No gravity sewer conveying raw sewage shall be less than eight inches in diameter.

Sanitary sewer mains shall not be installed under either curbs or sidewalks. In addition, trays, cleanouts and force main valves shall not be installed under or in concrete cement.

No underdrains, conduits and/or cables of any nature will be installed in the same trench with sanitary sewer.

PVC or DIP gravity sewer and force mains shall be used for all sanitary sewer except the following conditions which include, but are not limited to:

Sewer and water mains generally should be separated a distance of at least 10 feet horizontally. If such lateral separations are not possible, the pipes shall be in separate trenches with the sewer at least 18 inches below the water main; or such other separation as approved by the owner.

Concrete encasement will be required for the following conditions:

When a new sanitary line is constructed and tied into an active manhole, the new line will be plugged and remained plugged until all testing has been completed and approved by the owner.

All sanitary sewer laterals that are scheduled for connection to a specific sewer main must be connected and extended to the curbline prior to the acceptance testing on that line.

Neither repair clamps nor saddles are permitted to be used on new sanitary sewers within the jurisdiction of the owner. These are only to be used in cases of emergency, and then only with the prior written approval of the owner. If and when saddles are approved, they will be of the strap-on type with stainless steel hardware; no bolt-on saddles will be permitted.

Force mains will not be tied directly into a gravity manhole. A collector manhole will be constructed adjacent to the gravity manhole and the force main will terminate in this collector manhole. The effluent will flow by gravity into the manhole, which is part of the gravity system.

Private ejector lines shall be connected directly to the sewer main.

Air relief valves will be required at the high points of any force main.

Interceptors shall be provided for commercial and industrial discharges when in the opinion of the owner and/or Engineer they are necessary for the proper handling of liquid waste containing grease, oil, sand or lint to the building drainage system, the public sewer or sewage treatment plant or processes. All commercial and industrial dischargers must complete a usage questionnaire that requires submittal of plumbing plans for each facility.

All sewer shall be designed and constructed to give mean velocities, when flowing full, of not less than 2.0 feet per second, based on Kutter's Formula using an "N" value of 0.013 for ductile iron pipe or an "N" value of 0.01 for PVC pipe.

Slopes slightly less than those required for the 2.0 feet per second velocity, when flowing full, may be permitted. Such decreased slopes will only be considered where the depth of flow will be 0.3 of the diameter or greater for design average flow. Whenever such decreased slopes are selected, the design engineer must furnish with his report his computations of the anticipated flow velocities of average and daily or weekly peak flow rates. The pipe diameter and slope shall be selected to obtain the greatest practical velocities to minimize settling problems.

Sewers shall be laid with uniform slope between manholes.

Where velocities greater than 15 feet per second are attained, special provision shall be made to protect against displacement by erosion and shock.

The use of sewers with a slope in excess of 20% is prohibited. Instead, drop manholes should be considered. In any event, the owner and its Engineer will review all proposed sewers with a slope in excess of 20% on a case-by-case basis.

Manholes shall be installed at the end of each line; at all changes in grades, alignment or size, and at distances not greater than 400 feet.

A drop pipe should be provided for a sewer entering a manhole at an elevation of 24 inches or more above the manhole. Drop manholes shall be constructed with an outside drop connection. The entire outside of the drop connection shall be encased in concrete.

The minimum diameter of manholes shall be 48 inches. A minimum access diameter of 30 inches shall be provided.

The flow channel through manholes should be made to conform in shape and slope to that of the sewers.

"SANITARY SEWER" shall be cast in lids of all sanitary manholes.

All pipe penetrations into a manhole shall be no less than 90° to the center line of the downstream main.

Manhole rims shall be set at base paving elevation and adjusted at a later date prior to installing the surface course. Manholes located in grassed areas shall be raised three inches above grade with fill built-up around the cover.

Inverted siphons should not have less than two barrels, with a minimum pipe size of six inches and shall be provided with the necessary appurtenances for convenient flushing and maintenance.

Sufficient head shall be provided and pipe sizes selected to secure velocities of at least 3.0 feet per second for average flows.

The inlet and outlet details shall be so arranged that the normal flow is diverted to one barrel, and that either barrel may be cut out of service for cleaning.

All laterals are to be connected to the main by means of a wye connection only. The standard lateral connection will be four inches, or six inches in the case of PVC. All service laterals will be laid with the same care prescribed in § 51-12 of these specifications, which includes proper trench construction and backfill, and stoning of the trench bottom when necessary to obtain a stable base under the pipe.

