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U2"IP1I0M OF PR TREATMENT SvcTP11 <br /> This system is designed to receive selected waste streams of plating <br /> and cleaning rinses from the metal processing area , at a maximum flow <br /> rate of 40 GPM and remove metals to a level required by federal <br /> pretreatment requirements . Concentrated dumps will be transferred to a <br /> collection/ feed tank and metered into the rinse stream to prevent <br /> overwhelming the system 's treatment capacity . The rinse water will be <br /> directed to a in-ground sump for collection . The collected liquor will <br /> then be pumped to an above ground pre-treatment system for further <br /> processing. <br /> The first stage of the pre-treatment process will include a pH <br /> adjustment system controlled by a panel mounted pH meter connected to a <br /> PH probe in the treatment station . The probe will sense the pH of the <br /> incoming liquor and initiate the flow of lime necessary to maintain a pH <br /> of 8. 0 - 8.5 in the reactor vessel . <br /> The pH adjustment process will precipitate the insoluble metallic <br /> hydroxides and then overflow to the second stage of the treatment <br /> process , flocculation. Flocculation is necessary to coagulate the <br /> precipitated metallic hydroxide to a larger particle for more efficient <br /> settling . This is accomplished by the addition of organic polymer and <br /> slow mixing of the liquid to prevent disassociation of the coagulate once <br /> formed . The polymer feed system will feed a liquid polymer into a water <br /> filled system for mixing and injection into the flocculation reactor. <br /> After coagulation, the liquor will overflow to a clarifier in which <br /> the coagulated particles will settle to the bottom and clear water will <br /> overflow to the sewer. <br /> Sludge collected in the clarifier will be removed by an automatic <br /> sludge withdrawal system operating from two ( 2 ) timers . The first timer <br /> is utilized to control the frequency of sludge removal . The second , <br /> initiated by the first timer, is utilized to control the duration of the <br /> sludge removal process . Duration control is necessary to provide more <br /> efficient sludge removal . <br /> The sludge once removed will be transferred to a thickener in which <br /> it will compress to approximately 5 - 8 x by weight solids . The <br /> thickening of the sludge is necessary for more efficient sludge <br /> dewatering by the filter press. <br /> Sludge dewatering is accomplished by pumping the thickened sludge at <br /> a high pressure through a recessed plate filter press . The sludge will <br /> be retained to form a semi-dry cake approximately 40 - 50 x by weight <br /> solids . The dry cake will be manually removed and transferred to a <br /> holding container for disposal to an approved landfill . <br /> The filter press has 4 cubic foot capacity with an automatic opening <br /> and closing device. This 4 cubic foot dry cake will be collected in a 5 <br /> cubic foot rolling dumpster to transfer the sludge from the press to the <br /> holding container. <br /> All control instruments will have an audible alarm with flashing <br /> lights to signal an out of control condition of high level in the tanks . <br />