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Agenda 12/09/2014 Item #17B 12/9/2014 17.B. EXECUTIVE SUMMARY Recommendation to approve a Resolution amending the Collier County Water-Sewer District's Utilities Standards Manual. OBJECTIVE: To provide needed updates to the current Collier County Water-Sewer District Utilities Standards Manual (Manual) that governs the installation of sustainable and safe utilities infrastructure within the county. CONSIDERATIONS: On May 11, 2004, under Agenda Item 8 D,the Board of County Commissioners, Ex Officio the Governing Board of the Collier County Water-Sewer District (Board), concurrently adopted Collier County Ordinance No. 2004-31, the Collier County Utilities Standards and Procedures Ordinance (Ordinance), and the Manual, including all of the Manual's exhibits, as amended. These documents provide county procedures and guidelines for the design and construction of both county- constructed and privately-constructed utilities systems in Collier County. The Manual, an integral part of the Ordinance, provides engineering and drawing detail sheets for components of utility systems. Public Utilities Division staff vetted all proposed changes with the Development Services Advisory Committee (DSAC), the Collier Building Industry Association (CBIA), the development community (engineers and contractors), and the Public Utilities Division's Water and Wastewater Departments to achieve the optimal,best-value design, operation, and maintenance of the utilities infrastructure. The DSAC, the Public Utilities Division, and the Growth Management Division actively participate in monthly utilities discussion group meetings and reviewed the proposed Manual revisions in detail. On December 3, 2014, at its regular DSAC meeting, the proposed Manual revisions were unanimously approved in their entirety and recommended to be forwarded to the Board. The proposed changes to the Manual are listed in the attached Table of Revisions. Upon approval of the proposed resolution, the changes to the Manual will be effective January 1, 2015. A summary of the attached Resolution has been advertised in the Naples Daily News as required in Section 11 of the Ordinance. The attached Resolution was on file with the Clerk of the Board for public review and inspection. FISCAL IMPACT: There is no fiscal impact associated with this action. LEGAL CONSIDERATIONS: This item is approved as to form and legality, and requires majority vote for Board approval.—SRT GROWTH MANAGEMENT IMPACT: This action is consistent with, and will further the Goals, Objectives, and Policies of the Collier County Growth Management Plan standards to ensure the adequacy and availability of viable public facilities. RECOMMENDATION: That the Board of County Commissioners, Ex Officio the Governing Board of the Collier County Water-Sewer District, approve the attached Resolution amending the Collier County Water-Sewer District Utilities Standards Manual. PREPARED BY: Nathan Beals, Project Manager, Public Utilities Planning and Project Management Department Attachments: Resolution and Table of Revisions to Manual Packet Page -2589- 12/9/2014 17.B. COLLIER COUNTY Board of County Commissioners Item Number: 17.17.B. Item Summary: Recommendation to approve a Resolution amending the Collier County Water-Sewer District's Utilities Standards Manual. Meeting Date: 12/9/2014 Prepared By Name: Nathan Beals Title: Project Manager, Public Utilities Engineering 11/19/2014 4:38:17 PM Submitted by Title: Project Manager,Public Utilities Engineering Name:Nathan Beals 11/19/2014 4:38:18 PM Approved By Name: HapkeMargie Title: Recycling Coordinator, Solid&Hazardous Waste Management Date: 11/20/2014 8:49:18 AM Name: Steve Messner Title: Director-Water, Water Date: 11/20/2014 11:35:38 AM Name: Joseph Bellone Title: Director-Operations Support,Utilities Finance Operations Date: 11/20/2014 3:02:58 PM Name: ChmelikTom Title: Director-Public Utilities Engineering,Public Utilities Engineering Date: 11/20/2014 4:49:39 PM Name: SunyakMark Packet Page-2590- 12/9/2014 17.B. Title: Project Manager,Principal,Public Utilities Engineering Date: 11/21/2014 10:36:54 AM Name: HapkeMargie Title: Recycling Coordinator, Solid&Hazardous Waste Management Date: 11/24/2014 8:44:03 AM Name: JohnssenBeth Title: Director-Wastewater, Wastewater Date: 11/24/2014 8:51:10 AM Name: JacobsSusan Title: Operations Analyst,Public Utilities Division Date: 11/24/2014 10:38:11 AM Name: PajerCraig Title: Project Manager, Principal,Public Utilities Engineering Date: 11/24/2014 10:57:11 AM Name: TeachScott Title: Deputy County Attorney, County Attorney Date: 11/24/2014 4:36:02 PM Name: YilmazGeorge Title: Administrator-Public Utilities,Public Utilities Division Date: 11/25/2014 10:45:15 AM Name: KlatzkowJeff Title: County Attorney, Date: 11/25/2014 4:27:40 PM Name: FinnEd Title: Management/Budget Analyst, Senior, Transportation Engineering& Construction Management Date: 11/25/2014 4:47:11 PM Name: OchsLeo Title: County Manager, County Managers Office Date: 11/30/2014 11:15:55 PM Packet Page-2591- 12/9/2014 17.B. RESOLUTION NO.2014 - A RESOLUTION OF THE BOARD OF COUNTY COMMISSIONERS OF COLLIER COUNTY, FLORIDA AS EX-OFFICIO THE GOVERNING BOARD OF THE WATER-SEWER DISTRICT APPROVING AMENDMENTS TO THE COLLIER COUNTY WATER-SEWER DISTRICT'S UTILITIES STANDARDS MANUAL, WHICH IS AN INTEGRAL PART OF COLLIER COUNTY ORDINANCE NO. 2004-31, KNOWN AS THE COLLIER COUNTY UTILITIES STANDARDS AND PROCEDURES ORDINANCE, CODIFIED IN CHAPTER 134, ARTICLE III OF THE CODE OF LAWS AND ORDINANCES; AND PROVIDING FOR A DELAYED EFFECTIVE DATE OF JANUARY 1, 2015 FOR THE REVISED MANUAL. WHEREAS, on May 11, 2004, as Agenda Item 8 D, the Board of County Commissioners as the Ex Officio Governing Board of the Water-Sewer District (Board) concurrently adopted Collier County Ordinance No. 2004-31, entitled the Collier County Utilities Standards and Procedures Ordinance (the "Ordinance"), and the Collier County Water- Sewer District Utilities Standards Manual,"(Manual), including all of the Manual's exhibits; and WHEREAS, Ordinance No. 2004-31 is codified in Chapter 134, Article III of the Collier County Code of Laws and Ordinances; and WHEREAS, since the 2004 adoption of the Manual it has become necessary to make updates that reflect current standards in design and preparation of plans and specifications for all utilities construction projects; and WHEREAS, after input from stakeholders staff has recommended that the Board adopt this Resolution to approve amendments to the Manual as identified in the attached Exhibit A; and WHEREAS, Section 134-61 of the Code of Laws and Ordinances requires the Manual to be amended by Resolution of the Board under the scheduled public hearings or the summary agenda section; and WHEREAS, the adoption of this Resolution and the attached identified amendments to the Manual advances the health, safety and welfare of the residents of Collier County. Packet Page-2592- 12/9/2014 17.B. NOW, THEREFORE, BE IT RESOLVED BY THE BOARD OF COUNTY COMMISSIONERS OF COLLIER COUNTY, FLORIDA AS EX-OFFICIO THE GOVERNING BOARD OF THE WATER-SEWER DISTRICT,that: The amendment of the Collier County Water-Sewer District Utilities Standards Manual as provided in attached Exhibit "A" is hereby approved and shall take effect on the 1st day of January,2015. This Resolution adopted after motion, second and majority vote, this 9th day of December, 2014. ATTEST: BOARD OF COUNTY COMMISSIONERS OF COLLIER DWIGHT E. BROCK, COUNTY, FLORIDA, AS EX-OFFICIO THE GOVERNING CLERK BOARD OF THE WATER-SEWER DISTRICT By: ,Deputy Clerk TOM HENNING, CHAIRMAN Approval as to form a�gality: s-lif // 1 / Scoit R. 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N E") .0 N S Dzcr. . 4- H c co Cl) z5z �c 3 .s 3o 3 .o x J cc a, Cl) r a, F- v F- a Q a N a N a .1 J G 0 m Packet Page-2598- 12/9/2014 17.B. Proposed Revision to Section 1, Design Criteria Proposed additions in text are noted in bold. Proposed deletions in text are noted in ctril + gh. Section 1, Design Criteria, Page 1, text revisions in 1.1 1.1 Pipe and Fitting Material Potable water pipelines and fittings, except for service piping, shall be a minimum of six inches (6") in diameter, and have a minimum depth of thirty-inches (30") and a maximum depth of forty- eight inches (48") below finished grade. Non-potable irrigation water pipelines and fittings, except for service piping, shall be a minimum of four inches (4") in diameter, and have a minimum depth of thirty-inches (30") and a maximum depth of forty-eight inches (48") below finished grade. All potable water or non-potable irrigation water pipelines shall be constructed of ductile iron, HDPE, or PVC pipe, and shall utilize pipe meeting the requirements of the Technical Specifications. HDPE shall not be used for pipelines with service connections. Pipelines up to thirty inches (30") in diameter may be constructed of Fusible PVC. All pipe and pipe fittings shall contain no lead pursuant to the Reduction in Lead in Drinking Water Act more than eight percent (8.-V/0)-load, and any solder or flux used shall contain no more than two tenths of a percent (0.2%) lead. All pipe and pipe fittings installed shall be color coded or marked in accordance with F.A.C. 62-555.320(21)(b)3. - e- _•: _ .- • _ . .