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N2O于德爽, 李 津, 陆 婕(青岛大学化学化工与环境学院,山东青岛266071) : 采用序批式活性污泥反应器(SBR)对生活污水短程及全程硝化反硝化过程中N2O的产生量进行了考察。结果表明,在进水氨氮浓度相同且不限制DO的条件下,全程硝化反硝化过程中N2O的总产生量为短程硝化反硝化的2倍左右;硝化类型不会影响反硝化过程对溶解性N2O的还原,无论以NO-2-N还是以NO-3-N为电子受体,反硝化过程均有利于降低N2O的浓度。 : 短程硝化反硝化; 全程硝化反硝化; N2O产量:X703 :C :1000-4602(2008)07-0066-04ComparisonofN2OProductionQuantitybetweenCompleteandShortcutNitrificationandDenitrificationProcessesYUDe-shuang, LIJin, LUJie(SchoolofChemicalandEnvironmentalEngineering,QingdaoUniversity,Qingdao266071,China) Abstract: Thesequencingbatchreactor(SBR)wasadoptedtoinvestigateN2Oproductionquanti-tyincompleteandshortcutnitrificationanddenitrificationforsewagetreatment.Theresultsshowthatun-dertheconditionofsameammonianitrogenconcentrationandnotcontrollingDOconcentration,theN2Oproductionquantityincompletenitrificationanddenitrificationprocessistwiceofthatinshortcutnitrifi-cationanddenitrificationprocess.ThenitrificationtypesdonotaffectthereductionofsolubleN2Oindenitrificationprocess.WhethertakingNO-2-NorNO-3-Naselectronacceptor,thedenitrificationprocessisfavorabletoreduceN2Oconcentration. Keywords: shortcutnitrificationanddenitrification; completenitrificationanddenitrification;N2Oproductionquantity ,N2。,N2,NON2O。NO,,,N2ON2[1]。N2O,N2O,0.4℃,10%~16%;N2OCO2190~270、CH44~21,5%~6%[2]。N2O,,,,120a[3];N2O,,O3,O3,NONO2,。20,N2O0.25%~0.30%,N2O、。N2O,N2O。、、、N2O。90%·66·第24卷 第7期2008年4月 中国给水排水CHINAWATERWASTEWATER Vol.24No.7Apr.2008N2O[1]。N2O[4],N2O[5]。N2O,,N2O。1 装置与方法1.1 (SBR),SBR1SBR2。SBR,14L,、;,,,;;,,;pH、、pH、DOORP。1。1 Fig.1 Schematicdiagramofexperimentalset-upSBR3,、、、、,,。SBR1SBR2,SBR1330min,SBR2。1.2 ,1。。(SBR1)20~25℃,(SBR2)30~32℃。1 Tab.1 QualityofinfluentpHCOD/(mg·L-1)NH+4-N/(mg·L-1)C/N7~8178~37535~784.901.3 NH+4-N、NO-2-N、NO-3-N、COD、TOC[6]。N2O:Agilent6890NN2O。HP-Plot(30m×0.53mm×25μm),:110℃,180℃,ECD300℃。3,。N2O:N2O。、,0.5mL1000mg/LHgCl2,;()N2,0.5h,N2O,N2ON2O。2 结果与讨论2.1 N2ON2O:,,N2O;,N2O。2SBR1N2O。2 N2OFig.2 N2Oproductionquantityinacycleofcompletenitrificationanddenitrificationprocess2,60min,N2O·67·于德爽,等:短程与全程硝化反硝化过程中N2O产量比较第24卷 第7期,。,,,N2ON2O,N2O,。,N2O,,N2O;,N2O,N2ON2。2.2 N2OSBR23。4SBR2N2O。3 Fig.3 Nitrogenconcentrationsinacycleofshortcutnitrificationanddenitrificationprocess4 N2OFig.4 N2Oproductionquantityinacycleofshortcutnitrificationanddenitrificationprocess,60min,N2O(2、4)。,,NH+4-N,NO-2-N,,NO-2-N,24.12mg/L,NO-3-N0.98mg/L,NO-2-N/NO-x-N94.23%(3)。,N2ON2O,0.77mg/L0.73mg/L,N2O0.04mg/L(4)。,,4,,N2O,,N2O,N2ON2,N2O。2.3 N2O2N2O。