废水处理中污泥减量技术现状及发展趋势

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。201440001.50×108m3/d80%3500。、。。、、、。。。1ATP、ATPATP。。、、[1-2]。。1.1H+ATP。。2,4-DNP、3,3',4',5-TCS、2,4,5-TCP、PCP、pNP、。Low49%25%[3]。[4]81。MayhewTCSDNPpNPTCRmNP/%61.1346.6042.8060.0889.1683.7778.4071.73/%TCSmCPDCPoCP18Tab.1Sludgereductionefficiencyof8uncouplingagents11211.1500222.150090。、、。--;X703A1000-3770(2015)01-0001-0042014-04-21“”2012BAD14B06-0451408200514781401251308812541701Q201202011980-lilixin1980@126.commafang@hit.edu.cn41120151TECHNOLOGYOFWATERTREATMENTVol.41No.1Jan.,201510.4mg/LTCS0.8~1.0mg/L40%COD[5]。。COD。1.2S0/X0S0/X0/ATPATP。[6]1S0/X02S0/X0。S0/X0S0/X08S0/X00.01~0.13S0/X0[2]。1.3--OSA--OSACASATPATP[6]。OSA1。Chudoba[7]CAS20%~65%。CODP[8-9]。OSA。OSA、。OSA[710]OSA[8]。[11]7.15%。[12]SBROSA2。2。2[6]。。、。2.12。、、。[13-14]。。1/3CO2、NO3-、H2O[15-16]。。1“”[17-18]。[19]。。、。、1OSAFig.1ProcessflowdiagramofOSA 4112。2.2、。5000K、50MPa。、[20]。1991Harrison40k[21]。UweNeis[22]41kHz。[23]。[24]SBR35kHz、0.3W/cm210%10min12%COD5%。[25]1W/mLSBR2/345.64%。、、[26]。、。13.6mg/(L·d)95.81%COD、GB18918-2002[27]。90[28]。。。3。、。。。[29]。。。[30]。4。OSA。S0/X0。、。。、。。5。“”“”。[1]ChenGH,MoHK.Minimizationofactivatedsludgeproduction3bychemicallystimulatedenergyspilling[J].WaterSciTechnol.,2000,42(12):189-200.[2]LiuY.Effectofchemicaluncouplerontheobservedgrowthyieldinbatchcultureofactivatedsludge[J].WaterRes.,2000,34(7):2025-2030[3]LowEW,ChaseHA,MilnerMG,etal.Uncouplingofmeta-bolismtoreducebiomassproductionintheactivatedsludgeprocess[J].WaterRes.,2000,34(12):3204-3212.[4],.[J].,2006,19(4):115-118.[5]MayhewM,StephensonT.Biomassyieldreduction:isbiochemicalmanipulationpossiblewithoutaffectingactivatedsludgeprocessefficiency[J].WaterSciTechnol.,1998,38(8-9):137-144.[6],,,.[J].,2009,25(8):1-7.[7]ChudobaP,MorelA,CapdevilleB.ThecaseofbothenergeticuncouplingandmetabolicselectionofmicroorganismsintheOSAactivatedsludgesystem[J].EnvironTechnol.,1992,13(8):761-770.[8]SabyS,DjaferM,ChenGH.EffectoflowORPinanoxicsludgezoneonexcesssludgeproductioninoxic-settling-anoxicactivatedsludgeprocess[J].WaterRes.,2003,37(1):11-20.[9]AnKJ,ChenGH.Chemicaloxygendemandandthemechanismofexcesssludgereductioninanoxic-settling-anaerobicactivatedsludgeprocess[J].JEnvironEng.,2008134(6):469-477.]10]ChudobaP,ChudobaJ,CapdevilleB.Theaspectofenergeticuncouplingofmicrobialgrowthintheactivatedsludgeprocess:OSAsystem[J].WaterSciTechnol.,1992,26(9-10):2477-2480.[11],,.--[J].,2008,29(3):726-732.[12],,,.SBR/OSA[J].,2011,27(5):104-108.[13]ScheminskeA,KrullR,HempelDC.Oxidativetreatmentofdigestedsewagesludgewithozone[J].WaterSciTechnol.,2000,42(9):151-158.[14],.[M].:,2005.[15]AhnKH,ParkKY,MaengSK,eta1.Ozonationofwastewatersludgeforreductionandrecycling[J].WaterSciTechnol.,2002,46(10):71-77.[16]KamiyaT,HirotsujiJ.Newcombinedsystemofbiologicalprocessandintermittentozonationforadvancedwastewatertreatment[J].WaterSciTechnol.,1998,38(8-9):145-153.[17],,,.[J].,2003,4(1):44-52.[18],.[J].,2001,17(7):23-26.[19],,.[J].,2010,23(3):6-9.[20],,,.[J].,2007,34(5):40-42.[21]HarrisonSTL.Bacterialcelldisruption:akeyunitoperationintherecoveryofintracellularproducts[J].BiotechAdv.,1991,9(2):217-2400.[22]UweNeis.Ultrasoundinwater,wastewaterandsludgetreatment[J].Water,2000,21(2.2):36-39.[23]TiehmA,NickleK,UweNeis.Ultrasonicwasteactivatedsludgedisintegrationforimprovinganaerobicstabilization[J].WatRes.,2001,35(8):2003-2009.[24],.[J].,2006,27(5):898-902.[25],,,.SBR[J].,2012,6(6):2077-2081.[26],,.[J].,2007,29(3):91-94.[27],,,.[J].,2011,27(1):58-60.[28]VaxelaireS,GonzeE,MerlinG,etal.Reductionbysonicationofexcesssludgeproductioninaconventionalactivatedsludgesystem:Continuousflowandlab-scalereactor[J].EnvironTechnol.,2008,29(12):1307-1320[29],,,.[J].,2005,31(11):107-111.[30],,,.[J].,2011,36(10):98-102.STATUSANDDEVELOPMENTTRENDOFSLUDGEREDUCTIONTECHNOLOGIESINWASTEWATERTREATMENTLiLixin1,ZhaoQianshen1,MaFang2,PanPengzhi1(1.SchoolofEnvironmentandChemicalEngineering,HeilongjiangUniversityofScienceandTechnology,150022;2.StateKeyLabofUrbanResourceandEnvironment,HarbinInstituteofTechnology,150090:Harbin,China)Abstract:Withtherapidincreaseofwastewatertreatmentcapacity,theproblemofexcesssludgetreatmentisincreasinglyseriousforsewagetreatmentplants.Thesludgereductiontechnologyisoneofthebestwaystosolvetheexcesssludgeproblematpresent.Currentresearchandapplicationstatusofthetechnologiesinwastewatertreatmentprocesseswithsludgereductionwereexpoundedintermsofuncoupling,crypticgrowthandmicrofaunaprey.Theprinciplesandcharacteristicsofthesetechnologiesandprocesseswerereviewed,andtheirresearchdevelopmenttrendandapplicationprospectwerepresented.Keywords:sludgereduction;uncoupling;oxic-settling-anaerobicprocess;crypticgrowth;microfaunaprey4114

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