- -- hall be color coded as described in the Technical Specifications. Potable water pipelines shall be blue in color. Raw water pipelines shall be white in color. Non-potable irrigation, reclaimed, and reuse water pipelines shall be pantone purple in color. All buried water pipelines and mains, except those installed by horizontal directional drilling or jack-and-bore methods, shall be marked using metalized warning tape for HDPE and PVC pipe and non-magnetic for ductile iron pipe. The locator tape shall be placed in the pipe trench two feet (2') below grade or one-half the pipe's bury, whichever is less, and labeled "potable water' or "non-potable water" as applicable. Horizontal directional drilling shall include installation of at least two locating tone wires as described in the Technical Specifications. All water main aerial crossings shall be Pressure Class 350 flanged ductile iron pipe and shall be coated on the exterior using a suitable grade of appropriately colored, field applied (or factory applied with field touch-up as required) epoxy coating. Potable water mains shall be painted Federal Safety Blue. Raw water mains shall be painted white. Non-potable irrigation, reclaimed, and reuse water mains shall be painted Pantone Purple 522C. Specific colors shall be subject to approval of the County Manager or designee. All nuts and bolts used in aerial crossings shall be stainless steel. All canal, river, or creek crossings shall be aerial, unless otherwise approved by the County Manager or designee. Aerial crossings shall be designed to incorporate valves or other flow regulation devices in accordance with F.A.C. 62-555.320(21)(b). Aerial crossings shall be designed to maintain existing or required navigational capabilities within the waterway and to reserve riparian rights of adjacent property Owners. Submit aerial pipe and flange computations, including support and anchor design, for review. The submittal must be signed and sealed by a Florida registered Licensed Professional Engineer. Page 6 of 48 Packet Page -2599- 12/9/2014 17.B. Proposed Revision to Section 1, Design Criteria Proposed additions in text are noted in bold. Proposed deletions in text are noted in strife- h. Section 1, Design Criteria, Page 3, text revisions in 1.2.2 1.2 Design of Pipeline Size and Location 1.2.2 Distribution System Layout Generally, nNew potable water distribution systems shall be designed as "looped" systems to avoid dead ends. A "looped" system should have two independent connections off the source main (unless served by a master meter). If two independent connections aren't possible, a stub out for future development in a location agreed to by the County shall be provided in an easement or ROW to the limits of the project. If changes in design during construction result in dead ends to any new or relocated water mains, such dead ends shall be connected to the nearest water main. In cases where no nearby water main is available, a County approved automatic flushing device shall be provided at each dead end of a water main and, if applicable, also near the mid-point of a looped water main unless the design engineer can provide information to confirm that the minimum residual chlorine will be maintained based on the predicted water consumption at the time of County acceptance of the water main. At no time shall a dead end serve more than 149 residential units. For phased projects, temporary automatic flushing devices can be relocated for future phases, if not conveyed to County. Section 1, Design Criteria, Page 5, text revisions in 1.3.1 1.3 Conflict Crossings 1.3.1 Subaqueous Canal Crossings All subaqueous crossings must be introduced/discussed at a plan Pre-Submittal Conference. It is important that representatives from the Water Department or Wastewater Department and c,D€S--GMD be present for approval at the plan Pre-Submittal Conference. Page 7 of 48 Packet Page-2600- 12/9/2014 17.B. Proposed Revision to Section 1, Design Criteria Proposed additions in text are noted in bold. Proposed deletions in text are noted in etri ough. Section 1, Design Criteria, Page 6, text revisions in 1.4 1.4 Fire Service Systems All private fire service systems for sprinkler systems, wet standpipe systems, and privately- owned or controlled distribution systems shall be installed with an appropriate backflow prevention device with a leak detection meter. The meter-backflow device shall be sized by the Developer's Engineer and shall be purchased, owned and maintained by the private service owner. The COUNTY requires all privately-owned backflow devices to be certified at the time of installation and on an annual basis by a Certified Backflow Tester (University of Florida, TREED Center, or equivalent certification program). The results shall be submitted to the County Manager or designee. The County Manager or designee will require all privately owned metering devices to be certified for accuracy at the time of installation. Fire meter devices using a three quarter to two inch (3/4" to 2") metering device shall be re-calibrated to manufacturer's specifications every five (5) years, replaced every ten (10) years, or replaced immediately upon meter failure. Fire meter devices greater than two inches (2") shall be re- calibrated to manufacturer's specifications every five (5) years and replaced immediately upon meter failure. The County Manager or designee will inform the owner by mail prior to the due date. Private owner(s) shall submit certification results to the County Manager or designee within sixty (60) days of the due date. Section 1, Design Criteria, Page 7, text revisions in 1.6.2 1.6 Water Services 1.6.2 Water Meters Water meters shall be properly sized, based on the total calculated service demand for water, according to the Collier County Water Meter Sizing Form (Appendix B). The properly sized water meter shall be installed according to specifications and standards. Any deviation from the determined meter size shall require an approved Deviation Request, (2") or larger in size. Page 8 of 48 Packet Page-2601- 12/9/2014 17.B. SECTION 1 DESIGN CRITERIA FOR WASTEWATER FACILITIES PART 2 WASTEWATER COLLECTION AND TRANSMISSION SYSTEMS All wastewater pipe, material, equipment and appurtenances shall be new, and shall conform to Section 2, Technical Specifications and Section 3, Utilities Detail Drawings. Wastewater systems shall be designed to maintain adequate flows and pressures and weer quality standards as established by Florida Department of Environmental Protection (FDEP), using the equivalent residential connection (ERC) value of 250 gallons per day per residential unit (broken down to 100 gallons per day per person and 2.5 people per household) and F.A.C. 64E-6.008 for non—residential. All wastewater projects shall be designed to preclude the deliberate introduction of storm water, surface water, groundwater, roof runoff, subsurface drainage, swimming pool drainage, air conditioning system condensate water, non-contact cooling water, and sources of uncontaminated wastewater as specified in F.A.C. Chapter 62-610 and comply with Ordinance 2012-13 "Collier County Industrial Pretreatment Ordinance. 2.1 Gravity Sewer Systems 2.1.1 Pipe and Fitting Materials Gravity sewer pipe and materials shall conform to Technical Specifications for polyvinyl chloride (PVC) pipe and fittings. All pipelines shall be green in color. 2.1.2 Design of Pipeline Size, Depth and Location All gravity sewer mains constructed shall be a minimum of eight inches (8") in diameter. The minimum depth of cover over all gravity sewers shall be thirty-six inches (36"). All gravity sewer designs shall consider buoyancy of sewers, and appropriate construction techniques to prevent floatation of the pipe where high groundwater conditions are anticipated. All gravity mains eight inches (8") or larger are allowed to be core bored into existing manholes. The manhole must be restored as per Section 333913. An inspector from the Wastewater Collections Department must be present during manhole restoration. Drop connections will be required if the invert elevation is greater than two feet(2')above the invert of the manhole. Hydraulic Design Requirements - All gravity sewers shall be designed to give mean velocities, when flowing full or half-full of not less than two feet (2') per second, based on Manning's formula. When calculating full-flow velocity, use a Manning's Roughness Coefficient of n=0.013. Design wastewater system with uniform slope between manholes. The following are the minimum allowable design slopes that may be provided for each pipe size listed: Minimum Slope in Feet per One Hundred Feet (ft/100'): Sewer Size Slope (ft/100 ft) I Sewer Size Slope (ft/100 ft) 8 inch j 0.40 18 inch 0.12 Page 9 of 48 Packet Page-2602- 12/9/2014 17.B. 10 inch 0.28 21 inch 0.10 12 inch 0.22 24 inch 0.08 15 inch 0.15 Special attention shall be given to gravity lines that receive flows from wastewater transmission or re-pumping facilities. Due care shall be taken in these cases to ensure that no surcharge conditions occur downstream due to excessive flow rates. Under no conditions shall pipe of a diameter larger than that necessary for proper hydraulic design as determined by the COUNTY Community Development and Environmental ScrvicccGrowth Management Division or Public Utilities Planning and Project Management Department be permitted for use on any project. Sewers to be located on 20% slopes or grtater shall bo designed with anchors cecured into 1 Grade Range Anchor Soacina 20% 35% 36 feet center to center 35% 50% 2,1 feet center to center 50% and higher 16 feet center to center Pipeline separation criteria and conflict crossings criteria shall conform to the requirements described in Part 1, Sections 1.2.3 and 1.3. All sewers shall be designed to prevent superimposed loads. 2.1.3 Gravity Sewer Main Extension Stubs All main-line extension stubs to future developments and/or parcels shall terminate in a stub-out if it is part of a phased project. The stub-out shall end with a bell. 2.1.4 Gravity Sewer Laterals Laterals shall be extended to the property line or easement limit for all installations. Laterals shall be a minimum of six inches (6") in diameter. Lateral shall have a minimum depth of thirty inches (30") and a maximum depth of forty-eight inches (48") below finished grade. In locations where a minimum depth of thirty inches (30") cannot be provided, laterals shall be C900, DR 14 PVC pipe. At no time shall the depth of a lateral be less than twenty-four inches (24"). At no time shall a lateral be core bored into manholes. Upon installation, all lateral ends shall be plugged. A cleanout shall be provided at the end of each lateral prior to the end plug. Typical lateral and cleanout standards are shown in the Utilities Detail Drawings. The cleanout riser and cap shall be set twenty-four inches (24") above finished grade. All sewer lateral ends shall be provided with an electronic marker (see County Approved Product List, Appendix F). Electronic markers shall be placed twenty-four inches (24") below final grade at the cleanout, for COUNTY inspector to see during final plumbing tie-in inspection. At no time shall the connection to the lateral be made to the cleanout riser or any part of the vertical assembly. Either a single six inch (6") diameter or larger lateral to each property or a single six inch (6") or larger lateral with a double wye shall be provided. Page 10 of 48 Packet Page -2603- 12/9/2014 17.B. 2.1.5 Manholes Precast concrete manholes shall be installed at the end of each wastewater main, at all changes in grade, size, or horizontal alignment, and at all main pipe intersections, shall be spaced at distances not greater than four hundred feet (400') and shall be placed in roads. For I sanitary sewers with a diameter greater than fifteen inches (15"), the recommended-maximum distance between manholes is four hundred fifty feet (450'). All gravity collection mains shall terminate in a precast manhole. Minimum inside diameter of all manholes shall be four feet (4'). A drop pipe shall be provided for a sewer entering a manhole at an elevation of twenty-four inches (24") or more above the manhole invert. Drop manholes shall be constructed with an outside drop connection encased in concrete, as shown in the Utilities Detail Drawings. See FDEP Wastewater Checklist Form 62- 604.300(8)(a), "Manholes" section, for further design requirements, as well as Specification Section 333913 and the Detail Drawings. 