Gravity sewers shall be constructed of ductile iron pipe Class 52 or PVC.

Centrifugally cast ductile iron pipe shall conform with ANSI specifications A21.51-1976, thickness Class 52, with push-on joints. Pipe shall be complete with plain rubber gaskets and joint lubricant, conforming with ANSI specifications A21.11-1980. Piping shall have double thickness cement lined with paint seal coat, tar-coated on the outside which conforms with ANSI Specifications A21.4-1980.

PVC gravity sewer pipe shall be SDR 35 and meet the requirements of ASTM-D 3034. The pipe will have a permanently installed reinforced rubber ring gasket in an integral bell joint. Joints shall conform to ASTM.D 3212.

Inverted siphons, force mains and outfall shall be constructed of ductile iron or steel pipe, unless otherwise permitted by the Department. Inverted siphons shall consist of not less than two pipes with provision for rodding for flushing. Flow-control gates shall be provided in the chambers.

Vertical inspection riser and tee shall be constructed of PVC; riser shall contain no more than two sections of pipe. Installation shall be in compliance with detail sheet at end of this document.

Deep cut lateral connection shall be constructed in accordance with the requirements of § 5-2D and the detail sheet at the end of this document.

Manholes shall be constructed of precast reinforced concrete sections, of which the top section shall be eccentric or flat slab top. Bottom section shall be a precast concrete manhole base. Poured-in-place bases will not be acceptable.

All precast manhole sections shall be manufactured by the wet cast method and shall be in accordance with and meet the requirements of Specification ASTM C-478, latest revision.

Flat-top manholes are not permitted without written permission obtained from the Engineer.

The minimum compressive strength of the concrete for all sections shall be 4000 psi. The maximum allowable absorption of the concrete shall not exceed 9% of the dry weight. Tests, when required, shall be in accordance with ASTM C-497, Determining Physical Properties of Concrete Pipe or Tile, latest revision. The circumferential steel reinforcement for risers, cone sections and base walls shall be a minimum of 0.12 square inches per vertical foot for forty-eight-inch-diameter manholes and 0.0025 times the inside diameter in inches per vertical foot for larger diameter manholes.

Sections shall be a minimum of four feet in diameter for pipe sizes up to and including twenty-inch internal diameter (for pipe sizes with an internal diameter of 21 inches and greater, sections shall be a minimum of five feet in diameter).

The sections shall conform to the requirements of Specifications for Precast Reinforced Concrete Manhole Sections, (ASTM C-478, latest revision). Joints shall be sealed with a preformed plastic gasket that meets or exceeds all requirements of Federal Specification SS-S-00210, Sealing Compound Preformed Plastic for Pipe Joints, Type 1, Rope Form, as manufactured by Hamilton Kent Manufacturing Company, Kent, Ohio; O-LOK rubber gasket, as specified to meet the requirements of specifications ASTM C-443, as supplied by Atlantic Concrete Products Co., Tullytown, Pa., or approved equal.

The bases shall be monolithically cast and shall consist of a manhole bottom and a wall which shall extend a minimum of six inches above the top of the highest inflowing sewer. The top of the base section shall be carefully formed to receive the tongue of the barrel section. There shall be a minimum distance of four inches between the invert of the lowest outflowing sewer and floor of the precast base to provide for the construction of a formed invert and bench wall within the manhole. No more than two lift inserts or holes shall be cast in the bases.

All precast manhole bases shall have pipe to manhole flexible seals as manufactured by A-LOK Products Corporation, Trenton, N.J., "A-LOK full-compression seals"; "Lock Joint Flexible Manhole Sleeve," as manufactured by Interpace Corporation, New Brunswick, N.J. or an approved equal.

Manholes four feet in diameter shall have a bottom at least six inches thick and a wall at least five inches thick.

Manholes five feet in diameter shall have a bottom at least eight inches thick and a wall at least six inches thick.

Manholes six feet in diameter shall have a bottom at least eight inches thick and a wall seven inches thick.

The top section shall be eccentric conical section with thickened upper walls with the smallest inside diameter equal to 30 inches, to receive the manhole frame and cover. No more than two lift inserts or holes shall be cast in each barrel or top section.

Flat-top manholes are not permitted to be installed on this project unless written permission is obtained from the Engineer.

Manhole steps shall be of extruded 6061-T6 aluminum and shall be the equal of ALCOA Stock No. 12653A or polypropylene step #PS4B as manufactured by M.A. Industries, Peachtree City, Georgia, or approved equal.