The standard sewer service lateral will be constructed of PVC, cast iron, ductile iron or a combination thereof. If the owner or builder desires to use pipe of a material other than that listed above, he must obtain the prior written approval of the owner.

Adapters to connect the service lateral to house service lateral must be approved by the owner.

The standard gravity sewer lateral will be constructed of four-inch diameter for all residential or six-inch diameter for commercial/industrial. Material shall be PVC SDR 35 pipe from the sewer main to the cleanout just behind the curbline.

All sanitary sewer laterals should be installed at a grade equal to 1/4 inch per foot, but in no case will they be installed at a grade less than 1/8 inch per foot.

All laterals will be installed at a constant grade and in a straight line. There will be a cleanout constructed and a plug provided just behind the curbline and at any point where it is necessary to change the direction of the lateral. Cleanouts are required every 50 feet on long laterals.

When the sanitary sewer mains are over eight feet in depth, the construction of a deep cut lateral is required.

Minimum depth for a sanitary sewer lateral is 36 inches at the curbline.

In no case shall laterals be installed under driveways. A lateral location plan shall be submitted to the owner.

Gravity. Connections of the saddle type installed in the main sewer line shall be made in a smooth, round hole, machine-drilled into the top quarter of the main sewer pipe. The fitting should be such to insure that no protrusion of the fitting into the main sewer pipe shall result. The fitting shall conform to the contour of the sanitary sewer and is one that is specifically designed to fit the particular size main sewer pipe into which the connection is made. The machine-drilled hole shall be of such size to provide 1/8 space between the shoulder of the fitting and the face of the main sewer pipe when installing. All voids shall be completely filled with joint material. The joint material shall be completely waterproof and capable of withstanding the stresses normally encountered in construction or maintenance. All saddles shall be a double strapped stainless steel connection. Wrap saddle in six mil clean polyethylene and encase in minimum six inches of concrete.

Sewage ejectors:

Grease recovery units (GRU) shall be installed in the waste line(s) leading from sinks, drains, or other fixtures in all food service, food processing, or other commercial establishments which produce grease/oil and which are connected into the public sewer system. Greases and oils are defined as any substance(s) with physical characteristics which enable them to be quantitatively analyzed based upon their solubility in Freon, including hydrocarbons, fatty acids, soaps, fats, waxes, oils and any other substances or materials not volatilized during solubility testing. All grease recovery units must be constructed of stainless steel or reinforced concrete. The owner shall approve the size, type, and location of each recovery unit. A sediment/solids removal unit must be installed before the grease removal unit. All installations must conform to the manufacturer's specifications and to all applicable building codes. For new construction, all grease interceptors shall be an exterior concrete unit.

Oil, sand and lint interceptors shall be installed in the waste line(s) of all commercial establishments which produce such waste and are connected into the owner's sewer system.

All grease recovery units or interceptors shall be so installed as to provide ready accessibility to the cover and contents thereof, for servicing and maintaining the grease recovery units or interceptors in working operating condition. All grease recovery units or interceptors shall be maintained in an efficient operating condition by regular, periodic removal of accumulated contents.

The owner, through its authorized officers, employees and agents, shall have authority to inspect, at reasonable times, those food service, food processing or other commercial establishments which produce oil, grease, sand, lint or other harmful ingredients and which are connected into the owner's sewer system to ensure that said establishments which produce oil, grease, and are properly maintaining their grease recovery unit and/or interceptor on all waste line(s).

Plumbing and floor plans shall be submitted for owner review and approval. Finalized plans shall be forwarded by the establishment to the owner for their records.

Full service restaurants, pizzerias and fast food type restaurants or other commercial establishments which produce excessive quantities of grease/oily waste shall furnish both an interior GRU and an exterior grease trap.

Grease conveying laterals shall be separated from laterals conveying raw sewage until after interceptor connection.

PVC gravity sewer pipe and fittings:

PVC pressure sewer pipe and fittings:

Locator wire.