2.2. Force Mains 2.2.1 Pipe and Fitting Materials Force main pipelines and fittings shall be a minimum of four inches (4") in diameter. All force mains between four and fourteen inches (4"-14") in diameter shall be constructed of PVC or HDPE pipe and shall utilize pipe meeting the requirements of the Technical Specifications. Force mains sixteen inches (16") and larger in diameter shall be constructed of ductile iron, HDPE, or PVC pipe. • . _. . - • _ -e" . . . •- - - - _e• -- - Fusible PVC. Deviations from the minimum four inch (4") diameter pipeline design parameters shall only be approved in cases where such installations are necessary in order to comply with minimum FDEP velocity requirements. Whenever the minimum four inch (4") diameter pipeline cannot be provided, a COUNTY approved deviation form will be required. The Owner shall be rccponsible County ROW. No A check valve will be required to delineate County owned and privately owned. Due to minimum velocity requirements as cet-forth by the FDEP, one and a half inch (1 112") Specifications. All HDPE and PVC buried pipelines shall be color-coded as described in the Technical Specifications. Force main pipelines shall be green in color. Buried force mains, except those installed by directional drill or jack-and-bore methods, shall be marked using metalized warning tape for PVC pipe and non-magnetic for ductile iron pipe. The metalized warning tape shall be placed in the pipe trench at two feet (2') below grade or one- half the depth of the pipe's bury, whichever is less, and labeled "WASTEWATER FORCE MAIN." Electronic markers (see County Approved Product List, Appendix F) shall be placed twenty-four inches (24") below final grade, above the force main, at all bends or changes in alignment, valves, and every two hundred fifty feet (250'). Horizontal directional drilling shall include installation of at least two locating tone wires as described in the Technical Specifications. Page 11 of 48 Packet Page-2604- 12/9/2014 17.B. All force main aerial crossings shall be Pressure Class 350 flanged ductile iron pipe and shall be coated on the exterior using a suitable grade of Safety Green colored, field applied (or factory applied with field touch-up as required) epoxy coating. Specific color shall be subject to approval of the County Manager or designee. All nuts and bolts used in aerial crossings shall be stainless steel. All canal, river, or creek crossings shall be aerial, unless otherwise approved by the County Manager or designee. Aerial crossings shall be designed to incorporate valves or other flow regulation devices in accordance with F.A.C. 62-604.400(2)(k)5. Aerial crossings shall be designed to maintain existing or required navigational capabilities within the waterway and to reserve riparian rights of adjacent property Owners. Submit aerial pipe and flange computations, including support and anchor design, for review. The submittal must be signed and sealed by a Florida registered Licensed Professional Engineer. 2.2.2 Design of Pipeline Size and Location Force mains shall be sized to provide a desired flushing velocity of two and one-half feet (2.5') per second with a minimum allowable velocity of two feet (2') per second. The maximum allowable velocity in wastewater force mains is six feet(6') per second. The minimum size force main conveyed to the Beard--CCWSD shall be four inches (4") in diameter. When-the -- -• • - - - -. - - -- -- - - "-tion laces through the force main, the value for e • . • _• - -- e•-- . - - -- -- • - e - - - --• - - and lined ductile iron, the value far "C" shall not exceed 120.Approved mechanical thrust restraints are required at pipe joints where specified in the Utility Standards. Minimum cover for force mains shall be thirty inches (30"). Maximum cover shall be forty-eight inches (48") after final project grading is complete except when dipping under conflicts in which case the force main shall be returned to normal depth within ten feet (10') on either side of the conflict or as soon as possible using a fitting of forty-five degrees (45°) or less. The design engineer shall strive to minimize the number and frequency of dips (maintaining a horizontal run line through intermittent grade changes by deviation). An air release valve is required at all dips. Engineers should evaluate possibilities of lowering storm drainage piping or dipping potable water and IQ water mains to avoid dips in the force main. When -=force mains shah-beare interconnected with a gravity sewer system, for transmission purposes through that system, interconnection shall be as shown in the Utility Standard Drawings, - •- -_ --_ •_ • -- e- difeetfy-+• - - •-• - , .e -. - • - _ - - - the sewer System, Connestiens to any manhole shall he r a c using a flexible boot with ctainlos& steel strap. Thrust restraint transitioning to the manhole shall be designed-by the Engineer and det-. -e e' •- -e'- _- _• e - _ . No force main laterals shall be core bored into manholes. Pipeline separation criteria and conflict crossings criteria shall conform to the requirements described in Part 1, Sections 1.2.3 and 1.3. Force mains shall have a minimum setback of seven feet and six inches (7'6") from the centerline of the pipe to residential roadways, curb and gutters, permanent structures, or plantings not specifically allowed by ordinance and shall not be placed beneath any existing or proposed building structure. Page 12 of 48 Packet Page -2605- 12/9/2014 17.B. 2.2.3 Valves All connections of privately-owned and maintained wastewater force mains to the Wastewater Department's force mains shall be connected through a check valve housed in a structure as shown in the Utilities Detail Drawings which shall allow performance of required maintenance, and shall be owned and maintained by the property owner. Sufficient plug valves shall be provided to allow for zone isolation of wastewater transmission areas in order to limit the impact of line breaks. In-line plug valves shall be provided at no greater than one thousand foot (1,000') intervals per COUNTY requirements. 2.2.4 Force Main Extension Stubs All main-line extension stubs to future developments and/or parcels shall terminate in a stub-out if it is part of a phased project. The stub-out shall end with a valve and cap/plug. 2.2.5 Air Release Assemblies Air release assemblies shall be provided at all high points and on the upstream side of conflict crossings at which the force main passes under the conflict (unless it can be demonstrated by hydraulic analysis that air pockets will not accumulate at individual high points). A high point is defined by the hydraulic gradient and is considered the upper end of any pipe segment that slopes up to the hydraulic gradient or runs parallel to it. Air valves (see County Approved Product List, Appendix F) utilized on raw sewage facilities shall be designed and manufactured specifically for use with domestic sewage. The design engineer shall review and apply the pertinent provisions of AWWA-0512 and AWWA Manual of Water Supply Practices M51, "Air- Release, Air Vacuum, and Combination Air Valves". When installed, the air valve shall be provided with a shut-off valve to allow isolation and removal of the valve assembly. All air release assemblies shall be installed as shown in the Utilities Detail Drawings. I 2.3 Wastewater Pumpiflg Stations Wastewater pumping stations shall be designed and constructed in accordance with accepted engineering practicec,FDEP regulatory requirements, Section 2 Technical Specifications, National Electrical Code (NEC) Requirements, and Section 3 Utilities Detail Drawings. Pumping Station wetwells shall be designed to itvtation forces with the assumption that the structures are when--empty and ground/flood water elevation is at the top of the structures. The design shall consider the potential for damage or interruption of operation because ofdue to flooding. Pump station structures and electrical and mechanical equipment shall be designed to be protected from physical damage by the 100-year flood event. Pump stations shall be designed to remain fully operational and accessible during the 25-year flood event. - -- - *et. - - c are appropriate based on local considerations, but not less than the 10 year flood. Pump stations shall be designed to avoid operational problems from the accumulation of grit. Pump stations shall be designed to be readily accessible by maintenance vehicles, including pumper trucks, during all weather conditions. Pump stations shall be designed and located on the site to minimize adverse effects from odors, noise, and lighting. Pump stations shall be located on the site to have a minimum separation of twenty feet (20') from the edge of the CUE for the pump station to edge of a body of water and fifteen feet (15') from the edge of the CUE Page 13 of 48 -�! Packet Page -2606- 12/9/2014 17.B. for the pump station to a residential structure (including appurtenances). Also sec detail WW The effective volume of wet wells shall be based on design average flows and a filling time not to exceed 30 minutes unless the facility is designed to provide flow equalization. The pump manufacturer's duty cycle recommendations shall be utilized in selecting the minimum cycling time. Pump stations requiring a pump motor of twenty horsepower or greater shall operate by a VFD (variable frequency drive) that varies the operating speed of the pump based on wet well water levels. Pump stations shall have a compacted earth berm on three sides with 3:1 slopes to divert liquid toward the ROW. Top of berm shall be twelve inches (12") wide and six inches (6") higher than back of curb(with curb) or edge of pavement(without curb). Minimum berm height shall be six inches (6"). See detail WW 7A for further detail. When a pump station has a peak design flow coming into the station greater than 500 gpm, contact Public Utilities Planning and Project Management Department for specifications. Such determination shall be rnade at the sole disssretien of the P+ lie Utilities Division where found to be in the public-interest. A Master Pumping Station shall have permanent standby (100') minimum separation from the edge of the CUE t= -- --- - - __. - - - - A pump station that is connected directly to the County transmission force main from a development (Community Pump Station) shall have uninterrupted pumping capability (standby diesel pump or generator) with three days of fuel storage (compliant with Technical Specification 263213) and a concrete pad for a future odor control system. A Submastcr Pumping Station is any station that (1) has a total design flow gr ater than 120 or (2) has a design flow per pump greater than 200 gpm or(3) may be deter-mined by the Public Sans '. - - - - _' - - • - .. - - - - -- __._ - - - - • _ engineered biofiltration odor control system. All pump stations shall have water available to them. Available water means a water main is accessible in the adjacent ROW or CUE. If the water main is on the opposite side of the street ---- - - - -- -- - . -- - - foot(5') beyond the back of sidewalk on the same side of the street as the pump station. If no water is-available, a well is required to provide water to the pump station. Well separation requirements shall be in aceerdance with F.