Manhole steps and insert assemblies shall conform to the requirements of Section 15 (Manhole Steps and Ladders) of ASTM Specification for Precast Reinforced Concrete Manhole Section C-478. Dimensions shall meet the requirements of OSHA Standard 1910.27 for fixed ladders.

Existing manhole frames and covers from manholes being removed from the project shall be returned to the Glassboro Water and Sewer Department in an unbroken/acceptable condition.

Proposed castings shall be tough gray iron conforming to ASTM Specifications A48, Class 30B, free from cracks, holes, swells and cold shuts. All manhole castings shall be made accurately to the pattern and to the dimensions shown on plans and shall be planed where marked, or where otherwise necessary to secure perfectly flat and true surfaces. All lids which "rock" and do not lie solid after construction is finished will be condemned and must be replaced by perfect lids.

Castings shall be given a shop coat of black bitumastic paint prior to delivery to the job site.

All manholes along the gutter line, road shoulder or within 20 linear feet of the physical center line shall utilize watertight manhole frames and rims unless otherwise directed by the Engineer.

Manhole steps shall be cast into the walls of base, risers and conical top sections and shall be aligned vertically and spaced so as to be on equal centers in the assembled manhole at a maximum distance of 12 inches. Steps shall be located a minimum of six inches from the ends of base, riser and top sections and shall be securely embedded in manhole sections by mortar or cast in place polypropylene inserts.

The entire outer surface of all concrete manholes shall be coated with two coats of an approved bitumastic coating. Coating shall be Koppers 300M Epoxy, Pennsbury 32-B-4 Epoxy or approved equal.

A permanent auxiliary source of power shall be provided for all electrically driven pumps.

Auxiliary electrical power is required for all motors used for wells, lift stations and other motor-driven equipment as determined by the Department. This shall apply to all major projects, which "major" project is defined as including but not limited to major subdivisions, general commercial projects and multiple occupancies in excess of three domestic consumer units.

Permanent auxiliary power generators shall be made part of all pump/lift stations. The power generator shall be placed in proper weatherproof housing of a type and/or design to be approved by the Department Engineer. The generator set shall be located in a separate room/area than the control portion of the station.

The Department requires a permanent generator to be located at any pump station. The auxiliary power source shall be sufficient to start the second pump after the first pump is in operation and all auxiliary equipment simultaneously. The station shall be provided with a generator plug acceptable to the Department.

Generator fuel tank and fill cap shall be located aboveground within the station fence. Provide subbase fuel tanks to operate generator for a minimum of 48 hours without refueling. Pump gauge to indicate fuel level.

Generator shall have automatic starting capabilities.

Generator shall have its own battery charger and an outside outlet for 120V power.

Battery to have capacity of starting generator to temperatures of less than 15° below 0° F.

Generator shall be supplied with protected weather housing in accordance with the manufacturer's requirements.

Generator shall be supplied with intake silencer and exhaust muffler.

Pumping station capacity should be compatible with the ultimate capacity of the influent sewer. At least two pumps, operating alternately and each designed to handle peak flows for 10 years hence 12.5 times the expected average daily flows, shall be provided. Both pumps will be of the same capacity and manufacturer will each be able to handle flows in excess of the maximum design flow.

If more than two pumps are provided, their capacities shall be such that, upon failure of the largest pump, the others will handle such peak flows. If pneumatic ejectors are approved by the Department as the method of raising sewage, two compressor units are required, and they shall be so interconnected that the duplicate unit will commence operation in the event of failure of the one in use.

Local.

Remote.

Certified pump curves.

As-built plans of the pumping station.

Suggested maintenance schedule.

Complete and detailed schematics of all electrical systems and controls.

Each hatch door shall be constructed of at least 1/4-inch thick aluminum diamond plate.

Each hatch shall be reinforced with aluminum stiffeners to withstand a live load of 300 pounds per square foot.

Channel frames shall be of minimum 1/4-inch thick standard sections with an anchor flange around the perimeter. A 1/2-inch aluminum drainage coupling shall be located in the channel frame. A pipe of corrosion-resistant material shall extend from the coupling to the bar screen trash basket level.

Each hatch shall be equipped with heavy-duty hinges, spring operators and automatic hold-open arm with release handle, all of stainless steel. Type of locking system to be approved by the Department. In addition, all hardware shall be stainless steel.

