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/112321.2000922.1500903.518021。。UV254、UV350、TOC、。UV254UV35095%96%TOC72%>98%<0.1NTU82%。0.003MPa0.030MPa。TU991A1000-4602201123-0008-05509780682010DFA924602009ZX07424-005StudyonPollutantRemovalEfficiencyofCombinedSystemofHighConcentrationPowderedActivatedCarbonandUltrafiltrationYUMing-mei1YUShui-li12RUANTing3MACong21.StateKeyLaboratoryofPollutionControlandResourcesReuseTongjiUniversityShanghai200092China2.StateKeyLaboratoryofUrbanWaterResourceandEnvironmentHarbinInstituteofTechnologyHarbin150090China3.GuangdongYuegangWaterSupplyCo.Ltd.Shenzhen518021ChinaAbstractThesinglemembranetechnologyisdifficulttoremoveorganicmatterandammoniani-trogeninrawwaterandseveremembranefoulingexists.ThetreatmentefficienciesoftheorganicmatterandammonianitrogenbycombinedsystemofhighconcentrationpowderedactivatedcarbonandUFmem-branewereinvestigated.TheresultsshowthatthecombinedsystemhashigherremovalefficienciesofUV254UV350TOCturbidityandammonianitrogen.Thetotalnumberofbacteriaiszerointheeffluent.DuringthewholeexperimentalstagetheaverageremovalratesofUV254andUV350are95%and96%re-spectivelytheaverageremovalrateofTOCis72%theaverageremovalrateofturbidityis98%ormoreandtheeffluentturbidityisalwayslessthan0.1NTU.Duringthestableoperationstageofthee-quipmenttheaverageremovalrateofammonianitrogenis82%.Duringthewholeexperimentalstagetransmembranepressureischaracterizedbystepwiseincreasefromtheinitial0.003MPatothefinal·8·2723201112CHINAWATER&WASTEWATERVol.27No.23Dec.20110.030MPa.Themembranefoulingiseffectivelyrelieved.Keywordshighconcentrationpowderedactivatedcarbonultrafiltrationmembraneammonianitrogen12。34PAC/UFPAC/UF。5/。6~8Kim640g/L20d。PAC/UF/HCPAC/UF。HCPAC/UF。11.11。75d。15g/L20d。PAC30g/L。180L/h8L/m2·h29∶129min1min。1Fig.1SchematicdiagramofHCPAC/UFset-up1.2、、。1。1Tab.1Rawwaterquality/NTUUV254/cm-1TOC/mg·L-1NH+4-N/mg·L-19~130.15~0.322.0~5.55.0~9.01.3、NH+4-N、NO-2-NNO-3-NTOCUV254UV350TMP。22.12.1.1UV254UV350UV2549UV350。HCPAC/UFUV254UV350·9·.watergasheat.com/2723UV254UV350UV25495%UV35096%。UV254UV350。UV254UV350。2.1.2TOCTOC2。2HCPAC/UFTOCFig.2RemovalefficiencyofTOCinHCPAC/UFcombinedsystem2HCPAC/UFTOC72%。20dTOC67%PAC15g/L20~50TOC80%TOC。50~75TOC70%TOC。UV254UV350。2.1.3HCPAC/UF0.1NTU98%。。。2.1.43NO-2-NNO-3-N4。3HCPAC/UFNH+4-NFig.3RemovalefficiencyofNH+4-NinHCPAC/UFcombinedsystem4HCPAC/UFNO-2-NNO-3-NFig.4VariationofNO-2-NandNO-3-NinHCPAC/UFcombinedsystem20d4%Kim6。2015d35NO-2-NNO-3-N50NO-2-NNO-3-NNO-2-NNO-3-N60~7582%NO-2-NNO-3-N·01·2723.watergasheat.com96%NO-2-NNO-3-N。25%。2.233、40、44、50、62、72。10CFU/mL。5。5Fig.5Variationofbacterianumberinreactorduringstart-upperiod3~5。20d15g/LPACPAC15dNO-2-NNO-2-NNO-2-NNO-3-N。PACPACPAC。2.30.003MPa0.030MPa6。10d20。。6Fig.6VariationofTMPduringstart-upperiod3①HCPAC/UFUV254、UV350TOC95%、96%72%。。②HCPAC/UF。0.1NTU。③HCPAC/UF82%96%。PAC。25%。④HCPAC/UF·11·.watergasheat.com/27230.003MPa0.030MPa。1LaineJMDurand-BourlierLVialD.Ultrafiltrationmembranefull-scaleexperiencestatusafter10yearsofoperationandlarge-scaleplantcapacity100000m3/dayJ.WaterSciTechnolWaterSupply200114265-270.2.J.201068-9.3./J.2010261548-53.4.-J.2005336777-780.5.J.200620315-17.6KimHSKatayamaHTakizawaSetal.DevelopmentofamicrofilterseparationsystemcoupledwithahighdoseofpowderedactivatedcarbonforadvancedwatertreatmentJ.Desalination20051861/3215-226.7./J.2010262113-15.8.—D.2006.9.UV254J.200224261-65.1987-。15921195259E-mailmingmeijiayou@sina.com櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵2011-08-0472.J.2004201018-21.3.J.200526147-50.4./J.2008242452-54.5.J.2003191164-66.6.J.20082982227-2234.7.J.200728122700-2704.8.MBRJ.20082961533-1537.9.J.2011571548-1553.10.J.2007284736-741.11.J.2008294896-901.1987-。E-mailduxu5566@163.com2011-08-10·21·2723.watergasheat.com