-AC. The well Landscaping shallmay be installed around developer constructed pump stations that are intended to be conveyed to the Public Utilities Division. Said--ILandscaping, if provided, shall Page 14 of 48 = 1 Packet Page-2607- 12/9/2014 17.B. be maintained by the developer, homeowners association, or land owner and shall NOT be located in the CUE. Landscaping, if provided, shall be located as to not block access or interfere with operationson the three silos without the gate and shall be at Ic\act 75% of tho minimum of 80% opacity at maturity and have a non intrucivc root structure. If required plant material dies, it is the responsibility of the landscaping owner to replace it. The landscaping shall be maintained to not block telemetry antenna line of site. 2.4 Connections to Collier County Facilities Connections to existing COUNTY wastewater mains shall be constructed as described in the Technical Specifications and shown in the Utilities Detail Drawings. These details shall apply to all connections to existing systems. All projects shall be designed with no physical connections between a public or private potable water supply system and a sewer or force main and with no water mains passing through or coming into contact with any part of a sewer manhole. 2.5 Tests and Inspections Tests and inspections of all wastewater systems or portion(s) thereof shall be performed in accordance with the Technical Specifications before acceptance of the systems or portions thereof by Collier County. 2.6 Wastewater Pumping Station Asset Management Asset management is required for proper use and maintenance of these wastewater facilities. State of Florida DEP regulations state: "...systems shall be operated and maintained so as to provide uninterrupted service..." To accomplish this obligation on privately owned wastewater pumping stations, the owner(s) of each such station shall: A. Maintain a permanent fence with a sign mounted thereon, which sign shall include the correct name and phone number(s) of at least one emergency contact individual and the correct name(s) and phone number(s) of the station's operator as well as the station's owner(s). The text on the sign must be immediately updated if and when any of the information on the sign becomes outdated. B. The station's owner shall continuously retain (contract with) an operator qualified under Florida laws, rule or regulation, for Operations, Preventive Maintenance, and to respond to each service interruption, if any, at that station. The above requirements are mandated by the Florida Department of Environmental Protection regulations: Florida Administrative Code, Subsection 62-604.500. Also refer to the Standard Details for additional information that applies to the above noted signage requirements. Page 15 of 48 Packet Page -2608- 12/9/2014 17.B. SECTION 333200 PUMPING STATIONS PART 1 GENERAL 1.1 SCOPE OF WORK A. This section includes the following items: wet wells, valve vaults, access covers, pumps, wet well equipment, valves, emergency bypasses, pump control panels, pump controller/RTU, antenna subsystem, disconnects, electric meters, electric service, pump wiring, lightning arrestors, and pre-engineered biofiltration odor control systems. B. Conform all pumping stations to the specifications, Utilities Detail Drawings, and latest National Electrical Code (NEC) requirements. B:C. When a pump station has a peak design flow coming into the station greater than 500 gpm, contact Public Utilities Planning and Project Management Department for specifications. cD. For systems eligible to be taken over by the COUNTY, provide enough room to operate and maintain all water and wastewater systems in a simple and non- awkward manner. If a master meter or a pumping station pump needs to be replaced, provide enough room for the COUNTY to readily remove the pump, and to do so without interfering with traffic. In order to be eligible for conveyance to the COUNTY, the pumping station easement area must be designed to 30'X30', or twice the depth of the wet well by twice the depth of the wet well, whichever is larger, as defined in the Collier County Standards and Procedures Ordinance, Subsection 7.7(c), as amended or superceded. D.E. Schedule required COUNTY inspections of (1) pumping station installation prior to cover-up and (2) pumping station start-up. E.F. Install all fencing around the pumping station in accordance with Section 323113. PART 2 EQUIPMENT 2.1 MATERIALS A. Wet Well: The concrete structure shall consist of precast, reinforced sections conforming to ASTM C76 and/or ASTM C478. 8-foot diameter wet wells shall have a minimum wall thickness of 8 inches. Wall thickness for larger wet wells shall conform to ASTM standards for wall thickness, but shall not be less than 8 inches in any case. The minimum inside diameter for all wet wells eligible to be owned and maintained by Collier County shall be 8 feet. As a deviation, a 6-foot diameter wet well can be utilized if the ENGINEER can demonstrate that the wet Page 16 of 48 Packet Page -2609- 12/9/2014 17.B. well is sufficient hydraulically and the developer can demonstrate that the pumping station shall be used for the perpetual and exclusive use of that particular development. For pumping stations that will not be owned and maintained by Collier County, the ENGINEER shall set the design specifications for the wet well, provided such design does not in any way endanger the health, safety and/or welfare of the public. Base riser section shall be monolithically cast with the base slab. All concrete shall utilize Type 2 cement and have a minimum compressive strength of 4000 psi at twenty eight (28) days. On new construction, if more than one hole is abandoned and required to be cemented in, provide a new wet well barrel section. Reinforcing steel for all wet well structures should be sized by the unit manufacturer and verified by the ENGINEER. All connections to the wet well for gravity sewer piping shall be equal to those for manholes as described in Section 333913. Factory double coat all exterior surfaces with an acceptable bituminous or epoxy sealer a minimum of 18 mils thick. Seal all riser joints utilizing plastic joint sealing compound (see County Approved Product List, Appendix F) or other suitable bituminous or rubber sealing material. Reinforcement and top slab thickness shall be specified by the design ENGINEER for H-20 loadings in all cases. Minimum reinforced slab thickness shall be 8 inches. Typical standards for wet wells are available in the Collier County Standard Details. The ENGINEER shall be responsible for designing all wet well structures to overcome buoyancy forces exerted on the installed structure. Coat all wet well interiors with an acceptable field applied internal protection (see County Approved Product List, Appendix F) in accordance with Section 099723. B. Above-Ground Valves and Piping Vault: The vault wall may be poured in place base slab shall be utilized. Minimum slab thicknesf shall be 8 inches. Reinforcement and top slab thickness shall be as specified by the ENGINEER for H 20 loading in all cases. Vault shall be located as close to the wet well as with a check valve (see County Approved P-foduct List, Appendix F). Factory double coat all interior and exterior walls of va#Its (minimum 18 mils thick) with an Product List, Appendix F) in accordance with Section 099723. Vault Above- ground valves and piping must be positioned so that it does not lie above any gravity sewer line entering the wet well, unless field conditions dictate otherwise and the COUNTY has granted prior approval. Enclose all tees, elbows and fittings transitioning the pumping station dis -- - - e - - e • - -- - - adequate for maintenance and repair of all components within the vault. Typical above-ground valves and piping vault standards are located in the Collier County Standard Details. • -•- -- - - - - -- - - - - • - - - be made equal to pipe connections for manholes as discussed in Section 333913. The annular space around the boots shall not be grouted when the piping work is Page 17 of 48 Packet Page -2610- 12/9/2014 17.B. C. Pumps: Sewage pumps (see County Approved Product List, Appendix F) shall be of the submersible type suitable for operation in sewage of temperature not exceeding 115 degrees Fahrenheit. -- --_ e - - - -- -- - - and mutt be approved by the Wastewater Director prior to submittal of construction documents. Pump head curves and design specifications for each application proposed shall be submitted for review and approval within the ENGINEER's hydraulic design report. All pumps shall be three-phase unless approved by a Utility Deviation Form. At least one (1) pump in each wet well shall be equipped with a mix-flush system (see County Approved Product List, Appendix F). D. Access Covers: Access covers for pumping station wet wells and-val-ve-vaults shall be above the 100-year flood elevation unless the structure is located within a documented velocity and tidal flood zone, and elevation differentials prohibit such installation. In such cases, watertight access covers shall be utilized. The ENGINEER shall provide shop drawings of such access covers for review and approval by THE County Manager or designee prior to use. Access covers shall be constructed of diamond plate aluminum sheets and aluminum structural members. All access covers shall be attached to aluminum angle frames with stainless steel hinges and fasteners. Angle frames shall be firmly anchored into the top concrete slab of the structure. All access covers shall be equipped with a ratchet-type restraint mechanism to prevent accidental closing of the cover and torsion bar or spring assist type openers. Assist openers shall be manufactured of stainless steel. Covers located in non traffic areas shall be designed for loadings of not less than 150 pounds per square foot. Access covers located in - - e e e -- .