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40120192Vol.40,No.1Feb.2019:2095-3046(2019)01-0046-08DOI:10.13265/j.cnki.jxlgdxxb.2019.01.009:2018-06-23:(51868025);(20181BAB206038);(YC2017-S309):(1994-),,,,E-mail:474096947@qq.com.:(1979-),,,,,E-mail:zyc@mail.jxust.cn.NO3--NO2“”,C/N、C/P.(NO3-→NO2-→N2)(NH4+→NO2-→NO3-)NO2--N,(NH4+→NO2-)NO2--N,.,,,(,341000):,.,、、、、pH,、、,.:;;;:X703.1:AAnalysisofinfluentialfactorsofpartialdenitrifyingdephosphatationZHANGZhang,ZHUYichun,WANGJiaqi,LIANJunfeng(ResearchCenterforWaterQualitySecurityTechnologyatGanjiangRiverBasin,JiangxiUniversityofScienceandTechnology,Ganzhou341000,China)Abstract:Partialdenitrifyingdephosphatationisanewtypeofenhancedbiologicalphosphorusremovalprocessthatusesnitriteasanelectronacceptortocompleteanoxicphosphorusuptake.Ithasastrongeffectonremovingnitrogenandphosphorusfromlow-carbonsourcewastewater.Theprincipleofpartialdenitrifyingdephosphatationisintroducedandtheeffectsofvariousfactorssuchasinfluentcarbonsource,nitrite,freenitrousacid,temperature,pH,andoperationmodeonpartialdenitrifyingdephosphatationarereviewed.Itisconsideredthattheinfluentcarbonsourceandtemperatureonpartialdenitrifyingdephosphatationaresimilartoordinaryenhancedbiologicalphosphorusremoval;thedomesticationofsludgeinpartialdenitrifyingdephosphatationcaneffectivelyimprovethetoleranceofnitritepoisoning.Thedenitrificationeffectofthedoublesludgecontinuousreactorinthepartialdenitrifyingdephosphatationispoor.Suggestionsforengineeringapplicationofpartialdenitrifyingdephosphatationarealsoproposed.Keywords:partialdenitrificationdephosphatation;influentcarbonsource;nitrite;operationmode:,,,.[J].,2019,40(1):46-53.,:NO3--NNO3--N,40%,NO3--NNO3--NNO2--N,,.,,、、、、pH,.1(EBPR)(PAO),PAO“CandidatusAccumulibacter”[1].“CandidatusAccumulibacter”1(ppk1)16sRNA“CandidatusAccumulibacter”2,PAOPAO[2-3].PAONO3--N,PAONO2--NO2[4-5],PAO,PAO.Zeng[6],PAO.Wang[7]SBRPAOPAO72%.NO2--NPAO(NDPAO,NitrosationDenitrifyingPhosphorusAccumulatingOrganisms).NDPAO1.,(ATP),(H+),(VFA)(H+)[8].VFAATPA,A(NADH++H+)(PHA).,PHAA(TCA)ATPNADH++H+,ATP,NO2--NNADH++H+N2ON2.22.1,(GAO).PAOVFA,GAO,GAO,GAO[9-10].VFA,VFA(、)PAO[11-12].NDPAOPAO,,PHA,.Du[13]A2N-MBR、、,,2.6mg/L,、0.5mg/L,,3.38mgP/(gMLSS·h)7.3mgP/(gMLSS·h).[14]NDPAO4,、、、1VFAVFAH+PiPoly-pATP(a)ATPH+PiNADH++H+PHAACO2PHAH+Poly-pATPATPH+PiNADH++H+TCAANO2-(b)N2O+N2401471NDPAONDPAO,.NDPAOPHA,(PHB)[15],(PHV)[16].PHB[17-18],PHV[19-20],PHVGAO[21],NDPAO,.NDPAO,Lu[22]2(SRT)PAO90%,GAO.,.NDPAOPAO,NO2--NO2,PHA.PHA,PHA,C/P.C/P,,GAOPAO.[23]C/P25∶110∶1,PAO76.42%10.40%,GAO16.36%34.25%,C/P10∶1,0;C/P,,.