Reference standard used in this specification section:

Submittals:

Product delivery, storage and handling:

Inspection by contractor:

Excavation for trenches:

Installation:

Backfill and compaction:

Testing:

Appurtenance installation:

Sanitary sewer force main:

Sanitary sewer gravity main:

Submittals:

Inspection and quality of pipe:

Installation of pipe and fittings:

Piping supports for ductile iron force mains. The contractor shall furnish and install all supports necessary to hold the piping and appurtenances in firm, substantial manner at the lines and grades required. Where required, bends, tees, and other fittings buried in the ground shall be backed up with concrete placed against undisturbed earth where firm support can be obtained. If the soil does not provide firm support, then suitable bridle rods, clamps, and accessories to brace the fitting properly shall be provided. Such bridle rods, etc., shall be coated thoroughly with an approved bituminous paint after assembly or, if necessary, before assembly. This work shall include bracing plugs to prevent leakage or blowout during testing.

Handling and cutting pipe. Every care shall be taken in the handling and laying of pipe and fittings to avoid damage to the pipe, scratching or marring machined surfaces, and abrasion of the coating or lining. Pipe cuts shall be made using an abrasive wheel, rotary wheel cutter, guillotine pipe saw, milling wheel saw, oxyacetylene torch or other method approved by the Engineer. Ground cut ends and rough edges smooth. For push-on connections, bevel all cut ends.

Assembling piping.

Protection of work:

Adapters. When it is necessary to join pipes of different types the contractor shall furnish and install the necessary adapters. Adapters shall have ends conforming to the above specifications for the appropriate type of joint to receive the adjoining pipe. When adapters join two classes of pipe, the bodies may be of the lighter class.

Pipe repairs shall be accomplished utilizing stainless steel double banded repair clamps (Rockwell 226 "Super Reach" or equal), installed in accordance with the manufacturer's printed instructions.

Provide precast concrete manholes for gravity sanitary sewer system.

Reconstruct existing manholes.

Provide connection to existing manholes.

Precast concrete manholes shall conform to ASTM C 478.

Rubber gasket for precast manhole sections shall conform to ASTM C 361. Concrete and rubber gasket joint shall be watertight at head pressure of up to 50 feet.

Rubber gasket pipe to manhole seal for precast manholes: ASTM C 443.

Ladder rungs. Shall be aluminum alloy conforming to ASTM C478.

Castings for manholes. Campbell Foundry Pattern No. 1012D with lifting handles and pick holes and "SANITARY SEWER" cast in lid, or approved equal.

Submittals. Submit manufacturers' product data for ladder rungs and precast manholes as specified § 51-5, Product data, of Article II, General Specification

Reference standards used in this specification:

The general method of construction and manhole reconstruction shall conform to Section 603 of the Standard Specifications. The manhole shall be constructed as shown on the standard details.

Manhole walls shall be constructed of precast concrete rings and all joints between. The outside surface shall be painted with seal coats of coal tar or asphalt. Manhole walls may be constructed of poured concrete, subject to approval by the owner's Engineer. Installation of rubber gaskets for precast manholes shall be in accordance with the manufacturers' recommendations.

Frames shall be well bedded in mortar, making a watertight joint. Cover and frame shall have a shop coat of asphaltic pitch and shall have a field coat of similar paint after the frame is set in the final position. Steps shall be provided in the manhole as shown on the standard details.

Each manhole shall be constructed absolutely watertight. Manholes that are not watertight will not be accepted. Plastering on top of defective joints to correct leaky conditions will not be permitted.

The invert channels shall be smooth and semicircular in shape conforming to the inside of the adjacent sewer section. Changes in direction of flow shall be made with a smooth curve of as large a radius as the size of the manhole will permit. Changes in size and grade of the channels shall be made gradually and evenly. The invert channels shall be formed in the concrete fill above the manhole base, or shall be half tile laid in concrete, or shall be constructed by laying full section sewer pipe through the manhole and cutting out the top half after the surrounding concrete has hardened. The floor of the manhole outside the channels shall be smooth and shall slope toward the channels not less than one inch per foot nor more than two inches per foot.

Construct manholes to the lines and grades required in the system being installed.

A maximum of four courses of brick, up to 12 inches in height, shall be used on any precast manhole. When a greater number of courses are required to attain the proper grade, another precast section shall be used.

Provide all manhole top sections with minimum thirty-two-inch diameter clear opening.

Design, furnish, install, test and monitor complete sanitary sewage pumping station if required by project conditions.

Sewage pumping stations shall be of the wet well type with submersible pumps.

Prior to pump station approval, the applicant shall submit eight copies of the following for approval:

Prior to construction, the contractor shall submit shop drawings for the pump station in accordance with § 51-5, Product Data, of Article II, General Specification.