- - - - -- shall be designed for H-20 loadings. 14-faunsl-te-lae acceptable by the County Manager or designee, a system of 6 inch diameter •- - - -- =- - - • - -- -- - e. e • - e _ -- -- A layout of E. Wet Well Equipment: All pump discharge piping shall be ductile ironHDPE pipe- pressure Class 250 and shall be in conformance with pipe utilized for wastewater force mains. All fittings shall be ductile ironHDPE fused, flange/flange, or Uni- Flange connections . _ - e- ..e- -e _-• __ _ _ - _ - e _- -•_ - fittings. All fittings shall have flange x flange or Uni Flange connections. All nuts, bolts, fasteners, brackets, pump guide rails and other hardware located inside the wet well shall be 40,4-316 stainless steel. A /1 inch pump out with a screened vent shall be provided on all installations, with the vent pipe extended through the wet well lid (see details) above the top of the Control Panel. Electrical systems and components (e.g. motors, lights, cables, conduits, switch boxes, control circuits, etc.) in raw wastewater wetwells, or in enclosed or partially enclosed spaces where hazardous concentrations of flammable gases or vapors may be present shall comply with the National Electrical Code (NEC) requirements for Class I Group D, Division 1 locations. Electrical equipment located in wet wells shall be suitable for use under corrosive conditions. Page 18 of 48 Packet Page -2611- 12/9/2014 17.B. F. Valves: Discharge piping for each pump shall be equipped with a weighted check valve and plug valve. A teethFe with an isolation plug valve, equipped with a quick coupling (see County Approved Product List, Appendix F), may--tae ._ - -e _ e-- _ -e - - _ shall be provided for a means of emergency bypass access to the wastewater force main-,as--reced. Valves shall be supported by stainless steel pipe supports on masonry or concrete pier-D. G. Emergency Bypass: A 34-inch emergency bypass connection shall be provided down-stream from the in-line discharge piping valves. The connection shall tie within the vault, be readily accessible; and be equipped with a plug-type isolation valve and 3-4-inch male Kamlock type quick coupling and cap. A three way plug valve may be equipped with the quick cou#g in lieu of the separate emergency bypass. H. Pump Control Panel (see County Approved Product List, Appendix F): Panel enclosure construction shall be equal to a NEMA 3R or SIX stainless steel with 3- point latch where required and utilize stainless steel. When possible, Panel panel door shall open away from wetwell and not towards wetwell hatch to ensure safety during maintenance of wetwell and panel. To ensure proper installation of Control Panel, contact the Wastewater Department prior to rough-in or installation of Control Panel, for a pre-construction meeting with respective Wastewater Collections Personnel. Control panels shall be mounted on two 6 inch by 6 inch precast concrete posts. All mounting bars, nuts, bolts, etc. shall be stainless steel. A 110/120 volt (110V) receptacle shall be provided inside the control panel for pump stations that have outdoor control panels. Ground fault interruption (GFI) protection shall be provided for all outdoor outlets. Pump Controller / RTU: Provide a pump control panel (see County Approved Product List, Appendix F) including a TAC Pack TCU (RTU) for pump controlling purposes. At a minimum, the TAC Pack TCU shall include an integrated 2-Watt digital radio, an 18 amp hour back-up battery, a manufacturer's prefabricated wire harness, all manufacturer recommended surge protection, and suitable devices for measuring wastewater flow. The TAC Pack TCU shall incorporate three on-board fail-safe HOA switches and Triplex/Duplex/Simplex configurable operation mode. An on-board 240 VAC or 460 three phase monitor shall be provided. The Alarm light and bell shall be activated by the TAC Pack TCU and the external push-button alarm silence switch shall be wired into the TAC Pack TCU. The TAC Pack TCU shall incorporate an on-board 4 by 20 character LCD display for elapsed runtime of each pump. During the automatic sequence the pumps shall be controlled in an alternate mode. J. Antenna Subsystem: Provide a high gain antenna (see County Approved Product List, Appendix F) for use to transmit and receive TAC Pack TCU data to and from the COUNTY's existing TAC II SCADA server. Antenna shall utilize all welded-aluminum elements. Element connections utilizing nuts and bolts are not acceptable. Antenna shall have a single radiator element connected to a type N female connector. Antenna shall be supported on a mast/pole and have DC Page 19 of 48 Packet Page -2612- 12/9/2014 17.B. grounding for lightning protection. Antenna mounting hardware shall be made of stainless steel. Antenna shall meet or exceed the quality, reliability and performance of the RTA series as provided by Data Flow Systems, Inc. Antenna mast/pole shall be a 21foot by 1.25 inch SCH80 galvanized pole. Mounting of the antenna mast/pole shall be in accordance with all applicable local and state building codes as they pertain to structural strength and wind velocity requirements. Tower shall meet or exceed the quality and reliability of the AG20 manufactured by Rohn. Coaxial cable shall be RTC 400 as supplied by Data Flow Systems, Inc. Type N connectors shall be utilized at both ends of the coax. Type N connectors shall be sealed with 3 inch sections of Alpha FIT321-1-0 sealant shrink tubing. Coaxial cable shall be secured to the mast/pole with E.V.A.-coated 316 stainless steel cable ties. Cable ties shall meet or exceed the quality, reliability and performance of AE112 cable ties manufactured by Band-It. For pump stations to be conveyed to the County, a startup and successful testing of Data Flow telemetry equipment by Data Flow representatives and County Wastewater Collections instrumentation and telemetry representatives is required prior to County acceptance. After initial startup, for pump stations to be conveyed to the County, the latitude and longitude of pump stations shall be provided. K. Disconnect: A non fucedcircuit breaker disconnect shall be provided to isolate the pump control panel. Disconnect shall be installed on the service line between the electric meter and control panel and shall be lockable in the "ON" or "OFF" position. Disconnects shall be housed in a NEMA R4X, stainless steel enclosure or better. L. Electric Meter: The electric meter servicing the pumpic g station shall be located adjacent to the pump control panel, and shall be located and wired so as to service only the pumping station facility. M. Electric Service: All underground electric services shall be fully conduited in 2-inch diameter Schedule 80 PVC pipe from the power company source point to the pump control panel. The maximum length of the electric service from the power company transformer to the pump control panel shall be 200 feet. One spare conduit shall be provided and terminated in the meter. Only copper service wire shall be utilized. Sizing of the service wire shall be verified with the power company and the extent and location of the service shall be indicated on the record drawings. The CONTRACTOR shall certify that the voltage drop across the service does not exceed five percent (5%) of the power company's line voltage at full load start-up of the pumping station pumps. All pump+4g stations shall have minimum 100-amp service. All electrical components shall be located within the COUNTY right-of-way or County Utility Easement (CUE). N. Pump Wiring: Power wiring for each pump, from the control panel to the wet well shall be conduited in separate 2 inch diameter Schedule 80 PVC pipe and an appropriately sized water-tight fitting with separate strain relief shall be installed on each line. A spare parallel 2-inch PVC pipe conduit from the panel to the wet well shall be provided. All wire shall be stranded THHN or MTW copper wire. The pump motor cords shall be flexible and serviceable under conditions of extreme usage. Total of angle bends shall be 180 degrees or less. All conduits between wetwell and control panel shall not exceed a total of 180 degrees of Page 20 of 48 Packet Page-2613- 12/9/2014 17.B. bends per run. All service conduits shall be 2" Schedule 80 PVC except where noted. The pump motor cords shall be flexible and have an appropriate amount of slack. O. Lightning Arrestors: All pumpi stations shall be equipped with lightning arrestor(s) (see County Approved Product List, Appendix F). The lightning arrestor shall be installed externally on the load side of the disconnect, between the disconnect and the main breaker. The penetration through the disconnect must be made below the working mechanism of the disconnect. P. Pre Engineered Biofiltration Odor Control Systems for Master and SubmasterCommunity Pump Stations: Furnish and install an 8'X11 concrete slab for potential future pre engineered biofiltration odor control system—(see County Approved Product List, Appendix F) including all appurtenances - _ - -_ - - - - . - .e^. A Pre-Engineered Biofiltration Odor Control System shall be furnished if required by the engineer of record. 1. All components of the biofiltration odor control system shall be furnished by the specified manufacturer of the biofiltration odor control system and installed by the CONTRACTOR. 2. T-- - -- - ----- --------- - -- --- - --- --- --- - - --- -- f u r n i s h e d and installed by the CONTRACTOR: Connecting odor control air pipe, fittings, valves, and accessories, as well as: a.Odor control system water supply pipe, fittings, valves, and accessories (refer to Detail Drawing WW 8 for odor control information) b. Odor control system drain pipe, fittings, valves, and accessories c. Piping support •♦ . - -- • - e -e - e-. -- - - _ !- S . • Ai* 8 for odor control information) performed by the CONTRACTOR and shall include, but is not necessarily limited to, the following: a.Conduit, wiring, and other field electrical work b. Excavation, backfill, grading, and site restoration c. Concrete foundations, supports and related work d. Masonry work required for a complete odor control system /1. The biofiltration odor control system shall be designed in accordance with generally accepted criteria and shall meet all requirements of the State of Page 21 of 48 Packet Page -2614- 12/9/2014 17.B. 9- -• •• • e; • - • e e , e .4:4M ifl design pararn • - • .4,9n SySteR14 : -s b. Ambient Enyironmont: Outdoor c. Ambicnt Tempo -*-: - d. Ambient Relative Humidity: 1G%to-1 GO% e. Prof . - r: e e - e - f Sc,rvice Odorous air containing hydrogen sulcide7-nzie4-6aptans and ottle-r--9ases-ffpm ravv-wastewater, Air-F-tew4,—Deternlineci-by-wetweli-si-zo; siza odor-pontrel-un4t SG •• e.