.000 GPM 4 51-1
L 91468 Pond #4 Level AI 0-6.0 ft. 4 51-1
END OF SECTION
0:17920 SCHEDULE.DOC: 01-05-10
January 2010
17920-8
NCWRF COMPLIANCE ASSURANCE PROJECT
SCHEDULE
""~"'M
-.
----.---...",.... , -
EXHIBIT K
PERMITS
See Separate downloadable file from www.colliergov.netlbid
GC-CA-K-1
Florida Department of
Environmental Protection
Charlie Crist
Governor
-~ -
---~----'"
South District
P.O. Box 2549
Fort Myers, FL 33902-2549
Jeff Kottkamp
Lt. Governor
Michael W. Sole
Secretary
January 27, 2010
PERMITTEE:
Peter Schalt, Senior Project Manager
Collier County Water-Sewer District
3301 E. Tamiami Trail, Bldg. H
Naples, FL 34112
peterschalt@colliergov.net
RE: Collier County - PW
Notification of Use of General Permit
North County Regional Water
Reclamation Facility Compliance
Assurance Project
Permit No. 299087-001-DSGP
(Collier County Regional WTP)
Southwest Coast EMA
Dear Mr. Schalt:
In response to your request, this letter is to advise you that the Department has received your
notice of intent to use a general permit as provided in Rule 62-555, Florida Administrative Code
(F.A.c.) to construct an extension to a public water supply distribution system and does not object
to your use of such general permit.
This authorization does not relieve you from the necessity of obtaining any and all other permits
necessary. Specifically, this authorization does not constitute approval for work within wetland
areas or alteration of mangroves subject to Chapters 373 and 403, F.S.
Please be advised that you are required to abide by all conditions in Rules 62-4.510 through 62-
4.540, F.A.C., the general requirements for general permits, and Rule 62-555.405, F.A.C. This
general permit will expire January 26, 2015. If the project has been started but is not complete
by that time, a new permit must be obtained before the expiration date to continue work on
the project per F.A.C. Rule 62-4.030.
Sincerely,
#~..
t'>
!f
--
~
Abdul . Ahmadi, Ph.D., P.E.
Water Facilities Administrator
ABA/EJ/isc
cc: W. Terry Cole, P.E., terrycole@hmeng.com
"Nlore Protectioll, J.CS5 Process Il
il'ww.dep.stilfejLLL5.
..,.-----.-.
"-' '-',-"-
- --".... ..--........-..........,..-, _..,-.,.',
~-,._...._._.._~--~'
EXHIBIT L
STANDARD DETAILS
See Separate downloadable file from www.colliergov.netlbid
GC-CA-L-1
EXHIBIT M
PLANS AND SPECIFICATIONS
See Separate downloadable file from www.colliergov.netlbid
GC-CA-M-1
,~--~, ~,~.~."._, ,-
EXHIBIT N
CONTRACTOR'S KEY PERSONNEL ASSIGNED TO THE PROJECT
GC-CA-N-1
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EXHIBIT N
CONTRACTOR'S KEY PERSONNEL ASSIGNED TO THE PROJECT
.
GC-CA-N-1
ITEM NO,: :Or w.c..~ 0\ SPY
FILE NO,:
Bf\t~~1 ~~q't1~ED:
, "-)II~n\! ,\'!FiPNEY
1-,\"",1", '\' ','",1
DO NOT WRITE ABOVE THIS LINE
'1'" I 1"'< r ~.r .e. :.
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c
ROUTED TO:
REQUEST FOR LEGAL SERVICES
Date: March 30, 2010
~
To: Office of the County Attorney
Attention: Jeff Klatzkow
From: Dianna Perryman" Contract Specialist
Purchasing Department, Extension 4270
Re: Contract: #10-5446 "NCWRF Compliance Assurance Project"
Contractor: Douglas N, Higgins, Inc,
BACKGROUND OF REQUEST:
This Contract was approved by the BCC on March 23, 2010, Agenda
Item 10,A
!
'/
,
This item has not been submitted,
ACTION REQUESTED:
Contract review and approval.
