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StudyonthecharacteristicofdenitrifyingphosphorusremovedsludgeatdifferenttemperaturesSongWuchang1,WenChenglin1,LiuJianguang2(1.JinanWaterandWastewaterMonitoringCentre,Jinan250033,China;2.SchoolofMunicipal&EnvironmentalEngineering,ShandongJianZhuUniversity,Jinan250101,China)1,1,2(1.,250033;2.,250101)[](15℃)(25℃),SBR。,(DPB);2.3%~3.7%1.6%~2.1%;DPBPAOs(RDPB)77%51%;VSS/SS76%~88.6%74%~85.3%。DPB。DPB,。[];;[]X703[]A[]1005-829X(2009)08-0022-04Abstract:Systematicalanalysisbyusingsequencingbatchreactors(SBR)hasbeenmadeonthecharacteristicsofdenitrifyingphosphorusremovedsludgeatnormalandlowtemperatures(25℃and15℃).TheresultsindicatethattheDPBsludgehasbettersettlementcapacityatbothnormalandlowtemperatures.Thetotalphosphorusis2.3%-3.7%and1.6%-2.1%respectively.TheratioofDPBtoPAOs(RDPB)is77%and51%.VSS/SSis76%-88.6%and74%-85.3%,respectively.Therearesomeprotozoa,suchasvorticellaandabitofphilodina,intheDPBsludgeatlowtemperature.Itispossibletoincreasethephosphorusremovalratebyincreasingtheconcentrationofsludgeandprolongingthereactiontime.Keywords:denitrifyingphosphorusremovalsludge;characteristicofsludge;phosphorus-containingratioC/NC/P,。〔1〕,。,,,,。,,,。(DPB),O2,〔2-3〕。,(COD)(PAOs)SRT〔4〕。(13~15℃)DPB,(25℃)DPB,。11.1SBR,,D300mm,20L。60r/min,,,[](ts200640025)29820098IndustrialWaterTreatmentVol.29No.8Aug.,200922——2009-08,29(8)2009-08,29(8)DO2~3mg/L。SBR,,,1。1.2,NH4HCO3、KH2PO4、K2HPO4。,,HClNaOHpH,100g/L。1。,SS4500mg/L,VSS3000mg/L,VSS/SS0.667,SV50%,SVI110mL/g。1.32。22.1DPB2.1.1(SVI)。DPB2〔(16×4)〕3〔(10×10)〕。23,DPB,。SVI50~60mL/g。,DPB。2.1.2〔7〕DPB。,DPB。DPB2.3%~3.7%,DPB1.6%~2.1%,。,DPB11,,PAOsDPB;(13~15℃),DPB,〔8〕18~37℃。2.1.3DPB/PAOsJ.Meinhold〔9-10〕。,。J.P.Kerrn-Jespersen〔11〕2:,,,1COD/(mg·L-1)NH4+-N/(mg·L-1)PO43--P/(mg·L-1)pH200~40010~2010~157.0~7.52pHpHDO/TCODCr〔5〕PO43--P〔5〕NO3--N〔6〕MLSS/VSSSV3030minSVI(SV30/SS)2DPB3DPB34896752111—;2—;3—;4—;5—;6—SBR;7—;8—;9—;10—;11—。11,:1023——2009-08,29(8)2009-08,29(8)。DPB〔12〕,(1)DPBPAOs。RDPB=qan/qae(1):RDPB———DPBPAOs,%;qan———DPB,mg/h;qae———PAOs,mg/h。DPB,RDPB4、5。45,DPB17.9mg/h,13.9mg/h;DPB10.8mg/h,5.4mg/h。DPB、,,,、〔13〕。RDPB,77%;RDPB,,51%。2.1.4DPBVSS/SS,、DPBVSS/SS76%~88.6%、74%~85.3%。,,DPB,。2.2DPBDPB,,67。DPB,,。DPB,,,,。3(1)DPB,DPB。(2)DPB、RDPBVSS/SS。,DPB,。(3)DPB、,、。[][1],.[J].,2000,26(12):1-4.[2]LeeDS,JeonCO,ParkJM.Biologicalnitrogenremovalwithenhancedphosphateuptakeinasequencingbatchreactorusingsinglesludgesystem[J].Wat.Res.,2001,35(16):3968-3976.2015105050100150/(mg·L-1)RDPB100806040200RDPB/%/(mg·h-1)4RDPB6(10×40)7(10×40)12108642050100150RDPB100806040200RDPB/%/(mg·h-1)5RDPB/(mg·L-1)24———————————————————————————————————————————————[3]AhnJ,DaidouT,TsunedaS,etal.Characterizationofdenitrify-ingphosphate-accumulatingorganismscultivatedunderdifferentelectronacceptorconditionsusingpolymerasechainreaction-dena-turinggradientgelelectrophoresisassay[J].Wat.Res.,2002,36(2):403-412.[4]KubaT,vanLoosdrechtMCM,HeijinenJJ.Phosphorusandni-trogenremovalwithminimalCODrequirementbyintegrationofdenitrifyingdephosphatationandnitrificationinatwo-sludgesys-tem[J].Wat.Res.,1996,30(7):1702-1710.[5].[M].4.:,2002:211-248.[6]GB/T5750.5—2006———[S].:,2007:80-81.[7].[J].,2006,22(2):85-86.[8],,.CODSBR[J].,2005,5(6):30-33.[9]MeinholdJ,FilipeCDM,DaiggerGT,etal.Characterizationofthedenitrifyingfractionofphosphateaccumulatingorganismsinbiologicalphosphateremoval[J].Wat.Sci.Technol.,1999,39(1):31-42.[10]WachtmeisterA,KubaT,vanLoosdrechtMCM,etal.Asludgecharacterizationforaerobicanddenitrifyingphosphorusremovingsludge[J].Wat.Res.,1997,31(3):471-478.[11]Kerrn-JespersenJP,HenzeM.Biologicalphosphorusuptakeun-deranoxicandaerobiccondition[J].Wat.Res.,1993,27(4):617-624.[12]ZengRJ,SaundersAM,YuanZ,etal.Identificationandcomparisonofaerobicandpolyphosphate-accumulatingorganisms[J].Biotech.Bioeng.,2003,83(2):140-148.[13],,,.ORP[J].,2004,25(4):54-58.[](1981—),20087,,,:0531-88965077,13791053770,E-mail:songwuchang@163.com。[]2009-04-20()StudyontheadvancedtreatmentofprintinganddyeingwastewaterbyphotocatalyticoxidationmethodSunGuangyin,SongJina,ZhangJuan(SchoolofUrbanConstruction,HebeiUniversityofEngineering,Handan056038,China)TiO2,,(,056038)[],,CODH2O2、pH。[];;[]X703.1[]B[]1005-829X(2009)08-0025-03Abstract:Themechanismofphotocatalyticoxidationusedfortreatingprintinganddyeingwastewaterisanalyzed.ThelawsoftheremovalratesofCODandchromaticitychangingwithreactiontimeareanalyzed,andatthesametime,theinfluenceofH2O2dosage,pHofthewastewaterandotherfactorsarediscussed.Keywords:photocatalyticoxidation;printinganddyeingwastewater;advancedtreatment2070,A.Fujishima〔1〕TiO2,。〔2-5〕,。,[](0825401107)29820098IndustrialWaterTreatmentVol.29No.8Aug.,200925——