2 N2OTab.2 N2Oproductionquantityofcompletenitrificationanddenitrificationandshortcutnitrificationanddenitrificationprocessesmg·L-1 N2O2.47-0.022.451.19-0.031.16 2,N2O2。,N2O;NO-2-NNO-3-N,N2O。Zeng,N2O[7];Park,NO-2-N,N2O[8]。:NO-2-NDO,N2O,DO。,SBR2,,DO,DO1.5mg/L,DON2O。N2O,N2O,·68·第24卷 第7期 中国给水排水 。3 结论① DO,,N2O、N2ON2O;N2O2,NO-2-NNO-3-N,N2O,N2O。② N2ON2O,N2O,N2O。:[1] ,,,.N2O[J].,2006,26(12):1940-1946.[2]IPCC.ClimateChange1995:theScienceofClimateChange[M].Cambridge:CambridgeUniversityPress,1996.[3] SharmaC,GuptaPK,ParasharDC.Atmosphericnitrousoxide:sourcesandsinks[J].TropicalEcology,1996,37(2):153-166.[4] PeterC,PatrickC,RobertHarriss.Nitrousoxideemissionfrommunicipalwastewatertreatment[J].EnvironSciTechnol,1995,29(9):2352-2356.[5] HanakiK,ZhengH,MatsuoT.Productionofnitrousox-idegasduringdenitrificationofwastewater[J].WaterSciTechnol,1992,26(5-6):1027-1036.[6] .(4)[M].:,2002.[7] ZengRJ,LemaireR,YuanZ,etal.Simultaneousnitrifi-cation,denitrificationandPremovalinalab-scalese-quencingbatchreactor[J].JournalofBiotechnologyandBioengineering,2003,84(2):170-178.[8]ParkKY,InamoriY,MizuochiM,etal.Emissionandcontrolofnitrousoxidefromabiologicalwastewatertreat-mentsystemwithintermittentaeration[J].JournalofBio-scienceandBioengineering,2002,90(3):247-252.E-mail:ljin0532@126.com:2007-12-10(上接第65页),。:[1]DierbergFE,DeBuskTA,JacksonSD,etal.Submergedaquaticvegetationbasedtreatmentwetlandsforremovingphosphorusfromagriculturalrunoff:responsetohydraulicandnutrientloading[J].WaterRes,2002,36(6):1409-1422.[2] BaiXH,WangBZ,YuM,etal.Developmentofcon-structedwetlandandwastewatertreatmenttechnologyanditsapplicationinChina[J].JournalofHarbinUniversityofCivilEngineeringandArchitecture,1999,32(6):88-92.[3] HumeNP,FlemingMS,HorneAJ.Plantcarbohydratelimitationonnitratereductioninwetlandmicrocosms[J].WaterRes,2002,36(3):577-584.[4]YingFengLin,ShuRenJing,TzeWenWang,etal.Effectsofmacrophytesandexternalcarbonsourcesonni-trateremovalfromgroundwaterinconstructedwetlands[J].EnvironPollu,2002,119(3):413-420.[5] ,,.[J].,2003,22(2):49-55.[6] LimPE,WongTF,LimDV.Oxygendemand,nitrogenandcopperremovalbyfreewatersurfaceandsubsurfaceflowconstructedwetlandsundertropicalconditions[J].EnvironmentInternational,2001,26(5-6):425-431.[7] VanOostromAJ.Nitrogenremovalinconstructedwet-landstreatingnitrifiedmeatprocessingeffluent[J].Wa-terSciTechnol,1995,32(3):137-147.:(010)62797265E-mail:lusl@mails.tsinghua.edu.cn:2007-12-29·69·于德爽,等:短程与全程硝化反硝化过程中N2O产量比较第24卷 第7期
本文标题:短程与全程硝化反硝化过程中N2O产量比较于德爽
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