[24],COD200mg/L,COD,.,NDPAONO2--N,[25].GAO,C/P[26],.2.2NO2--NNO2--N,NO2--N,.N/P,N/P,NO2--N,,NDPAO,“”[27],.[28]N/P1.7~3.0SBR-,N/P2.290%,N/P1.775%.NO2--N,NO2--N,Monod[29].NO2--N,NO2--N,NDPAO,[30-31],、,“”[32],NO2--N1.1,NO2--N,,/PAONO2--N.DPAONO2--N,NO2--NPAO,NO2--N/NO2--N,NO2--N.Zhang[39]50mg/LNO2--NPAO,34d.NO2--N,NO2--N.Zeng[6,40,41]NO2--N/(NO2--Nmg·L-1)/(NO2--Nmg·L-1)/(NO2--Nmg·L-1)EBPR4~8020[33]EBPR2~181016[34]EBPR5~2010[35]UNITANK10~3010[36]DPAO10~402540[32]DPAO0~4020[37]NO2--N40d5~50535[30]NO2--N180d5~10015100[31]NDPAO30~806580[38]2019248PAOC,NO2--NPAOD,DNO2--N[42-43].NO2--NNDPAO,.NO2--N,NO2--N,NO2--N,,Ma[44]15mg/LNO2--N,72.63mgN/gMLSS·h1.57mgP/gMLSS·h12.73mgN/gMLSS·h18.75mgP/gMLSS·h.2.3FNA、pHNO2--N(FNA),FNA,.Zhou[45]FNAEBPR,0.002~0.02mgHNO2-N/L,FNA0.02mgHNO2-N/L.FNA:FNA((HNO2/mg/L))=[NO2--N]Kb/Kw×10pH(1)(1):Kb/Kw=exp[-2300/(273+t)],t,Kb,Kw.FNA:①FNAATP.FNA,,ATP[46-47].FNAATP,ATP.Zhou[48]FNA,ATP,FNA.②FNA.Wang[49]FNAN2O,N2O,.③FNAPHA.Zeng[40]FNA6.85×10-3mgHNO2-N/L,PHA,FNA36%,3.57%,PHAFNA.FNANO2--N,pH.(1)FNA,(5~40℃),NO2--NpH,[FNA(t)-FNA(t+10)]/FNA(t),10℃FNA0.27~0.33.FNA,.[50]8~36℃,,8℃42%,25℃73%.Miao[51]10~30℃,25℃、PHA5.89mgN/(h·gVSS)、10.41mgP/(h·gVSS)0.73mmolC/(h·gVSS),27℃.NDPAO,PAO:(15~32℃),[52-53].PAONDPAO.pHFNA,(1),FNApH,1pHFNA10,pHFNA,、、.Weng[54]pH6.0~8.5pH,pH,FNA0.4×10-3~102.6×10-3mgHNO2-N/LFNA,pH.[29]AndrewspH6.5~8.0,NO2--NAndrewspH,.pH,pH,.[55],pH8.020.95mgP/(g·h)23.29mgP/(g·h),pH8.510.59mgP/(g·h)13.73mgP/(g·h).[56]pH8.0.,.2.4,,SBRA2/O,:401492/%/%/%SBR/++939988[62]SBR/+90--89[60]SBR/+91--96[63]SBR/+83--80[64]MUCT907065[65]A2/O+917096[58]A2/O+928888[59]A2/O+949790[66]A2N906581[67]A2N969890[68]A2N849584[69]A2N885883[70]ABR+MBR936584[71]ABR+MBR809075[72]Dephanox856972[61]::(a)A2/O、(b)A2/O、(c)SBR、(d)A2N2.2(a)2(c),,()、()、().,.2(b),,,.2(d).SBR1PHA、,SBR2、,1SBR.2.4、、,.,(a)(c)(b)1(d)2SBR1SBR22019250,,NO2--N,.,,SRT,SRTNDPAO[57].[58]62.07%95.69%,(NOB).Dong[59](AOB)AOBNOB3.7%53%.(DO0.5~1.0mg/L),NOB,NDPAONO2--NNO2--N.[60],(DO0.80~0.95mg/L),NH4+-NTP,NO2--N3.85mg/L,.2,(ABR)(MBR),ABR,,VFANDPAOPHA,ABRMBR.DephanoxNO2--N[61].3,,1,1,NH4+-N.,.3Dephanox132,:40131),,,EBPRC/P.2)FNA,,,,.3)pHFNA,,.4),,.:[1]HeS,McmahonKD.Microbiologyof‘CandidatusAccumulibacter’inactivatedsludge[J].MicrobialBiotechnology,2011,4(5):603-619.[2]HeS,GallDL,McmahonKD.CandidatusAccumulibacterpopulationstructureinenhancedbiologicalphosphorusremovalsludgesasrevealedbypolyphosphatekinasegenes[J].Applied&EnvironmentalMicrobiology,2007,73(18):58-65.[3]MaoY,GrahamDW,TamakiH,etal.DominantandnovelcladesofCandidatusAcc