Before testing and startup, 10 copies of complete pump station O&M manuals shall be submitted to the owner/Engineer for review and approval.

As-built plans shall be submitted to the owner/Engineer prior to the release of the performance bond.

Pumping station capacity should be compatible with the ultimate capacity of the influent sewer. At least two pumps, each designed to handle peak flows for ten years hence, shall be provided. 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. Pumps shall include run-hour meters on the main electrical panels.

Special repair tools and accessories as well as 10 copies of all operation and maintenance literature required for maintenance shall be provided.

The capacity of a wet well should not exceed 10 minutes retention when flow is at the average dry weather rate.

The floors of wet wells shall slope at least 45° toward pump suctions to prevent solids accumulation.

Wet wells shall be designed and installed to comply with OSHA regulations and the requirements governing confined space entry.

All control equipment and standby generator shall be located outside of the wet well in a suitable building, approved by the owner.

Automatic visual and audible alarm systems shall be provided for all pumping stations operating independently of the station power. The alarm shall be activated in cases of power failure, pump failure, level control failure, or any cause of pump station malfunction. Pump station alarms shall be telemetered, including identification of the alarm condition to the sewage treatment plant or other location as designated by the owner.

Ground fault interrupter (GFI) breakers shall be provided for all dry well and exterior fixtures.

All electrical equipment and work shall comply with Fire Underwriter's regulations for the location involved, the National Electric Code, and OSHA 1910.147.3.C.2.

All outdoor panels and junction boxes shall be NEMA 4X 316 stainless steel.

An emergency power source must be provided with automatic transfer capability in case of primary power failure. This unit must be sized so as to provide all power necessary to supply all the electrical equipment for the pumping station from the period of primary power failure.

The owner shall be supplied with 10 sets of operational instructions, including emergency procedures and maintenance schedules. Any special tools and spare parts as designated by the owner shall also be provided.

Unless otherwise approved by the owner, pump stations shall be underground concrete wet well type.

The owner shall be contacted prior to the selection of any pump and/or pump station within the owner's service area.

Pumps and pumping stations shall be provided for transfer of raw sewage when flow by gravity is not possible or impractical, as determined by the owner/Engineer.

Raw sewage shall be screened before pumping unless special pumping equipment approved by the owner is used. A trash basket and guide rails, constructed of either aluminum or stainless steel, must be provided in the wet well. A mechanical means, such as a winch, must be provided so this basket can be removed from the wet well for cleaning.

Wet wells shall be provided with adequate light and ventilation and a means of access for pumps and trash basket.

At least two pumps shall be provided at each pump station. All pumps shall be designed for at least 2.5 times the expected average daily flow for 10 years hence. Pumps shall be designed to overcome the total static and ultimate dynamic head conditions of any common force main flowing full. At the owner's discretion, variable frequency drives (VFD) may be required for any new or rehabilitated pump station. VFD shall be Safetronics or equal.

Pumps shall be capacity of passing spheres of at least three inches in diameter, and pump suction and discharge piping shall be at least four inches in diameter.

Pump stations shall be located outside the FEMA 100-year flood area and shall not be subject to flooding. Pump stations shall be accessible by motor vehicles at all times.

Pump controller.

Provide minimum 2,000-pound capacity winch with a 2.85 to 1 cranking ratio. Winch shall be the ratchet type with a disc brake. Winch shall be supported by a removable, swiveling-type davit. Winch cable shall be minimum three-sixteenths-inch diameter stainless steel and have sufficient length to reach the bottom of the wet well. The end of the cable shall be furnished with a spring-loaded hook.

Alarm dialer.

Pump station design shall comply with all Occupational Safety and Health Standards (OSHA), including Section 1910.27 for minimum dimensions of access hatch openings.

The pump station design shall include a complete analysis of buoyant forces. In addition, structural design calculations for all concrete structures and metal support system shall be submitted.

Provide minimum of eight copies of all shop drawings to the owner/Engineer prior to manufacture for review.

The pump station operation and maintenance manual shall include at a minimum, but not be limited to, the following information:

The owner's Engineer shall be present for on-site testing of all equipment, including, but not limited to, determining pump capacity. The pump station manufacturer's representative shall perform the testing.

The applicant shall coordinate progress of the work with utilities and local authorities which require inspection and approval of the work.