Two heavy-duty stainless steel safety chains shall be provided on each end of all double-leaf doors.

The hatch covers shall be mill finished.

All metal used in fabricating the access doors shall be either aluminum or stainless steel. All aluminum shall be Alloy 6061-T6 and all stainless steel shall be Type 316.

Hatches to be minimum 2-2' by 4' door or minimum 2-2' by 2/3 wet well diameter, whichever provides the greatest area.

Fifty feet of 3/4-inch heavy-duty water hose with high-pressure nozzle.

A hose rack or a stand located adjacent to the post.

Backflow preventer and curb stop-curb box prior to service connection to yard hydrant. Curb box to have 12 inch square by 4-inch deep concrete foundation.

Twelve-inch square by 30-inch deep Class "C" concrete foundation.

Ductile iron pipe shall be Tyton joint as manufactured by U.S. Pipe and Foundry, or an approved equal in accordance with ANSI Specification A21.4.

All water mains greater than four inches in diameter shall be Class 52 concrete-lined ductile iron pipe conforming to AWWA Standard Specifications.

Wall and socket thickness shall equal Class 54 DIP in accordance with ANSI/AWWA/A21.4/C104. "DI" or "ductile" must be cast on all fittings along with the pressure rating and number of degrees or fraction of circle on all bends.

Gate valves shall conform with the latest AWWA Specifications and shall be cast-iron body, fully bronze mounted, double disc parallel seat, non-rising stem, inside screw type. By means of a top wedge, a bottom wedge and two side spacers, the discs shall be wedged against the seats of four separated contact points near the outside edge of the discs. This wedging action is actuated when the bottom wedge contacts a rib in the bottom of the body. Bronze seat rings shall be back-faced with threads accurately cut and screwed into the valve body. Gate valves shall incorporate O-ring type stuffing boxes. One O-ring shall be located below the thrust collar of the stem and around the thrust collar is to be filled with a lubricant to provide for lubricating the thrust collar and O-rings each time the valve is operated. Operating nut of valves shall be two-inch-square cast iron and shall open in a clockwise direction. Stem shall be non-rising type. The threads on the bronze stem shall be ACME for threads. All stem thrust collars shall be made integral with the stem. The stem of 4 foot through 16 foot sizes shall be made of rolled bronze with the collar formed by a forging operation. All stems shall be designed so that if excess torque is applied to the operating nut, the stem will fail above the stuffing box, leaving enough stem protruding so that the valve can be operated.

Valve ends shall be of the type and size necessary to accomplish approved joint assembly. Valve size shall be that of the main it affects. Valves shall be suitable for 200 psi working pressure. Valves shall be capable of being repacked under pressure in the fully open position, if necessary. All iron and ferrous parts of the valves shall be cleaned and painted with at least two coats of asphaltum varnish both inside and outside.

Valve boxes shall be of the cast-iron three-piece 5-1/4 shaft Buffalo type with the upper section adjustable for elevation (slide or screw type) and with round drop cover with "Water" cast in. Tabs within slide model shall not be removed. Valve boxes shall be of sufficient length to cover the stuffing boxes of the valves and meet surface grade with reasonable, adjustable allowance for future raising and lowering of grade. Valve boxes shall be of ample strength to withstand heavy traffic shock. Valve boxes shall be coated both inside and outside with tar or asphalt compounds.

Risers are not permitted to adjust final grade of valve box.

Valve box must be plumb and cleaned of all debris. The shutoff nut must be centered within the box and have one-inch clearance between the inside of the box and the valve wrench.

All components for the corporation stop shall be manufactured of brass, cast in conformance to AWWA Standard C-800, Sec. 1-General, Paragraph 1.2 (ASTM B-62).

Inlet and outlet threads shall conform to AWWA Standard C-800.

The key and body seating surfaces shall be accurately machined and fit to taper 1 3/4 inches per foot (0.1458 in./in.), plus or minus 0.07 inches.

The key shall have a D-shaped boss at the small end and the retaining washer shall have a matching flat surface so machined as to provide an interference fit across the diameter of the D boss perpendicular to this flat. There shall be no evidence of staking or chisel marks in assembly.

The stem and retaining nut shall be so designed that failure from overtightening of the retaining nut results in threads stripping rather than stem fracture.

The flared connection coupling nuts shall have a bearing skirt machined to fit the O.D. of the pipe for a length of at least equal to the O.D. of the pipe.