•* e-• k .stewate-F-Dep3rtrrientrequirpitnen-, ts t.so t-4--A5.,terage influent-1-42S-GoncrantratPan- I-GO-ppm • ' -Inftp,ant-i4-2-S-C-PnPen4c-atig-ppm j Reput:4eP-E--ffitip4-142S CoRsea.49P--GrePtef-thar. DO% ir.ort or-maximum-ef 75-Dith4ohever-yelt4e4s-greatec PART 3 EXECUTION Not Used END OF SECTION Page 22 of 48 Packet Page-2615- 12/9/2014 17.B. 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Z o— a A r v 0 1- < ..., ':r. : 'Lr-'''' .T ,3, ti•-'2.,3,..2 u.1 - '-' Z ? V)i '...'.:.:5.• ' 1.- A i 1 „,,, ,....;7■L., 1'!. S 7 i!f■'" 2 E...- , 7.'': fa-; Packet Page -2626- 12/9/2014 17.B. NOTES 1. BOND FENCE AND VEHICLE ACCESS GATE TO COUNTERPOISE. 2. PROVIDE LIGHTNING PROTECTION FOR SCADA ANTENNA. 3. SURGE PROTECTION SHALL BE SQUARE D(THREE PHASE: #SDSA3650)WITH LED LIGHTS AND MOUNTED IN A FASHION THAT THE PHASE LIGHTS ARE VISIBLE.COORDINATE EXACT LOCATION WITH OWNER. #410 BARE COPPER 4. EXOTHERMICALLY BOND GROUNDING JUMPERS TO COUNTERPOISE. (TYP- OF 2) GROUND POTENTIAL SHALL BE CONSISTENT FOR ENTIRE SITE. GROUNDING JUMPERS AND COUNTERPOISE SHALL BE#410 BARE COPPER.GROUND RODS SHALL BE 3/4"X 20'COPPER-CLAD GROUND RODS.EXOTHERMICALLY WELD CONNECTIONS BELOW GRADE. MECHANICALLY CONNECT CONNECTIONS ABOVE GRADE. MECHANICAL LUGS SHALL ONLY HAVE ONE WIRE LANDED IN EACH TERMINATION.EACH LUG SHALL BE FASTENED WITH A STAINLESS STEEL NUT AND BOLT.STACKING OF INDIVIDUAL LUGS WILL NOT BE ACCEPTABLE.GROUND BOXES SHALL BE 14"LONG QUAZITE #4/0 BARE COPPER #PC1118CAO017 OR#PG1118BA12, (TYP. OF 2) INSTALL LEVEL WITH THE ADJACENT GROUND,PROVIDE 57 SEE GROUND TEST STONE OR MATCH SITE STONE IN WELL DETAIL VVVV-19B BOX,WITH GROUND ROD LOCATED OFF CENTER OF BOX.QUAZITE t ' BOX COVER TO READ"GROUND". EXPOSED GROUNDING SHALL BE IN 1"SCHEDULE 80 PVC OR LIQUID ' TIGHT FLEXIBLE CONDUIT. 5. PROVIDE COUNTY SIGNED INSPECTION OR PHOTO OF ALL PANEL CAD-WELDED SPLICES AND BOARD UNDERGROUND TAPS.PROVIDE GROUND TEST REPORT TO COUNTY VERIFYING COUNTERPOISE RESISTANCE IS �-^ LESS THAN 5 OHMS. #410 BARE COPPER TO.k. GROUND MAT(TYP) ?Iti°HiUNIiY PUf+IP STATION - REVISION . SHEET NO. RISER DIAGRAM cot, .CCK LV _ WITH G E N E PATO R BACKUP Page 34 of 48 Packet Page -2627- 12/9/2014 17.B. NOTES 1. BOND FENCE AND ACCESS GATE TO COUNTERPOISE. 2. PROVIDE LIGHTNING PROTECTION FOR SCADA ANTENNA. 3. SURGE PROTECTION SHALL BE SQUARE D(THREE PHASE: #SDSA3650)WITH LED LIGHTS AND MOUNTED IN A FASHION THAT THE PHASE LIGHTS ARE VISIBLE.COORDINATE EXACT LOCATION WITH OWNER. #4/0 BARE COPPER 4. EXOTHERMICALLY BOND GROUNDING JUMPERS TO COUNTERPOISE. (TYP. OF 2) Ii GROUND POTENTIAL SHALL BE CONSISTENT FOR ENTIRE SITE. " GROUNDING JUMPERS AND COUNTERPOISE SHALL BE#4/0 BARE COPPER.GROUND RODS SHALL BE 314"X 20'COPPER-CLAD GROUND RODS.EXOTHERMICALLY WELD CONNECTIONS BELOW GRADE. MECHANICALLY CONNECT CONNECTIONS ABOVE GRADE. MECHANICAL LUGS SHALL ONLY HAVE ONE WIRE LANDED IN EACH TERMINATION.EACH LUG SHALL BE FASTENED WITH A STAINLESS STEEL NUT AND BOLT.STACKING OF INDIVIDUAL LUGS WILL NOT BE ACCEPTABLE.GROUND BOXES SHALL BE 14"LONG QUAZITE #PC1118CA0017 #4/0 BARE COPPER t OR#PG1118BA12,INSTALL LEVEL WITH THE ADJACENT GROUND,PROVIDE 57 _ STONE OR MATCH SITE STONE IN BOX, WITH GROUND ROD LOCATED OFF SEE GROUND TEST CENTER OF BOX.QUAZITE BOX COVER WELL DETAIL WW-19B ���/// TO READ"GROUND".EXPOSED GROUNDING SHALL BE IN 1" PANEL SCHEDULE 80 PVC OR LIQUID TIGHT FLEXIBLE CONDUIT. BOARD 5. PROVIDE COUNTY SIGNED INSPECTION OR PHOTO OF ALL CAD-WELDED SPLICES AND UNDERGROUND TAPS.PROVIDE GROUND TEST REPORT TO COUNTY VERIFYING COUNTERPOISE RESISTANCE IS LESS THAN 5 OHMS. #4/0 BARE COPPER TO DIESEL GROUND MAT (TYP) ONTROL BACKUP PANEL PUMP CONTROL s- MOTOR J-BOX COMMUNITY PUMP STATION - REVISION DATE: SHE H°. SEPT. 2013 RISER DIAGRAv Cmlaer ca3 m '' WITH DIESEL BACKUP PUMP Page 35 of 48 Packet Page -2628- 12/9/2014 17.B. Proposed Revision to Section 2, Technical Specifications Proposed additions in text are noted in bold. Proposed deletions in text are noted in . Section 2, Technical Specifications, 333313 "Wastewater Valves and Appurtenances", text revisions in 2.2.D. 2.2. DESIGN D. Automatic Air Release Valves for Wastewater Systems All force mains shall have automatic air release valves installed as they are indicated on the plans. These Automatic Air Release Valves (ARV's) shall conform to the following: The body of these valves shall be conical shaped to shall have a double float design with the upper float being enclosed in the upper ee - -- --- -- - - - - - - - - °- - - -- - - - -- - -- --- - -- -- - -- - - -- -steel with fusion bondcd cpoxy-inside and outside, and shall have a funnel shaped 1. The automatic air release valve shall be a "Combination" ARV modified with a check valve on the discharge of the air piping to allow air release only operation. All internal metal parts shall be made from upper and lower sections, to be non metallic plastic/rubber materials. orifice shall be made of EP-DM ribber. The telling resilient seal shall 2. The body of these valves shall be conical shaped to maintain maximum air gap to ensure no contact between the sewage and the seal. -- a - - - - - - - -- - - - - - -- = -' - 3. The ARV shall seal at 0 (zero) psi and have an overall operating range of 0 — 250 psi, (0 — 17.2 bar). - - - - - - -- - - - - - - - 316 Stainless Steel. All valves shall be equipped for backflushing maintenance with ccasy connection er disassembly. Valves with a total weight to the saddle and PVC pipe. Those valves weighting less than 10 4, The ARV shall close watertight when liquid enters the valve, even when the fluid is rising without pressure, (no minimum operating pressure required). -- __ --_ . _ _- -- - _ -- _ _ _ _ • - an isolation valve of the same size: Page 36 of 48 Packet Page -2629- 12/9/2014 17.B. 8 inch and smaller 2 inch threaded 5. The working pressure shall be 250 psi (17.2 bar) and tested to 360 psi (25 bar). All automatic air rcloa c valves shall be ARI model S 025. All valves shall be installed in assordanoe with manufacturer to be supplied on this project. 6. The ARV shall include both a Polypropylene Debris Shield funnel and an Orifice Strainer to prevent solids from entering sealing area. 7. The ARV shall have a rolling cup seal diaphragm for infinitely variable operation, providing water hammer inhibition. 8. The ARV body shall be constructed of 316 stainless steel. The float shall be Delrin (Polyoximethylene, POM), the Float Spindle shall be of 316 stainless steel. The valve seat and all internal working parts shall be of corrosion —resistant materials. ARV flange hardware (nuts, bolts, washers) shall be of 316 Stainless Steel construction. 9. The threaded or flanged outlet size of the ARVs shall be sized by the design engineer. A minimum diameter of 2-inches shall be provided. 10. All parts required for ARV maintenance shall be the same for all connection sizes. (ie: the internal parts for the 2" ARV are identical to the internal parts for the 4" ARV). 11. All automatic air release valves shall be 316 stainless steel body, and the manufacturer and model shall comply with the County Approved Product List (Appendix F). All valves shall be installed in accordance with manufacturer recommendations and shall have an isolation valve connection for control. 12. All automatic air release valves installed for wastewater transmission systems (except at pump stations or wastewater treatment facilities) shall be installed in above ground polyethylene enclosures as shown on the County's standard details. Color of enclosures shall be dark green. Page 37 of 48 Packet Page-2630- 12/9/2014 17.B. P © ON riit11G111iii '' ARV OUTLET WARNING SIGN O GATE VALVE AND METER BOX ROTATED 90' rDETAIL ONLY TO BE PROVIDED WHEN FOR CLARITY-, TAPPING SADDLE IS IN ROADWAY 10. TOP OF GATE VALVE ELEVATION TO .. - MATCH FINISHED GRADE ELEVATION zI t. FINISHED GRADE a{ (),, _ ml Ir a g o ' /0,./A: . i_.Jiii,1497:__. . ff/ k .TYC', 4)tilliggiO 1"r7,01,Wirerffi Affill#'1.4/:°VI ®OR® s s ARV INSTALLED DIRECTLY ,l ABOVE FM IS PREFERRED, ®oR, !� $ 2.0% SLOPE MIN) A 2' 316 SST PIPE OFFSET ARV AS REQUIRED (gop.€jr � � SCH. 10 3' MIN. A., .�".,� * BURIED DEPTH { '' y;` ,..„, 0 gr:- W/ (2) 316 SST•CONNECT TO FM/ i' �e C-CLAMP STRAPS CONNECT TO FM (ONLY FOR OFFSET (SEE NOTE 5) 0 _ (SEE NOTE 5) L❑CATIONS) NOT TO SCALE 316 SST BOLTS ARV ID NUMBER NOTE, - AND NUTS, NOTE: FORCE MAIN SIZE TYP. OF 4 YELLOW TEXT PROVIDE 3' DIAMETER BRASS /0,v to. v.4 ” WARNING SIGN SHALL BE ATTACHED o WARNING ° DISC ANCHORED IN CONCRETE _rr N!X XA t ENCLOSURE ANDSHALL BE **$tt ,w- ^ N a ARV MANUFACTURER & MODEL , ozotiC !, BLACK BACKGROUND SLAB. FIBERGLASS. OFFSET DISTANCE & DIRECTION FROM FM nr:.,,,,, .1---- YELLOW BACKGROUND r `', -BLACK TEXT OARV BRASS DISC DETAIL NOT TO SOLE O WARNING SIGN DETAIL NOT TO SCALE MATERIAL ITEM k. QUANT. ( DESCRIPTION iVENTED ENCLOSURE, WATER PLUS H30 MODEL FOR 2'63' ARVS, WATER PLUS H4D MODEL NOTES: 1 i 1 FOR ARVS >4' !.PROVIDE DARK GREEN REFLECTIVE MARKER 2 I 1 iAIR RELEASE VALVE, (SEE COUNTY APPROVED PRODUCT LIST, APPENDIX F) (2' AND 3' THR,! ON CURB OR EDGE OF ROADWAY CLOSEST TO I THE ARV. 3 I 1 !SCH 80 PVC NIPPLE, LENGTH AS REQUIRED, THR X THR (2'6 3' ARV), 316 SST VAN !STONE FLANGE (VSF) X 316 VGF (>4' ARV) 2.PROVIDE 3'-0' RADIUS AROUND ARV 4a ?UP Ti] 312' OR 3' 316 SST BALL VALVE, FULL PORT, 316 SST HANDLE (THR) ENCLOSURE CLEAR OF ALL LANDSCAPING FOR 4b 1UP TO 314' - 8' PLUG VALVE (SEE COUNTY APPROVED PRODUCT LIST, APPENDIX F) CFLG) MAINTENANCE ACCESS. 5 IUP TO 4 190' ELBOW. 316 SST (THR FOR 2' AND 3' ARVS, FLG FOR >4' ARVS) 3 PROVIDE 316 SST PIN ALLEN BOLT KEY SYSTEM 6 1 2 1SHORT NIPPLE,-316 SST, (THR BOTH ENDS FOR 2' AND 3' ARVS, FLG FOR >4' ARV) WITH EACH ENCLOSURE. 7 2 1316 SST PIPE, LENGTH AS REQUIRED, THR CONN FOR 2' AND 3', FLG CONN >4' 7a 1 2 12' PE 3408/3608 FOR 2• ARVS. 3' - 8' HDPE PIPE, PE 3608, DR 17 FOR ARVS 3' - 8'. 4.THE THREADED OR FLANGED OUTLET SIZE OF I !DOUBLE STRAP TAPPING SADDLE, 316 SST WITH THREADED OUTLET FOR 2' 1 3' ARVS, DI THE ARV SHALL BE SIZED BY THE DESIGN B 1 iTEE (MJ X MJ X FLANGE) FOR AR V'S >4' ENGINEER. A MINIMUM DIAMETER OF 2-INCHES 9 2 14' 6 LARGER PIPE, Al, OR PVC (DR-18) SHALL BE PROVIDED. 10 T I 1/-1/2' CHECK VALVE, PVC, BY ARV MANUFACTURER 11 I I'-1/2' X 90' ELBOW, PVC SCH 80, BY ARV MANUFACTURER 5.TAPPING SADDLE IS DEPICTED HOWEVER A 12 ICEINCITETE. SLAB FOR ENCLOSURES, 3000 PS] CONCRETE TEE (DIA OF FM X SIZE OF ARV) SHALL BE INSTALLED INSTEAD OF A TAPPING SADDLE 13 I GOmPAL ED FILL PER COLLIER COUNTY TYPICAL DETAIL, G-1 FOR ARV'S >4 14 S7 STONE { 15 (B) 44 BARS CONTINUOUS 6 (4) 44 GARS DIAGONAL (2' MIN. COVER) 16 1 '1-1/2' SCH 80 PVC, LENGTH AS REQUIRED 13 , 12' ALLIANCE METER BOX <ARV'S <4'), 18' ALLIANCE METER BOX <AR V'S )4'), BLACK 1 REVISION DATE: I SHEET NO FORCE MAIN AIR RELEASE VALVE OCT. 2013 DETAIL , Co�ierCouty IWW- 13 NTS I Public Utilities Division 1 Page 38 of 48 Packet Page -2631- 12/9/2014 17.B. N 1. I OCATIONS WITH FO E MAIN BURY B N 30" AND 32" (OR 3 DEPENDING ON FOR FORCE MAINS 24" P -METER HATCH SVECTED), AND LARGER, USE 48" .QUARE PROVIDE ISED GRADE PRECAST STRUCTURE AROUND VA. E VAULT STRUCTURE. INISHED A C5)C1 O GRADE SLOPE ALL )NOT BE GREATE" THAN 4(H):1(V). CONT- TOR RESPONSIBLE FOR WALLS AND E ARE SADDLE COORDINATION OF HA H CONFIGU": ION OVER PIPE SELECTION WITH AREA 5" ("DOG SE") AVAILABLE FOR SLOPE. --+•"° 6" ►'"ICAL BASE EXTENSION, 2. HATCH DOORS AND POLY I "IOR AND EXTERIOR ENCASEMENT NOT SHOWN FOR CLARITY. PLAN 36" x 36" ALUMINUM ACCESS HAT,- (SEE COUNTY APPROVED PRODUCT LIST, APPENDIX F) WITH 316 STAINLESS STEEL HARDWARE PRECAST LID AND BE CAST INTO LID PLASTIC JOINT SEALING COMPOUND (SEE COUNTY APPROVED PRODUCT 6" SQUAB" LIST, APPENDIX F) KEYED (OPTIONAL) FINISH GRADE 1 4 EIL iz ±2"--< t t2 . .\/,,\, INIMUM �'-'' "�-#4 BARS ® 8" OC EW "�>m AIR RELEASE VALVE (SEE '�'\ OR EQUAL PER ASTM C-478 0 o w COUNTY APPROVED PRODUCT �� I r Do f 1/8"x 2" SS FLAT BAR ON TOP Ir LIST, APPENDIX F) WITH TO 6" ` AND SIDES OF OPENING. m0 FLUSH ATTACHMENTS AND 4 -H in SHUT-OFF VALVE PI1 I 8 MIL POLY TUBING z w E am ,0 PIPE ENCASEMENT, N�'0 2" BRASS PIPE • IA OVERSIZE AS "� \ ,/AB 4d1 ±1-1111104...- REQUIRED. SLIT BOTTOM. SECURE 1 t3 I ±4-1Z" II POLY TO STRUCTURE ..., Mt.,: MUt I '. AT TOP AND SIDES -\ 1-±2" ` \\\.' OF OPENING WITH /i 1/8"x 2" SS FLAT '< BAR AND 3/16" SS FORCE MAIN i WITH MINIMUM FASTENERS ® 4" OC. BURY OF 30" - SS CLAMP (TYP) BRASS OORPor=ATIONs-" d STOP I 24" #4 BARS ® 8 OC EW 6" MINIMUM--/ SQUARE OR EQUAL PER TM C-478 #57 STONE DOUBLE STRAP BRASS TAPPING SADDLE SECTION A—A NOTES: \\-- FILL BASE SLAB OPENING •°=TH 1. "BRASS PI'' , CORPORATION WASHED #57 STONE STOP A 4 TAPPING SADDLE SHALL 4E 2" FOR FORCE MAIN FORCE MAIN AIR RELEASE VALVE DETAIL 2. P``,CAST STRUCTURE, NO GATING REQUIRED. (NON—TRAFFIC AREA) WW— 1 3 SCALE: xi" = 1'-0" REVISED: AUGUST 2008 Page 39 of 48 Packet Page -2632- 12/9/2014 17.B. IF 5 II r 7 II II I I II ./"---i _1y,/,,t J ll---.\ il III II ( 0 ),b--- 111 S ----.._ E---\I \--c 1 II___✓ II I 1 II FOR FORCE AINS 24" DIAMETER II L J II AND LAR '.', USE 48" SQUARE PRECAS RUCTURE L PLAN 30" x 30" CAST IRON ACCESS HATCH •EE COUNTY APPROVED PRODUCT LIST, APPENDIX F).'II(TH ID PRECAST LID TO BE DESIGNED BY LETTERING ("COLLIER COUNTY" AND "SEWE` FLORIDA PROFESSIONAL ENGINEER. ARV" OR LEAVE BLANK IF PRIVATELY OWNED SUBMIT SIGNED AND SEALED HATCH TO BE CAST INTO LID CALCULATIONS. " PLASTIC JOINT SEALING COMPOUND 3036" SQUARE (SEE COUNTY APPROVED PRODUCT GRADE LIST, APPENDIX F) KEYED (TYP) MINIM .,--\ w- ��P o -,. = -� ! �=8"" #4 BARS © 12" OC EW ��U I l OR EQUAL PER ASTM C-478 I AIR RELEASE VALVE TO 6 ° PRECAST STRUCTURE. v.)5 (SEE COUNTY APPROVED 2. PRODUCT LIST, APPENDIX F) �' NO COATING REQUIRED > WITH FLUSH ATTACHMENTS o AND SHUT-OFF VALVE '<,.//, oringa F LEXIBLE RUBBER .\i` All. t1_:' r. SLEEVE. HOLE SIZE TO BE MINIMUM 2" BRASS PIPE 0111111P- ±4-)i"' f4-}Z" OF 3" LARGER THAN OUTSIDE PIPE BRASS CORPORATION f t2" '-\ DIAMETER STOP I SOUAT/E I X12 1 ,, MINIMU,�° . "i �� f __ 12., MINIMUM FORCE MAIN ,��.#57 STONE DO -LE STRAP BRASS T,--PING SADDLE SECTION #4 BARS ® 1 00 EW OR EQUAL PER • TM C-478 BRASS PIPE, CORPORATION STOP FILL BASE SLAB OPEN WITH AND TAPPING SADDLE SHALL BE WASHED #57 STONE 2" FOR FORCE MAIN COMPACT SUBGRADE TO 98% OF MAXIMUM DENSITY PER AASHTO T-180 FORCE MAIN AIR RELEASE VALVE DETAIL (PAVED AREA) WW- 1 4 SCALE: 3i" = 1'-0" REVISED: AUGUST 2003` Page 40 of 48 Packet Page -2633- 12/9/2014 17.B. Proposed Revision to Section 2, Technical Specifications Proposed additions in text are noted in bold. Proposed deletions in text are noted in strike Section 2, Technical Specifications, 333913 "Sewer Manholes", text revisions in 3.1.F. 3.1 INSTALLATION F. Internal Protection: Provide internal protection for all manholes by either of the following: 1. Sewpercoat, -- - - - - - - - - - - --- - - - -• , or 2. IET Coating system - -- - --- - - - - --- - ---- - - - - - ... - - -- - - - - - • - - - - - - - -- - -- . -- -- -•or 3. Raven Lining Systems Install the coating systems per manufacturer's recommendation and completely protect the structure from corrosion. The liner or coating systems must extend and seal onto manhole ring, seal onto and around pipe openings, and any other protrusions, completely cover the bench and flow invert. Provide a five (5)-year unlimited warranty on all workmanship and products. The work includes the surface preparation and application of the coating or liner system, and shall protect the structure for at least five (5) years from all leaks and from failure due to corrosion from exposure to corrosive gases such as hydrogen sulfide. Repair internal coating of existing manholes cored during tie-in of new sewers by applying approved coating material as listed above in accordance with the manufacturer's recommendations. If existing manhole has an internal coating other than that listed above (e.g. epoxy coating), sandblast the interior of the existing manhole and apply an approved coating in accordance with the manufacturer's recommendations. Page 41 of 48 Packet Page-2634- 12/9/2014 17.B. Proposed Revision to Section 2, Technical Specifications Proposed additions in text are noted in bold. Proposed deletions in text are noted in c trike through. Section 2, Technical Specifications, 014500 "Quality Control", Pages 4 and 5, text revisions in 1.5.A.4. 1.5 QUALITY CONTROL A. Testing 4. Testing of Gravity Sanitary Sewer Lines a. Watertight Construction: It is imperative that all sewers and force mains, manholes, and service connections be built watertight and that the CONTRACTOR adhere rigidly to the specifications for material and workmanship. Since all of the water and sewage in the lines will be treated at the treatment plant, special care and attention must be given to securing watertight construction. After completion, the sewers or sections thereof will be tested and gauged. If infiltration or exfiltration is above the limits specified, the sewer construction work will be rejected. b. Cleaning: Exercise care during construction of the manhole to see that materials do not enter the sewer line. Keep the invert and shelf of the manhole clean of all mortar, broken brick, sand, or any other materials falling into the manhole. Immediately remove such material. Maintain this condition until final acceptance of the work. Prior to testing of gravity sanitary sewer lines, clean the lines using appropriate tools. c. Gravity Sewers - Visual Inspections: On completion of each block or section of sewer, or at such other times as the County Manger or designee may direct, the block or section of sewer is to be cleaned, tested and inspected. Each section of the sewer is to show, on examination from either end, a full circle of light between manholes. Each manhole, or other appurtenance to the system, shall be of the specified size and form, be watertight, neatly and substantially constructed, with the rim set permanently to design position and grade. All repairs shown necessary by the inspection are to be made; broken or cracked pipe replaced, all deposits removed and the sewers left true to line and grade, entirely clean and ready for use. d. Infiltration Limits: Provide the equipment necessary to check the lines for infiltration or exfiltration as directed by the County Manager or designee, before they are put in service. Infiltration in excess of fifty (50) gallons per day inch-mile of sewer will result in having the CONTRACTOR go over the lines, ascertain where the leakage exists, and repair the lines to the extent necessary to bring the infiltration down within acceptable limits. Observable inflow is not permitted. Page 42 of 48 Packet Page -2635- 12/9/2014 17.B. e. Exfiltration Limits: The length of sewer subject to an exfiltration test shall be the distance between two (2) adjacent manholes. Close the inlets of the upstream and downstream manholes with watertight plugs and the test section filled with water until the elevation of the water in the upstream manhole is two (2) feet above the crown of the pipe in the line being tested, or two (2) feet above the existing groundwater in the trench, whichever is higher. A standpipe may be used instead of the upstream manhole for providing the pressure head when approved by the County Manager or designee. Measure exfiltration by determining the amount of water required to maintain the initial water elevation for one (1) hour period from the start of the test. The maximum allowable leakage, including manholes, shall be 50 gallon per inch for diameter per mile of pipe per day. f. Air Testing: Air testing shall be required if, in the opinion of the County Manager or designee, conditions are such that infiltration measurements may be inconclusive. Conduct the test in the presence of the County Manager or designee and conform to the following requirements: (a) Test pressure shall be 3.5 psi increased by the groundwater pressure above the top of the sewer. (b) Pressure loss from shall not exceed 0.5 psi during the required testing time. (c) Testing time in minutes shall be calculated as 0.625 x nominal pipe size (inches). g. Deformation Test (a) Deformation tests shall be performed on all gravity sewer lines. The test shall be conducted after the final backfill has been in place at least 30 days to permit stabilization of the soil-pipe system. (b) No pipe shall exceed a deformation of 5 percent. If deformation exceeds 5 percent, mechanical methods to correct deformation may be used. If mechanical methods are unsuccessful, the pipe shall be excavated. Replacement or correction shall be accomplished in accordance with requirements in the approved specifications. (c) The rigid ball or mandrel used for the deflection test shall have a diameter not less than 95 percent of the base inside diameter or average inside diameter of the pipe depending on which is specified in the ASTM Specification, including the appendix, to which the pipe is manufactured. The test shall be performed without mechanical pulling devices. Page 43of48 Packet Page -2636- 12/9/2014 17.B. Proposed Revision to Section 2, Technical Specifications Proposed additions in text are noted in bold. Proposed deletions in text are noted in strike through. Section 2, Technical Specifications, 330130.16 "Televising and Inspection of Gravity Sewer Systems", text revisions in 2.2.A. and 3.1.B. 2.2. TELEVISION CAMERA A. Camera used shall be 360 degree COLOR RVC camera. Camera shall be operative in 100% relative humidity and be specifically designed for the environment. Camera shall have an integral lighting system capable of producing clearly focused, well- defined images of the entire periphery of the pipe. Camera shall have an integral depth measurement device capable of clearly showing the depth of vertical dips. The quality of video picture and definition provided shall be to the satisfaction of the ENGINEER and, if unsatisfactory, equipment shall be removed and replaced with satisfactory equipment. 3.1. General B. Demonstrate the ability of the TV/video equipment (camera/light/video tape/audio/ photograph system) to the satisfaction of the County Manager or designee. Distance meter shall be furnished on the video tape recording. Meter shall be checked using distances between manholes. Meter distances and actual distances shall be consistent. Depth measurement device shall be visible in the video recording during movement of the camera in the pipe. Page 44 of 48 Packet Page -2637- 12/9/2014 17.B. Proposed Revision to Section 2, Technical Specifications Proposed additions in text are noted in bold. Proposed deletions in text are noted in ctril e-thr gh. Section 2, Technical Specifications, 330518 "Laying and Jointing Buried Pipe", Page 4, text revisions in 3.2.A. 3.2 INSTALLATION A. General: Install all piping in accordance with the manufacturer's recommendations and approved shop drawings and as specified in Division 1. Where pipe joint deflections are used, do not exceed 80 percent of the maximum deflection limits shown in AWWA C600. Gravity systems witt shall contain no joint deflection. 1. Arrange miscellaneous pipelines, which are shown in diagram form on the Plans, clear of other pipelines and equipment. 2. Gravity systems shall not contain vertical dips greater than one and a half inches (1.5"). Page 45 of 48 Packet Page-2638- 12/9/2014 17.B. Water Meter Sizing Form One Form Per Meter Please call Public Utilities Engineering(239)252.2583 with any questionS. Preparer's Information: Project Information: Date=_—> Name > Permit or AR Number • Title > Name of Project=__> Company > Project Address=__> Address Phone > Email Address > Please Note: 1, All commercial facilities must be metered separately from residential facilities with the exception of those commercial facilities that are within a master metered residential development and designed for the exclusive use of the residents within such development. 6-&psfr 4. The Design Engineer/Architect must submit signed and sealed documentation supporting meter sizing. For meters 4-inch and smaller the sizing shall be based upon Fixture Flow Values as shown on the following page and sized as per the Table on page 3 unless approved otherwise by the Collier County Public Utilities Planning and Project Management Department.For all meters the Engineer/Architect must consider all relevant factors before selecting the final meter size, 5. For remodeling projects this form must be submitted only if there is a net increase in Fixture Flow Value. This Section to be filled out by Engineer/Architect of Record: Demand in accordance with the Fixture Flow Value Worksheet Demand and the Table for Estimating Demand Range(GPM; Meter Size i Engineer:Arctet ect must attach a completed Fixture Flow Value Worksheet) 0 to 30 3/4" 30.1 to 50 t" Meter Size in Inches 6D.7 to 100 1 112" Of the mete!is existing Engineer/Architect must identity the meter 100.1 to 160 2' manufacturer and model number) 160.1 to 450 3" 450.1 to 1000 4' Type or Print Name of Engineer/Architect of Record for Project Signature of Engineer/Architect of Record for Project and Date [Affix Engineering/Architect Stamp Here] Page 46 of 48 Packet Page-2639- 12/9/2014 17.B. Fixture Flow Value Worksheet +QuJ Supporting Documentation Please call Public Utilities Engineering(239)252-2583 with any questions. Enter#of Fixtures of each Fixture Type,per unit,then multiply by appropriate Flow Rate to get Fixture Value Fixture Flow Rate *of Fixtures Per Unit Fixture Flow Value ;Automatic clothes Washer .._.._ - ne41;,e141As„'•:' a = :r . i Commercial 3 X _��----------.._.� ._. �------.._____._.__._ Residential — 2 x Bathroom A, , !M "` it f r ::fir"'?,,;' As defined in FL Plumbing Code Section 202 bathtub ..__..._____._____._,_._ �� __.__ 4..�_...._�-._..._w._.._.__._ . __,._.._._....._.._._._..___,_._. 'Dental unit or cuspidor .._..._._._ x = . Dishwasher,residential 11Drinkinjfountain 0,75 x IShower 3 x r -1 w--.__--- _ ___ — t Silicock h ose bibb 5 x ISinkt r faucet) i =d, A ! "<. ` ;inlet. P@_ __.-_,.._ _ I Kitchen residential =' , Laundry tray_. a x Lavatory_ _ __._ _. 2 _. _._.x _ __ .__._. _...�__. 1 r _ _ _ _ _._.__..... Service 3.._�.— x t Wash 2 x Urinal }- m,Ma="O - r srx,a. l tAW ,4W ,`, " `ui,,g,: .. Standard 4 x ___ .___ Fleshless —. 0 r ' .... _.-...-._..� Valve` Gallons/Flush= ..__.x10 c x ? 4 * = & 3 ' om[W at er Closet « '4 r e :0 5r.m1 iii . 4 170 °r ,wF .=';- I Flushometer valve` Galionstelu5et= x10 > - i r lushometer tank 1.6 x ___ I Tank 4 * fie_ ar 1 {P a c''', i...-_any fixtures turr data sheets and enter appropriate des ription and value For an fixtures nat listed s�bmtt manufacturer's._, ',Other 'Other: x = Other: Other *' __. _°—___.__..__..._._._..__.__...__ Other x - 1 LTotal Fixture Value Per Unit==e>' Number of Units with this Fixture Count > i I Grand Total of Fixture Flow Value(Per Unit Total x Number of Units)" > 'Valves are calculated using a flush rate of 10 flushes per minute(according to Florida Plumbing Code). The flow rate is 10 times the gallons per flush. The fixture flow value is calculated as follows: Number of Valves Calculation, 1-2 Flow Rate times Number of Fixtures. 3-10 Flow Rate times two plus two times the Number of Fixtures. 11 or more Flow Rate times Number of Fixtures divided by two. "Use total Fixture Flow Value on-Table for Estimating Demand"to estimate water meter demand, Page 47 of 48 Packet Page -2640- 12/9/2014 17.B. k - - - Table for Estimating Demand Supporting Documentation Please call Public Utilities Engineering(239)252-2583 with any questions. SUPPLY SYSTEMS PREDOMINANTLY FOR FLUSH TANKS SUPPLY SYSTEMS PREDOMINANTLY FOR FLUSH VALVES Load Demand Load Demand Fixture Flow Value Gallons per minute Fixture Flow Value Gallons nor minute 1 3.0 - - 2 5.0 - - 3 6.5 - - 4 6.0 - - 5 9.4 5 15.0 6 10.7 6 17.4 7 11.8 7 19 8 8 12 8 8 22.2 9 13.7 9 24.6 10 14.6 10 27.0 11 15.4 11 27 8 12 16.0 12 28.6 13 16.5 13 29 4 14 17 0 14 30.2 15 17.5 15 31 0 16 180 16 31.8 17 18.4 17 32.6 18 18.8 18 33,4 19 192 19 34.2 20 19 6 20 35.0 25 21 5 25 38.0 30 23.3 30 42.0 35 24.9 35 44 0 40 26.3 40 46 0 45 277 45 480 50 29.1 50 1 50,0 60 32 0 60 54.0 70 350 70 580 BO 38.0 80 61.2 90 41.0 90 I 64.3 100 43.5 100 67.5 120 48.0 120 73.0 140 52.5 140 77.0 160 57.0 160 81.0 180 61.0 180 85 5 200 65.0 200 90 0 225 70.0 225 95 5 250 75.0 250 101.0 275 80.0 275 104.5 300 85,0 300 108.0 400 105.0 400 127.0 500 124.0 500 143.0 750 170.0 1 750 177.0 1.000 208.0 I 1000 208.0 1.250 239,0 i 1.250 239.0 1 500 269.0 1.500 269.0 1 750 297 0 1 750 ■ 297 0 2 000 325.0 2.000 325.0 2 500 380.0 I 2 500 380 0 3.000 1 433.0 3 000 1 433 0 4 000 1 535 0 4 000 I 535.0 5 000 1 593.0 5 000 f 593 0 Page 48 of 48 Packet Page-2641- 12/9/2014 17,B. NAPLES DAILY NEWS ct Wednesday, November 26, 2014 « 25D 'NOTICE OF MEETING NOTICE-OF MEETING NOTICE OF PUBLIC HEARING Notice is hereby given that on Tuesday, December 9, 2014, in the Board of County Commissioners Meeting Room, Third Floor, Collier Government Center, 3299 Tamiami Trail East, Naples FL, the Board of County Commissioners (BCC) will consider the enactment of a County Resolution. The meeting will commence at 9:00 A.M. The title of the proposed Resolution is as follows: A RESOLUTION OF THE BOARD OF COUNTY COMMISSIONERS OF COLLIER COUNTY, FLORIDA AS EX-OFFICIO THE GOVERNING BOARD OF THE WATER-SEWER DISTRICT APPROVING AMENDMENTS TO THE COLLIER COUNTY WATER-SEWER DISTRICT'S UTILITIES STANDARDS MANUAL, WHICH IS AN INTEGRAL PART OF COLLIER COUNTY ORDINANCE NO. 2004-31, KNOWN AS THE COLLIER COUNTY UTILITIES STANDARDS AND PROCEDURES ORDINANCE,CODIFIED IN CHAPTER 134, ARTICLE Ill OF THE CODE OF LAWS AND ORDINANCES; PROVIDING FOR A DELAYED EFFECTIVE DATE OF JANUARY 1,2015 FOR THE REVISED MANUAL. A copy of the proposed Resolution is on file with the Clerk to the Board and is available for inspection. All interested parties are invited to attend and be heard. NOTE: All persons wishing to speak on any agenda item must register with the County .Manager prior to presentation of the.agenda item'to be addressed. Individual speakers will be limited to 3 minutes on any item. The selection of any individual to speak on behalf of an organization or group is encouraged. If recognized by the Chairman, a spokesperson for a group or organization may be allotted 10 minutes to speak on an item. . Persons wishing to have written or graphic materials included in the Board agenda packets must submit said material a minimum of 3 weeks prior to the respective public hearing. In any case, written materials intended to be considered by the Board shall be submitted to the appropriate County staff a minimum of seven days prior to the public hearing. All materials used in .presentations before the Board will become a permanent part of the record. Any person who decides to appeal any decision of the Board will need a record of the proceedings pertaining thereto and therefore, may need to ensure that a verbatim record of the proceedings is made, which record includes the testimony and evidence upon which the appeal is based. If you are a person with a disability who needs any accommodation in order to participate in this proceeding, you are entitled, at no cost to you, to the provision of certain assistance. Please contact the Collier County Facilities Management Department, located at 3335 Tamiami Trail East, Suite #101, Naples, FL 34112-5356, (239) 252-8380, at least two days prior to the meeting." Assisted listening devices for the hearing impaired are available in the Board of County Commissioners Office. BOARD OF COUNTY COMMISSIONERS COLLIER COUNTY,FLORIDA TOM HENNING,CHAIRMAN DWIGHT E.BROCK,CLERK By: Ann Jennejohn Deputy Clerk(SEAL) Nrn,amhar JA Jnia n,.. nnn5flQQ Packet Page -2642-