The pump station and generator manufacturers shall each provide the services of a factory trained representative for a minimum period of eight hours to perform initial startup of the pump station and generator, and to instruct the owner's operating personnel in the operation and maintenance of the equipment. This instructions time is in addition to any required testing and equipment startup preparation.

All aluminum materials shall be suitably protected against dissimilar materials, such as concrete, steel, nonferrous metals, etc., using neoprene washers, painting or other approved method.

The owner shall be provided with special repair tools, spare parts and accessories for each pump station.

In addition to the above criteria, all pump stations shall meet the New Jersey Department of Environmental Protection Rules and Regulations for the Preparation and Submission of Plans for Sewer Systems and Wastewater Treatment Plants.

Minimum wet well diameter shall be seven feet. Top of wet well slab shall be minimum nine inches above the finished grade.

The concrete wet well construction shall conform to:

There shall be no joints between the base slab and first riser section, as these two sections shall be monolithically constructed.

The floors of wet wells shall slope at least 45° toward pump suctions to prevent solids accumulation.

Provide aluminum bar screen basket with aluminum guides, constructed of aluminum alloy 6061-T6 or 6063-T6. All raw sewage shall be screened before pumping unless special pumping equipment approved by the owner is utilized. Provide removable bar screen basket with guide rails constructed of aluminum alloy 6061-T6 or 6063-T6. Minimum 3/16 inches by 1 1/4 inches aluminum flat bars shall be positioned on the bottom and all sides. Maximum clear space between bars shall be one inch. All hardware shall be stainless steel.

Provide access hatches based on the following requirements:

Provide an exhaust air odor control system:

On the entire interior concrete surface of the wet well, provide an epoxypolyamide or approved equal painting system installed in accordance with the painting system manufacturer's recommendations (see Section 5.9.X.).[1]

All materials inside the wet well shall be aluminum alloy 6061-T6, 6063-T5 or 6063-T6, Type 316 stainless steel, PVC or fiberglass. This includes the fall prevention system, expansion anchors, anchor bolts, nuts and washers.

General. The contractor shall furnish and install a complete diesel engine/generator set, complete, at the job site. The generator set shall be installed inside the control building. The complete standby system shall consist of:

Control panels:

Appurtenances. All accessories needed for the proper operation of the pump station and generator shall be furnished. These shall include, but be limited to, the following:

Paint:

Spare parts. Provide spare parts as recommended by manufacturer for six months of operation for each engine-generator set in addition to the following:

Automatic load transfer control:

Products:

Field quality control. Provide full load test utilizing portable test bank for four hours minimum. Simulate power failure including operator of transfer switch, automatic starting cycle, automatic shutdown and return to normal. All testing procedures shall be as described in NFPA 110 under Installation Acceptance.

Personnel training. The generator manufacturer shall provide the services of a factory-trained representative for a minimum period of eight hours to perform initial startup of the generator, and to instruct the owner's personnel in the operation and maintenance of the equipment. Initial startup of generator shall conform to NFPA 110.

Shop drawings and O&M manuals:

Warranty. The complete standby electric power system, including engine-generator set and transfer switch equipped with set exerciser, and running time meter, shall be warranted for a period of five years or 1,500 operating hours, whichever occurs first, from the date of initial startup. During the warranty period, manufacturer shall promptly furnish the owner with replacement parts for all items deemed defective. Multiple warranties for individual components (engine, generator, controls, etc.) will not be acceptable. Satisfactory warranty documents must be provided. This warranty shall be detailed in available written documents. In the judgment of the owner, the manufacturer supplying the warranty for the complete system must have necessary financial strength and technical expertise with all components supplied to provide adequate warranty support.

Provide minimum seven-foot-high fence along the pump station area perimeter. All fence shall be located a minimum of 10 feet behind the present or future public right-of-way line or privately owned curbing and sidewalk. All slabs, equipment and utilities shall be located within the fenced area at least three feet from the fence.

Adequate light and ventilation shall be provided at all pumping stations. Where operation or maintenance duties are required in enclosed areas or pits, forced ventilation by suitable means shall be provided with sufficient capacity to induce at least 30 air changes per hour. Explosion-proof equipment shall be utilized.

Adequate fresh water facilities shall be provided to permit routine washdown and cleaning operations at all pumping stations. Where a domestic service connection is provided to a pumping station, the water supply shall be properly protected with an appropriate backflow prevention device. No cross-connections between fresh water and sewage pumps or pipes shall be permitted.