For compression connections, the nut shall have a smooth coating inside to reduce friction during assembly. Connection is to be designed so that when the nut bottoms against the body of the fitting, the connection is the proper tightness. Gripper band shall be stainless steel, concave in shape and overlap itself.

At the customer's option, stops shall be subjected to a 80 psig hydrostatic test and shall not leak top or bottom and shall not show signs of structure failure.

All curb stops shall be manufactured of brass, cast in conformance to AWWA Standard C-800.

Inlet and outlet threads shall conform to AWWA Standard C-800.

Curb stops shall be of the cylindrical plug type valve with a closed bottom and a top seal.

One O-ring seal surrounds the inlet port of the plug part and is a working pressure seal on any valve in the closed position. This seal also is a working pressure seal in the open position for valves with drain.

The valve shall have a port with a plastic liner to provide straight through flow way, eliminating any turbulence caused by a cavity inside the plug.

The plug shall be a one-piece bronze cylindrical plug and T head, aligned with the ports to provide visual check of the valve position.

Valves are for a maximum working pressure of 176 psi.

Valves are for a maximum temperature of 180° F.

End connections shall be the same as the specifications for the corporation.

Basic design shall be of the dry top type which prevents the operating threads from coming in contact with the service water.

Hydrants shall be of the compression type, opening against the pressure and closing with the pressure.

The operating nut shall be non-rising pentagon shape measuring 1 1/2 inches from point to flat and be constructed of 100% bronze. The direction of the opening shall be right. The operating threads shall be contained in an operating chamber, scaled at the top by a weather shield sealed on one O-ring, and at the bottom by two O-rings. A fourth O-ring shall be between the brass sleeve and stem. The chamber shall be lubricated with grease or oil and have an external oil fill or grease fitting to facilitate schedule maintenance.

The main valve opening shall not be less than 4 1/2 inches. Valve opening shall be integrally cast into the body of the hydrant.

The main valve seat shall be made of bronze and threaded into a bronze drain ring. Or, it may be threaded into a heavy bronze bushing in the fire hydrant base. This will preclude the galvanic corrosion that occurs between dissimilar metals.

Hydrants shall be equipped with drain valves which drain the barrel when the hydrant is closed and sealed shut when the hydrant is in the open position. Drain valve shall not utilize springs, boggles, levers or other small working parts. Drain valve facing shall be made of buna or nylon. Leather will not be acceptable. A minimum of the upper plate of drain valve assembly shall be bronze.

The hydrant shall be so designed as to permit the removal of all working parts from the hydrant up through the barrel without disturbing the earth around the hydrant or disassembling the nozzle section. This must be able to be accomplished by the use of one short seat wrench (regardless of hydrant bury) which will engage the top part of the hydrant rod.

The hydrant shall come with a ground line traffic feature incorporating the split safety flag design and safety coupling in order to ensure consistent breaking without damage to the other hydrant parts when struck by a vehicle. Breakable nuts or bolts will not be acceptable. The ground line shall not be less than 18 inches below center line of the lowest barrel. A breakable stem coupling shall join the two-piece stem adjacent to the ground line flange. Screws, fasteners and bolts used in the coupling shall be stainless steel. The weakened portion of the stem coupling shall be below the coupling. Upper sand lower barrels shall be fabricated of cast iron so as to minimize the possibility of shoe damage upon traffic impact.

The hydrant shall be such that the upper barrel can be rotated 360° in order to assure proper nozzle location.

Hydrants shall be "three way," having two 2 1/2 hose nozzles and one 4 1/2 inch pumper nozzle with threads conforming to Borough of Glassboro standard. Coupling on hose nozzles to be National Standard Thread.

The operating nut, hydrant nozzles, direction of opening and painting shall be in keeping with those hydrants already in the system.

Shoe connection.

The features and design criteria outlined in this specification must be the standard production features of any hydrant that is to be considered for inclusion in the system.

All hydrants specified shall be locally represented by a quality, wholesale waterworks outlet. The fire hydrant and standard parts, such as extension kits, traffic repair kits and main valves, shall be readily available from local inventory or within 30 days.

Hydrant color.

Hydrant shall be Mueller Centurion or approved equal.

Depth of bury is to be four feet six inches.

One traffic flange repair kit and one hydrant seat removing tool is to be provided by the developer for every 10 hydrants installed within a development.

The following submitted documents from the manufacturer pertinent to the specific hydrant model to be furnished shall be furnished upon the request of the Department's Superintendent: