The contractor shall continuously maintain adequate protection of all his work from damage during construction. He shall adequately protect adjacent property as provided by law and contract documents. He shall provide and maintain all passageways, guard fences, lights and other facilities required by public authority or local conditions.

Where it is necessary to close a section of state, county or Town highway, the contractor shall erect plainly and properly worded signs which shall be placed with approved barricades, at the nearest cross streets on each end of the obstructed portion and on intersecting streets where traffic may make the easiest and best detour. The contractor shall provide any necessary watchmen at his own expense and maintain red lights and guards from twilight to dawn on all barricades and points of danger to protect traffic from injury.

General. The contractor shall do all excavation of whatever substances to provide for a cover of five feet for the respective pipe size. All excavated materials not required for fill or backfill shall be removed from the site as directed by the Town Engineer.

Rock excavation: shall include removal of boulders larger than 1/3 cubic yard in volume and of ledge rock, concrete or masonry that require drilling or blasting.

Bracing and shoring. The contractor shall do all bracing, sheathing and shoring necessary to perform and protect all excavation as required for safety as directed by the engineer, or to conform to governing laws.

Trenches. Complete backfilling of trenches shall not take place until the engineer has inspected and observed the complete testing of the pipe line between valves.[1]

Trench under roadway and areas to be paved. Material shall be placed in eight-inch maximum layers after filling one foot above pipe as previously described. Each layer shall be compacted to a density equal to that of adjacent material so that pavement can be placed immediately.

All pipe shall be cast in sand-lined molds and conform to ASA specifications A21.8-1953 (or latest revision), thickness Class 22 and be cement-mortar lined in accordance with specifications A21.4-1953 (or latest revision). No pipe or fittings for water works service shall be furnished without outside protective coating. Pipe shall be designed for working pressures up to 350 psi; and tested to 500 psi hydrostatically before shipment by manufacturer.

Type of joint. The types of joint used may be: 1) bell-and-spigot, 2) engineer-approved. The engineer shall approve the type of pipe in advance.

Pipe shall be laid parallel to tangent property line and as located by Chapter 238, Street Standards. Proper and suitable tools and equipment shall be used in handling pipe and special care shall be taken to prevent damage to pipe coating. All pipe lengths shall be carefully examined for defects and no pipe shall be laid which is known to be defective. If any defective pipe should be discovered after being laid, it shall be removed and replaced with sound material.

All pipe shall be thoroughly cleaned immediately before laying and shall be kept clean until accepted in the complete work. Whenever pipe laying is stopped, the end of the pipe shall be securely closed to prevent entrance of water or other obstructions.

Pipe shall be carefully bedded to have uniform support its entire length. All points of rock or other material which tend to injure the pipe coating shall be removed. All pipe must be supported on blocking and wedges to hold it in position as directed by the engineer. After laying, the pipe shall be carefully bedded in earth and tamped into place. All specials and valves shall be carefully supported on blocking as directed by the engineer. Stones or other material tending to injure the coating of the pipe shall not be placed within one foot of same. No frozen earth shall be used in backfilling.

All slugs and bends shall be thoroughly braced with concrete in such a manner as will permit removal if necessary. Concrete braces at plugs shall be square and of side dimension not less than the nominal diameter of the pipe, and shall be securely wedged between the plug and substantial anchorage. At bends, concrete shall be placed between the outside face of the bend and the trench wall. It shall extend from the bottom of the trench to three inches above the center line of bend and shall not be less than two feet wide. Concrete for the above shall be clean rock and silica sand mixed in proportions of one cement, 2 1/2 sand and five stone.

Where it is necessary to cut pipe or specials, the cutting shall be done in such manner as will prevent cracking or breaking of the pipe longitudinally. Roughness of the cross section shall be ground to a smooth, even surface at right angles to the axis of the pipe and shall be satisfactory to the engineer. All rejected pipe shall be removed immediately from the work area.

The contractor shall use care not to damage or interfere with the operation of any gas, sewer, other water mains, electrical or telephone conduits. If any damage results to any main or conduit the contractor must make immediate repairs. The contractor shall ascertain from representatives of the gas company the location of any existing gas mains and shall give the gas, electric and telephone companies 48 hours' notice in advance before uncovering any "active" mains.

Notwithstanding the provisions of § 259-9A requiring ductile iron pipe and fittings, HDPE pipe may be used for water mains when approved by the Town on a case-by-case basis.

All buried HDPE pressurized pipe shall be manufactured in accordance with AWWA C906.

All buried HDPE pressurized pipe and fittings shall be made of polyethylene compounds which conform to the physical requirements of PE 4710 and meet the ASTM D3350 cell classification of 445474C.

All buried HDPE pressurized pipe shall be DR-11 with a pressure rating of 200 psi and have a nominal DIPS (ductile iron pipe size) outside diameter. At the discretion of the Town, DR-9 (pressure rating of 250 psi) may be required.

HDPE pressure pipe for potable water shall meet the requirements of NSF 61.

HDPE piping shall be provided with permanent identification by coextruding identification, such as striping, into the pipe's outer surface. Identification material shall be the same material as the pipe material, except for color (blue). Identification printed or painted on the pipe surface will not be acceptable.

HDPE pipe and fitting joints shall be butt fused by heat fusion in accordance with ASTM D3261 and the manufacturer's recommendations.

HDPE pipe shall provide sufficient length of AWG No. 11 stainless steel tracer wire with 30 mil thick blue HDPE insulation. Tracer wire length shall be such that a continuous piece can be used for each run of pipe. Splices in the tracer wire shall be made with split bolt connectors. Wire nuts or clip-type connectors are not acceptable. A waterproof connection is required to prevent corrosion. Wire shall be terminated above grade at a hydrant or stubbed up inside a valve box to end at an accessible location. Where horizontal directional drilling is the method used for HDPE pipe installation, two separate and independent tracer wires shall be installed side by side.

Water services connected to HDPE mains shall be through the use of electrofusion transition saddles. Electrofusion saddle outlet material shall be Brass 360 Alloy with 304 stainless steel compression ring.

Electrofusion transition saddles must be approved by the Department of Public Works and shall be selected in accordance with the table below. Strap-on saddles will not be allowed.

Stiffeners shall be provided at each MJ adapter and coupling for HDPE pipe.

Stiffening inserts shall be specially designed for use on the inside of HDPE pipe in conjunction with AWWA C111 mechanical joints.

Stiffeners shall provide stainless steel per ASTM 240, type 304 or 316.

Stiffeners shall be manufactured within the pipe or MJ adapter by the factory.

Field-installed stiffeners may be allowed upon prior approval of the Town. Wedge-style stiffeners are allowed.

Inserts must be designed for underground pressurized fluid service and are pressure rated to match the pipe DR pressure rating, derated as appropriate for service temperature. Maximum test pressure limited to pipe rated pressure.

Hydrants shall be ductile iron body, fully bronze mounted, and suitable for a working pressure of 150 pounds per square inch and shall be in accordance with the latest specifications of the American Water Works Association.

Hydrants shall be constructed in a manner permitting withdrawal of internal working parts without disturbing barrel or casing. They shall be provided with sliding frost cases or porous fill around barrel. Valve, when shut, shall be reasonably tight when upper portion of barrel is broken off. Valve opening shall be at least 4 1/2 inches in diameter, with net area of waterway at smallest part, with valves wide open, not less than 120% of valve opening. There shall be no chattering under any condition of operation.

Each hydrant shall be tested to a hydrostatic pressure of 300 pounds per square inch with valve in both open and closed positions.

The direction of opening shall be counterclockwise and cast on head of hydrant.

All hydrants shall have two two-and-one-half-inch hose connections and one five-inch steamer connection, and one six-inch bottom connection to the main, which shall have five feet of earth cover.

Hose nipples shall be bronze or noncorrosive metal and threads shall be "National Standard." Nipple caps shall be securely chained to the barrel.

To prevent freezing, a noncorrosive drip valve must be provided to drain the barrel of the hydrant when the main valve is closed.

Hydrants shall be painted one coat of weather-resistant paint and approved by the engineer. The final coat shall be Sonneborn's Hydrant Enamel or approved equal. The make shall be Eddy Clow T-2640 or approved equal.

Hydrants shall be set on a precast concrete slab 15 inches square and six inches thick. Extra soil shall be excavated around and under the hydrant and this space filled with one inch stone or gravel. The hydrant bottom shall be securely blocked in position to prevent blowing-off the main line.

Gate valves shall be ductile iron body, fully bronze mounted double disc, parallel seat valves with hob or flanged ends. All buried valves shall be nonrising stem type with a two-inch square operating unit and adjustable ductile iron valve boxes and covers suitable for pipe cover of five feet.

Gate valves shall open counterclockwise.

Gate valves shall be Eddy Clow T-6100 or approved equal and shall be suitable for working pressure of 200 pounds per square inch and shall be tested at 400 pounds per square inch.

The contractor shall provide all necessary equipment and shall perform all work required in connection with the tests.

Each section tested shall be slowly filled with water, care being taken to expel all air from the pipes. If necessary, the pipes shall be tapped at high points to vent the air.

The required pressure as measured at the point of lowest elevation shall be applied for not less than 1/2 hour, and all pipe, fittings, valves, hydrants and joints shall be carefully examined for defects. Leaking lead joints shall be removed. Other types of leaky jointing shall be made watertight.[1]

No pipe installation will be accepted unless and until leakage (evaluated on a pressure basis of 150 pounds per square inch) is less than 100 U.S. gallons per 24 hours per inch normal diameter for pipe of twelve-foot lengths, 75 U.S. gallons for sixteen-foot lengths, and correspondingly varied for other lengths of pipe.

Evaluation of the actual leakage to the leakage under the assumed basic pressure of 150 pounds per square inch shall be calculated by the application of the ratio determined by the square root of the respective pressures.

Before being placed in service the entire line shall be chlorinated. Chlorine may be applied by the following methods: liquid chlorine.[1]

The chlorinating agent shall be applied at the beginning of the section adjacent to the feeder connection and shall be injected through a corporation cock, hydrant or other connection insuring treatment of the entire line.

Water shall be fed slowly into new line with chlorine applied in amounts to produce a dosage of 100 parts per million (ppm). Mains previously filled shall be treated to a concentrated dosage at intervals along the line and retained for a period of eight hours or more. A residual of not less than five parts per million (ppm) shall be produced in all parts of the line.[2]

During the chlorination process, all valves and accessories shall be operated.

After chlorination, the water shall be flushed from the line at its extremities until the replacement-water tests are equal, chemically and bacteriologically, to those of the permanent source of supply.[3]