Sewage pumping station structures and electrical and mechanical equipment shall be protected from physical damage by the 100-year flood. Sewage pumping stations shall remain fully operational and accessible during the twenty-five-year flood.

The pumping station shall be readily accessible by maintenance vehicles during all weather conditions.

A paved access road shall be provided for ingress and egress to the pump station. The access drive shall include a turnaround area.

The entire site shall be fenced, and all appurtenances located within minimum 50 feet by 50 feet parcel.

Site area lighting shall be provided and shall be shielded as necessary to protect adjacent uses from nuisance lighting.

Sheared white pine screening, or approved substitution, shall be provided around the outside perimeter of the station fence. Provide an eight-foot-wide stone mulch area (six inches thick) with polyethylene wood barrier below starting out from the edge of the pump station pavement.

Provide a source of potable water with a frostproof post hydrant and one inch hose bib connection.

Within the pump station fenced-in area, provide a Woodford Iowa Model Y1 or approved equal freeze-proof post hydrant with one-inch inlet, three-quarter-inch threaded brass hose nozzle, three-quarter-inch galvanized steel pipe outer casing, one-eight-inch drain hole and furnished for four-foot depth of bury. Provide Nidel Model 34HD vacuum breaker-backflow preventer. Provide minimum one cubic yard of three-quarter-inch washed gravel below hydrant for drainage purposes.

Provide 50 feet of three-quarter-inch heavy-duty, double layer nylon reinforced rubber water hose. Provide a high-pressure adjustable brass nozzle with adjustable spray pattern and removable barrel to fit the hose. Provide a galvanized steel hose rack on a stand located adjacent to the post hydrant. Stand shall be three feet high by two-inch diameter Schedule 40 stainless steel pipe with pipe cap. Set pipe two feet deep with twelve-inch diameter by two feet deep concrete footing. Bolt rack to pipe with 2-1/4-20 by three-inch stainless steel carriage bolts with self-locking nuts. Post hydrant, hose rack and stand shall all be painted green. Hydrant and stand to be located out of the motor vehicle traffic area. No connections between fresh water and sewage pumps or pipes shall be permitted.

Pavement to extend six inches beyond fence perimeter. Apply tack coat conforming to NJDOT Standard Specifications Grade RC-70 or RC-T cutback asphalt or Grade SS-1 emulsified asphalt, Section 904.02 or 904.03, over entire stabilized base course.

Extending from the wet well area pavement shall have minimum 0.75% slope towards fence. Finished surfaces shall be free from all roller marks, ridges and voids. Surfaces will not be acceptable if any puddling is possible or if slope is off more than 1/4 inch in 10 feet when tested in any direction.

Provide a fifteen-foot-wide driveway up to the pump station gate. Cantilevered slide gate shall be minimum 12 feet wide. A motor vehicle entering the site shall have the ability to drive to both the wet well and dry well. The access drive shall include a turnaround area.

All bolts, nuts, and washers whether buried, embedded in concrete or exposed above grade shall be stainless steel. All nuts and rods for harnessing shall be bituminous coated.

The pump station property line shall extend to at least 10 feet outside the pump station fence and shall include the access road and turnaround area.

Pump station shall include a bypass pumping valve pit. Valve pit shall be constructed per Township of Riverside standard detail.

Sump pump piping sleeves and wet well joint leakage test. Before putting the pump station into operation, the contractor shall fill the wet well to the top with clean water to demonstrate both the sleeves connecting the wet well and dry well and all the wet well joints are watertight. Water level shall be maintained at top of the wet well slab for one hour by the contractor without the addition of water. Before the test commences, the contractor shall position a sufficient number of pumps to dewater the dry well in the event of a leak. If the test is unsuccessful, the contractor shall make repairs and retest sleeves as many times as is necessary.

All tests shall be conducted in the presence of the Engineer.

All pumping station sites must be provided with a street address on a separate parcel with a distinct lot and block number.

Test gravity sanitary sewer for exfiltration and infiltration.

Perform mandrel test on all gravity sanitary sewer lines.

General requirements:

Procedure for exfiltration test (low pressure air test, 3.5 lbs.):

Procedure for air pressure correction due to groundwater:

General:

Procedure for infiltration test:

General:

Procedure for mandrelling:

General requirements:

Procedure for exfiltration test: