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UASBCMC,,(, 200092):(UASB),(CMC),UASB、.,,CMC,80d,UASB;COD4000mgL,6.86kg(m3·d),COD80%;,.:UASB;CMC;;:X783.5 :A :0250-3301(2009)11-3324-05:2008-12-23;:2009-03-06:(2006BAJA09):(1964~),,,,,E-mail:lutingpan@sohu.comCharacteristicsofStart-upPeriodinUASBReactorforTreatingCMCWastewaterPANLu-ting,WANGJian,LUOHua-fei(StateKeyLaboratoryofPollutionControlandResourceReuse,TongjiUniversity,Shanghai200092,China)Abstract:Thestart-up,thecharacteristicsofgranularsludgeandthetreatmenteffectofanupflowanaerobicsludgeblanket(UASB)reactorundermid-temperaturewerestudiedwithhighconcentrationcarboxymethylcellulose(CMC)wastewaterastreatingobject.Experimentresultsshowedthatitspent80daystostartupUASBbygraduallyincreasingtheinfluentCMCconcentration,andtheseedsludgewasthemixtureoftheinoculumgranularsludgeandthedigestionsludge.TheremovalrateofCODcouldreachabove80%whenthevalueofinfluentCODconcentrationwas4000mgLandtheorganicloadingwas6.86kg(m3·d),respectively;granularsludgehasbeenobtainedinthereactor,andthespecificmethanogenicactivityofthegranularsludgewaswell.Keywords:upflowanaerobicsludgeblanket(UASB);carboxymethylcellulose(CMC);wastewater;anaerobicgranularsludge (CMC)、、、、、、、、、、[1~5];,COD20000mgL,,,[6].(UASB)[7~10],CMC.UASB、[11~14].UASBCMC,、,UASBCMC.1 1.1 ,、、;,,pH4~5,COD16000~25000mgL,()4%~5%.,[15],COD12000mgL,UASB.1.2 UASB,50mm,120mm(),500mm.,100mm,300mm.2.57L,1.4L.1.1.3 1.3.1 UASBUSAB35℃[16,17].,(1∶3),40%,VSS7.2gL.,,CMCCOD(1),CMC;pH7.2,1000mgL.3011200911 ENVIRONMENTALSCIENCEVol.30,No.11Nov.,2009DOI:10.13227/j.hjkx.2009.11.0381 UASBFig.1 SchematicdiagramofUASBequipment 1 UASBCODTable1 ChangesofinfluentCODconcentrationduringUASBacclimationprocessdCODmg·L-1CODmg·L-1CMCCODmg·L-11~81000100009~222000150050023~3830002000100039~5035002000150051~6035001000250061~804000040001.3.2 UASB,(SEM);60d80d.1.3.3 ,UASB,.5,、、、、CMC.COD3500mgL,、UASB,1.54gL,pH7.2,37℃,250mL.1.4 COD、pH、(VSS)[18];;[19].2 2.1 UASB80d,COD、COD、COD、、23.2 、CODFig.2 ChangesofCODconcentrationandremovalefficiencyoftheinfluentandeffluentatdifferenttime 3 HRTVLRFig.3 ChangesofHRTandVLRatdifferenttime ,.0.047Lh,COD0.67kg(m3·d),0.02m3(m2·h),8d,,COD80%.9d,,CMC,,1.6kg(m3·d),UASB,COD,14dCOD80%,CMC;,.23d,CMC,,3kg(m3·d),COD,CMC,CMC332511:UASBCMC;30d,,,0.1~0.3mm.39dCMC,4.67kg(m3·d),COD;51d,,CMC,COD3500mgL,,COD;,.61d,CMC,COD4000mgL,6.86kg(m3·d);COD80%,,;80d,.2.2 2.2.1 (1~29d),4,,,.,,(5),.4 Fig.4 Flocculentsludge 2.2.2 (30~60d)30d,UASB,,,;,、.,,;,,60d.2.2.3 (60~80d)5 Fig.5 Fragmentsofgranularsludge ,[6(a)],,[6(b)],;1mm,,UASB7mm,,5mm;,1.06gcm3,21~22mh,.6(c),.2.2.4 60、80d,UASB,.7,60d,,,0.8mm63%.,,,80d,0.8mm61%.2.3 8,,CMC.,(1gVSS1d)136mL,33mL,40mL,CMC29mL;119mL,CMC17mL.,,;CMC3326 306 Fig.6 Granularsludge ,,CMC.CMC,,12%,CMC41%.,CMC,.7 60、80dFig.7 Sizedistributionofgranularsludgeinthesixtiethdayandtheeightiethday 8 Fig.8 Methaneproductionofeachsubstrate 3 [20~22],UASB,:(1),.,(ECP),. (2).,,,.CMC,332711:UASBCMC,,,,.