OTHER COMMENTS:
Jeff, please forward to the Chairman of the Board of County
Commissioners for signature after approval. If there are any questions
concerning the document, please contact me, Purchasing would appreciate
notification when the documents exit your office. Thank you,
C: Pete Schalt, PUPPMD
-
~
[;
4((o~l()
'------ ~."--,_.._q--,~- ,
w. __.. __.^"" _
~"-
MEMORANDUM
TO: Ray Carter
Risk Management Department
,.-OJ
FROM: Dianna Perryman, Contract Specialist ~
Purchasing Department
DATE: March 30, 2010
RE: Review of Insurance for Contract: #10-5446 "NCWRF Compliance
Assurance Project"
Contractor:
Douglas N, Higgins, Inc,
This Contract was approved by the BCC on March 23, 2010, Agenda Item
10,A
Please review the Insurance Certificates and Payment & Performance Bonds
for the above-referenced contract. If everything is acceptable, please forward
to the County Attorney for further review and approval. Also, please advise
me when it has been forwarded, Thank you, If you have any questions,
please contact me at extension 4270,
MTE RECEIVED
MAR 3 \ ?O\O
RISK
dod/DP
C: Pete Schalt, PUPPMD
, -,--~,-~-_.. - --".-
-~~._--
--~,--,'--_..,,--,.,.,,'.._~',-',
mausen_9
From:
Sent:
To:
Cc:
Subject:
RaymondCarter
Thursday, April 01, 2010 9:57 AM
perryman_d
mausen_g; schalt_p; HerreraSandra; GazgaNorberto
Contract 10-5446 "NCWRF Compliance Assurance Project"
All, I have approved the Payment and Performance Bonds, and the certificate of insurance provided by Douglas N,
Higgins, Inc. for contract 10-5446, Risk Management will "walk" this contract to the county attorney's office for their
review this morning,
Thank you,
Ray
Manager Risk Finance
Office 239-252-8839
Cell 239-821-9370
Under Florida Law, e-mail addresses are pubhc records, If you do not want your e-mail address released in response to a public records request, do not send
electronic mail to this entity. Instead, contact this office by telephone or in writing,
1
www,sunbiz.org - Department of State
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Detail by Entity Name
Foreign Profit Corporation
DOUGLAS N, HIGGINS INC,
Filing Information
Document Number 830666
FEI/EIN Number 381807765
Date Filed 08/0111973
State M'
Status ACTIVE
Principal Address
3390 TRAV,S POINTE RD,
SUITE A
ANN ARBOR MI 48108 US
Changed 01/25/2000
Mailing Address
3390 TRAVIS POINTE RD,
SUITE A
ANN ARBOR MI48108 US
Changed 01125/2000
Registered Agent Name & Address
CFRA, LLC
CORPORATE CENTER THREE AT INTL PLAZA
4221 W. BOY SCOUT BLVD, 10TH FLOOR
TAMPA FL 33607-5736 US
Name Changed: OS/27/2003
Address Changed: 06/28/2004
Officer/Director Detail
Name & Address
Title V
SWEET. JAMES H,
9462 HIDDEN LAKE CIRCLE
DEXTER MI
Title ST
HAWKER, SUZANNE
9462 HIDDEN LAKE CIRCLE
DEXTER MI
http://www,sunbiz,org/scripts/cordet.exe?action=D ETFIL&inq_ doc _ number=830666&inq,., 3/23/2010
, -",-~'-_.~'-'_'.'"-,,,
.--"--'_._.._-""'"'.~-,,,..._,...,.-~--,,'-,-~,",.""''',~'''','-----~-;,,-~'~~~,""""""-""_.<~,",,,,,,
-"",--'
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www,sunbiz,org - Department of State
Page 2 of3
Title PD
HIGGINS, DOUGLAS N
3390 TRAVIS POINTE RD" SUITE A
ANN ARBOR, MICH 00000
Title V
WILKIE, KELLY
3390 TRAVIS POINTE RD / #A
ANN ARBOR MI48108
Title V
HIGGINS, DANIEL
3390 TRAVIS POINTE RD, SUITE A
ANN ARBOR MI48108
Title V
WILLIAM, HIGGINS
3390 TRAVIS POINTE RD/ #A
ANN ARBOR MI48108
Annual Reports
Report Year Filed Date
2008 01/07/2008
2009 01/20/2009
2010 01/04/2010
Document Imag~
01/04/2010-- ANNUI\LREPQBI [
oJ 120/2009 -- ANNUALBEPQjH [
01/Q7/2008= ANNUAL REPORT [
QJ/17/200.L= ANNUALREPORT_ [
OJLl7/200EL- ANNUAL REPORT [
01/19/2005 -- ANNUAL REPORT [
02/02/2004= ANNUAL REPORT I
OS/27/2003 "c, Reg, AgentChElH!lle [
01/17/2003 -- ANNUAL REPORT [
02/04/2002 -- ANNUAL REPORT [
01/22/2001 -- ANNUAL REPORT [
01/25/2000 -- ANNUAL REPORT [
02/22/1999 -- ANNUAL REPORT (
01/26/1998 -- ANNUAL REPORT [
02/03L199} =ANNUAL REPORT [
01/26/1996 = ANNUAL REPORT (
OJL25/1995 =ANNUALREPORT [
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Note: This is not official record. See documents if question or conflict.
.Pre.YJQ!J~_ on List
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http://www, sunbiz,org/scripts/cordct.exe?action=D ETFIL&in~ doc _ numbcr=830666&inq.., 3/23/2010
. '-,~
...---,~-:' -, .. '
CmXKLIST FOR REVIEWING CON';~~~~;rs- -LU-~cl.-O I SQy
\ 't\ c
fC~.
Entity Name: __'_'.~,:\
Entity name correct on contract? ''-,.....j
Entity registered with FL Sec. of State?
No
No
Insurance
Insurance Certificate attached?
Insured registered in Florida?
Contract # &lor Project referenced on Certificate?
Certificate Holder name correct (BCC)?
Commercial General Liability
General Aggregate Reqnired $ Provided $ ') (l\ ~ \\
Products/Compl/Op Required $ Provided $ '~3'\ \L
Personal & Advert Required $_ ' Provided $ \_-' \ C
Each Occurrence Required $ '';J.. (' \ ~ \ \ ProvIded $ ~;;; l~_
Flle/Prop Damage Reqmred $ un ProvIded $ " 'If....
Automobile Liability _ . \
Bodily Inj & Prop Required If')[)() [1'\- \Provided $ \rY\',\L Exp Date
Workers Compensation \ A' /;
Each accident Required $ ~~ Provided $ 500 i-
Disease Aggregate Required $ ') rf\ ' Provided $ I , '..!_
Disease Each Emp] Rcquired $ II Provided $ -.\ "Y"'" IL
Umbrella Liability
Each Occurrence Provided $ ~ f h\l Exp Date,
Aggregate Provided $.....tl ,/ Exp Date
Does Umbrella s~fficien.tIy .c~ver any underinsured.,portj()n? -X Yes
ProfessIOnal Llablllty"", ?=,\\u I< 0 - , \
Each Occurrence Required $ u Provided $ ~('0" \ Exp, Date
Per Aggregate Required $ Provided $ Exp, Date
Other Insurance
Each Occur Type:' (, \ f Required $:LD.i.i.1.\... Provided $____"
\ ; ;-l->\
County required to be named as additJ1Jm) insured?
County named as additional insured?
~'
......... Yes
..--/ Yes
'_.._m'..__.
____/ Yes
--
.....--:::::Yes
No
No
No
No
Exp. Date u, \ (). \ \011D
Exp, Date '''Un
Exp, Date ((
Exp, Date
Exp, Date
/ )
() \ D
Exp Date ---LiM \ ()
Exp Date __ ,_u, II J
Exp Date /
,
J
.- \;;;)40\ \i.)
t ( ~ I
No
\ ulu2..\ I D
Exp Date
LJ2s'
VYes
No
No
Indemnification
Does indemnification meet County standards?
Is County indemnifying other party?
Performance Bond
Bond requirement referenced in contract?
If attached, expiration date of bond
Does dollar amount match contract?
Agent registered in Florida?
Signature Blocks
Correct executor name in signature block?
Correct title of executor?
Executor authorized to sign for entity?
Proper number of witnesses/notary?
Authorization for executor to sign, if necessary: _"
Chairman's signature block?
Clerk's attestation signature block?
County Attorney's signature block?
Attachments
Are all required attachments included?
Yes
No /",
---RtviewcrlnitialsJ
Dale: L--
04-COA-()
,
01 22
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