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■ A. The pumps shall be totally submersible, non -clog, centrifugal pumps with close -coupled <br />motors designed to pump sewage. The pumps shall be capable of passing a minimum 3- inch <br />diameter spherical solid. The motor shall be an integral part of the pumping unit. The design <br />shall be such that the pumping units shall be automatically connected to the discharge piping <br />when lowered into place on the discharge connection. The pumps shall be easily removable <br />for inspection or service, requiring no bolts, nuts or other fastenings to be removed for this <br />purpose, or need for personnel to enter the wet well. <br />B. At the rated m eacn um 111X uim onaiivav� �+.� • •" ••-_ _ ____- <br />FLOW - mm Total —H —ea—d (ft.) <br />0 36 <br />80 32 <br />190 26 <br />The pumps shall be as manufactured by "ABS", model AFP 1040, with 177 mm impeller, or <br />approved equal. <br />Co Pump Construction - The pump shall be of the centrifugal type with a solids handling, single <br />vane, dynamically balanced, shearing type impeller. The common pump and motor shaft shall <br />be series 400 stainless steel. The shaft and rotor assembly shall be supported by two ball <br />act ball <br />bearings; the lower ball bearing shall be a heavy duty, double row, angular <br />bearings. Each pump shall be provided with a tandem double mechanical seal running in an <br />oil reservoir, composed of two separate lapped face seals, each consisting of one stationary <br />and one rotating tungsten -carbide or silicon carbide ring with each pair held in contact by a <br />separate spring, so that the outside pressure assists spring compression in preventing the seal <br />faces from opening. The compression spring shall be protected against exposure to the <br />pumped liquid. The pumped liquid shall be sealed from the oil reservoir by one face seal and <br />sealed from the oil reservoir from the motor chamber by the other. The seals shall require <br />neither maintenance nor adjustment, and shall be easily replaced. Conventional double <br />mechanical seals with a single spring between the rotating faces, requiring constant <br />differential pressure to effect sealing and subject to opening and penetration by pumping <br />forces, shall not be considered equal to tandem seal specified and required.The impeller shall <br />be constructed of nodular iron SP. All other parts shall be of close grain gray iron <br />construction, with all parts coming into contact with sewage protected by a coat of rubber - <br />asphalt paint. All external bolts and nuts shall be of stainless steel. <br />D. Pump Identification - Stainless steel nameplates giving the name of the manufacturer, head, <br />speed, and all other pertinent data shall be attached to each pump and motor. <br />2.03 PUMP MOTORS AND CABLES <br />A. Pump motors shall be of the submersible type, housed in an air-filled, watertight casing. <br />Motors shall be a NEMA Design B. Insulation shall be moisture -resistant NEMA Class F <br />with a maximum temperature rise of 90 degrees Celsius above ambient temperature (40 <br />degrees Celsius). The motor shall be rated for a maximum of 3.0 Hp at 1780 RPM, connected <br />for operation at 230 volt, 60 hertz, 3-phase service. The motor shall be non -overloading along <br />the entire operation of the published pump curve. The full load current shall not exceed 10.0 <br />amps at 230 volts, 3 phase, electric service. Pump motors shall have cooling characteristics <br />suitable to permit continuous operation, in a totally, partially or nonsubmerged condition. <br />Each motor shall incorporate an ambient temperature compensated overheat sensing device <br />and a moisture sending device wired in series. The protective devices shall be wired into the <br />02539 — Submersible Pump Station (Rev.) <br />02539-4 <br />