(3),、,,..,()[23~25],.,,;.,,,,ECP,,.4 (1),CMC,80d;COD4000mgL,6.86kg(m3·d),COD80%,.(2),,1mm,;,.(3);CMC.:[1] ,.[J].,2008,6(7):40-43.[2] ,,.[J].,2005,34(4):50-52.[3] ,,.[J].,2008,44(10):56-58.[4] ChengLH,KarimAA,SeowCC.Characterisationofcompositefilmsmadeofkonjacglucomannan(KGM),carboxymethylcellulose(CMC)andlipid[J].FoodChem,2008,107(1):411-418.[5] DolzM,JiménezJ,HernándezMJ,etal.Flowandthixotropyofnon-contaminatingoildrillingfluidsformulatedwithbentoniteandsodiumcarboxymethylcellulose[J].JPetSciEng,2007,57(3-4):294-302.[6] ,.[J].,2000,30(4):25-29.[7] MajumderPS,GuptaSK.Degradationof4-chlorophenolinUASBreactorundermethanogenicconditions[J].BioresourTechnol,2008,99(10):4169-4177.[8] TawfikaA,SobheybM,BadawyaM.Treatmentofacombineddairyanddomesticwastewaterinanup-flowanaerobicsludgeblanket(UASB)reactorfollowedbyactivatedsludge(ASsystem)[J].Desalination,2008,227(1-3):167-177.[9] SubramanyamR,MishraIM.Co-degradationofresorcinolandcatecholinanUASBreactor[J].BioresourTechnol,2008,99(10):4147-4157.[10] OktemYA,InceO,SallisP,etal.Anaerobictreatmentofachemicalsynthesis-basedpharmaceuticalwastewaterinahybridupflowanaerobicsludgeblanketreactor[J].BioresourTechnol,2008,99(5):1089-1096.[11] ,,,.UASB[J].,2007,23(3):53-56.[12] ,,,.UASB[J].,2007,1(8):62-65.[13] SponzaDT.Enhancementofgranuleformationandsludgeretainmentfortetrachloroethylene(TCE)removalinanupflowanaerobicsludgeblanket(UASB)reactor[J].AdvancesEnvironRes,2003,7(2):453-462.[14] ShowKY,WangY,FoongSF,etal.Acceleratedstart-upandenhancedgranulationinupflowanaerobicsludgeblanketreactors[J].WatRes,2004,38(9):2293-2304.[15] ,,.[J].,2007,38(6):28-30.[16] ,,,.UASB[J].,2005,31(7):66-79.[17] MahmoudN.HighstrengthsewagetreatmentinaUASBreactorandanintegratedUASB-digestersystem[J].BioresourTechnol,2008,99(16):7531-7538.[18] .[M].().:,2006.[19] .[M].:,2002.[20] LiuY,XuHL,YangSF,etal.Mechanismsandmodelsforanaerobicgranulationinupflowanaerobicsludgeblanketreactor[J].WaterRes,2003,37(4):661-673.[21] HulshoffPolLW,DeCastroLopesSI,LettingaG.Anaerobicsludgegranulation[J].WaterRes,2004,38(6):1376-1389.[22] SheZL,ZhengXL,YangBR,etal.Granuledevelopmentandperfor
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本文标题:UASB反应器处理CMC废水的启动特性研究潘碌亭
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