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EBARA Submersible Sewage Pumps DLFU <br /> Specifications <br /> the pumpage.The oil filled seal chamber shall be designed to prevent over-filling and include an anti-vortexing <br /> vane to insure proper lubrication of both seal faces. Lower face materials shall be silicon carbide(tungsten carbide <br /> for 150-300 DLF 50&60 HP only), upper faces carbon vs.ceramic, NBR elastomers, and 304SS hardware. Seal <br /> system shall not rely on pumping medium for lubrication. <br /> E. Motor Construction: <br /> The pump motor shall be an air filled induction type with a squirrel cage rotor,shell type design, built to NEMA MG-1, <br /> Design B specifications. Stator windings shall be copper, insulated with moisture resistant Class H insulation, rated <br /> for 356 F.The stator shall be dipped and baked three times in Class H varnish and heat shrunk fitted into the stator <br /> housing. Rotor bars and short circuit rings shall be manufactured of cast aluminum. Motor shaft shall be one piece <br /> AIS1403 for 2 to 5 HP,AIS1420 for 71h to 60 HP, rotating on two permanently lubricated ball bearings designed for a <br /> minimum B-10 life of 60,000 hours. Motor service factor shall be 1.15 and capable of up to 20 starts per hour.The <br /> motor shall be designed for continuous duty pumping at a maximum sump temperature of 104°F.Voltage and <br /> frequency tolerances shall be a maximum 10/5% respectively. Motor over temperature protection shall be provided <br /> by miniature thermal protectors embedded in the windings. Mechanical seal failure protection shall be provided by a <br /> mechanical float switch located in a chamber above the seal.This switch shall be comprised of a magnetic float that <br /> actuates a dry reed switch encapsulate6 within the stem. Should the mechanical seal fail, liquid shall be directed <br /> into the float chamber, in which the rising liquid activates the switch opening the normally closed circuit. For units 2 <br /> to 30 HP the float body and float shall be a polypropylene material with a 316SS stopper. Units 40 HP and greater, <br /> the float switch components shall be 304SS.The motor shall be non-overloading over the entire specified range of <br /> operation and be able to operate at full load intermittently while unsubmerged without damage to the unit. <br /> Power cable jacket shall be manufactured of an oil resistant chloroprene rubber material, designed for submerged <br /> applications. Cable shall be watertight to a depth of a least 65'.The cable entry system shall comprise of primary, <br /> secondary, and tertiary sealing methods.The primary seal shall be achieved by a cylindrical elastomeric grommet <br /> compressed between the motor cover and a 304SS washer. Secondary sealing is accomplished with a compressed <br /> 0-ring made of NBR material. Compression and subsequent sealing shall preclude specific torque requirements.The <br /> system shall also include tertiary sealing to prevent leakage into the motor housing due to capillary action through the <br /> insulation if the cable is damaged or cuts:The cable wires shall be cut,stripped, re-connected with a copper butt end <br /> connector,and embedded in epoxy within the cable gland.This provides a dead end for leakage through the cable <br /> insulation into the motor junction area.The cable entry system shall be the same for both the power and control cables. <br /> F. Guide Rail system: <br /> Design shall include two(2)304SS schedule 40 guide rails sized to mount directly to the quick discharge connector, <br /> QDC, at the floor of the wetwell and to a guide rail bracket at the top of the wetwell below the hatch opening, (refer <br /> to project drawings). Intermediate gu ide i brackets are recommended for rail lengths over 15 feet. <br /> Guide rails are not part of the pump package and shall be supplied by others. <br /> The QDC shall be manufactured of cast'iron,ASTM A48 Class 30. It shall be designed to adequately support the <br /> guide rails, discharge piping, and pumping unit under both static and dynamic loading conditions with support legs <br /> that are suitable for anchoring it to the wetwell floor.The face of the inlet QDC flange shall be perpendicular to the <br /> floor of the wetwell.The discharge flange of the QDC shall conform to ANSI 1316.1 Class 125. <br /> The pump design shall include an integral self-aligning sliding bracket. Sealing of the pumping unit to the QDC shall <br /> be accomplished by a single, linear, downward motion of the pump.The entire weight of the pump unit shall be guided <br /> to and wedged tightly against the inlet flange of the QDC, making metal to metal contact with the pump discharge <br /> forming a seal without the use of bolts, gaskets or 0-rings. <br /> A stainless steel lifting chain of adequate'length for removing and installing the pump unit is recommended.The chain <br /> shall have a round link with a 2-1/4" inside diameter every two feet.This link will allow for a sliding pinch bar through <br /> the link to pick the chain, more than once if necessary, at multiple intervals during pump removal and installation. <br /> EBARA Fluid Handling <br /> www.pumpsebara.com 2-161 <br /> EBARA (t)803 327 5005 - (�803 327 5097 rev.10/11 <br />