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4 5环境工程学报Vol.4,No.520105ChineseJournalofEnvironmentalEngineeringMay2010C/N宋宏宾1,2 蒋进元2* 周岳溪2 崔俊涛1(1.,130018;2.,100012) -,C/N,。,-,。,pH7.5~8.5,28~32℃,0.5~1mg/L,5~10mg/L,COD、NH+4-NTN94.4%、91.6%70.1%;C/NNH+4-N,NO-2-N5.2mg/L,。-,C/N,NO-2-N,。 C/N X714 A 1673-9108(2010)05-0998-05ExperimentalstudyonbiologicalnitrogenremovalprocessoflowC/NaquacultureSongHongbin1,2 JiangJinyuan2 ZhouYuexi2 CuiJuntao1(1.CollegeofResourcesandEnvironment,JilinAgriculturalUniversity,Changchun130018,China;2.ResearchCenterofWaterPollutionControlTechnology,ChineseResearchAcademyofEnvironmentalSciences,Beijing100012,China)Abstract Anewtypeshort-cutnitrificationdenitrificationbiofilterwithmulti-stagebiofilmtreatmentsys-temwasdesigned,anditsefficiencyofbio-denitrificationwasresearchedunderlaboratoryconditions.TheresultsshowedthatwhenthepHwas7.5~8.5,thetemperatureofwaterwasat28~32℃,dissolvedoxygenwas0.5~1mg/Landammoniawas5~10mg/Linartificialaquaculturewastewater,COD,nitriteandtotalnitrogenav-erageremovalrateswere94.4%,91.6%and70.1%,respectively.ThatinfluenceontheeffluentremovalrateofNH+4-NwithlowC/Nratiowaslittle,andtheconcentrationofnitritewaslimitedtolessthan5.2mg/Linar-tificialaquaculturewastewater,thatwasbelowthetolerancelevelsoffish.Theresultsindicatethatremovingni-tritefromaquaculturewastewaterwiththeshort-cutnitrificationdenitrificationmulti-stagebiofilmbiofilterisafeasibleapproach,andthewaterqualityissuitabletorecyclingintotheaquaculturesystem.Keywords lowC/Nratio;aquaculture;biologicalnitrogenremoval:“863”(2008AA10Z406);(2007KYYW46):2010-01-30;:2010-03-03:(1982~),,,。E-mail:songhongbin.cool@163.com*,E-mail:jiangjy@craes.org.cn ,,[1]。、、BOD、COD,,[2],COD200mg/L,。C/N[3~5],C/N。,C/N2.86kgCOD/kgN,,4kgCOD/kgN,,COD/TN5,[6,7]。Ku-ba[8]C/N3.4,。20805:C/N,(),,,。,,。。C/N,,,:,;,;,;,,;,;,。,C/N?,;、,[9]。,:40%,;,;HRT,;。C/N。1997,Delft-SHARON(singlereactorhighactivityam-moniaremovalovernitrite)。SHARON[10]。[11],。[12],。,,,。,C/N,[13~16]pH、、、,,,。1 1.1 C/N1。、,120、48.6014.13L,,3。、,3,。,,。,,。、pH,PLC(programmablelogiccontroller)。,,,[17]。1 C/NFig.1 Schematicdiagramofpilotplantinmulti-stagebiofilmtreatmentonlowC/Nratiosofcirculatingaquaculture1.2 ,2;、3~5,、、、、。,,,,,。18mm×18mm,,20%。2 Fig.2 Actualfigure1.3 C/N:、8h,pH7.5~8.5,28~32℃,0.5~1mg/L,5~999410mg/L。。1.4 ,,、、,NaHCO3,pH,12gNaHCO3/gNH+4-N。:COD100~120mg/L,NH+4-N50~60mg/L,PO3-4-P10mg/L。Ca、Fe、ZnCu[12]。1.5 、pH,COD、TN、NH+4-N、NO-3-N、NO-2-NPO3-4-P:COD,CTL-12();(NH+4-N),();(TN),TOC-VCPH(),(NO-3-N)、(NO-2-N)、(PO3-4-P)()。2 2.1 。,0.5h,,,,,,,。,。20d,COD90%,NH+4-N95%。,[18]。2.2 ,COD6,6,,COD,2~3d10mg/L,。COD101.70mg/L,,。COD,23dCOD95%,COD。,5mg/L,。COD,COD,,。,COD1#,,。41d,,50%,5d,,。。10005:C/N6 CODFig.6 ProfileofCODconcentrationsininfluentandeffluent2.3 2.3.1 NH+4-N的变化情况NH+4-N7,7,NH+4-N,2~3d10mg/L,,,20d,90%,。,C/NNH+4-N,[19,20],COD,,NH+4-NNO-3-NNO-2-N,。,,NH+4-NNH4+-N,NH+4-NNH+4-N。NH+4-N60mg/L,,[21]。7 NH+4-NFig.7 Profileofammonianitrogenconcentrationsininfluentandeffluent2.3.2 TN的变化情况,TN8。,TN15%~30%,60d,50%,,60%~75%,,(COD),,TN70%,[22]。,,,,TN64.12mg/L,COD101.70mg/L,COD/TN1.59,Kuba[8]C/N3.4。,TN,,C/N。。8 TNFig.8 ProfileofTNconcentrationsininfluentandeffluent2.3.3 NO-2-N和NO-3-N的变化情况,NO-2-NNO-3-N9,9,NO-2-N10mg/L,NO-2-N[23]。NO-2-NNO-3-N,NO-2-N,NH+4-NNO-2-NNO-3-N,。,NO-3-N,NO-2-N10mg/L(NO-3-N),NO-2-N,NO-2-NNO-3-N,TN,NH+4-NNO-2-N,NO-2-NN2。3 (1)pH7.5~8.5,100149 NO-2-NNO-3-NFig.9 Profileofnitriteandnitrateconcentrationsineffluent28~32℃,0.5~1mg/L,5~10mg/L,,,C/N,。(2)COD、NH+4-NTN94.4%、91.6%70.1%,C/NNH+4-N,,NO-2-N5.2mg/L,。[1],,,..,2005,18(5):67~71[2]RasmussenR.A.,KhalilM.A.K.Atmosphericmethaneintherecentandancientatmospheres:Concentrations,trendsandinterhemisphericgradient.J.Geophys.Res.,1984,89(1):11599~11605[3],,,.C/N.,2003,25(5):257~258[4],,,..,2009,37(27):13216~13220[5],,,.C/N.,2009,32(7):6~13[6]HenzeM.Capabilitiesofbiologicalnitrogenremovalprocessesfromwastewater.WaterSci.Technol.,1991,23(4~6):669~679[7],,,.A2OC/N.,2008,59(12):3126~3131[8]KubaT.,vanLoosdrechtM.C.M.,HeijnenJ.J.Phos-phorusandnitrogenremovalwithminimalCODrequirementbyintegrationofdenitrifyingdephosphatationandnitrifica-tioninatwo-sludgesystem.WaterResearch,1996,30(7):1702~1710[9],.C/N.,2009,29(2):225~230[10]KEMPENvanR.,MULDERJ.W.,UIJTERLLNDEC.A.,etal.Overview:FullscaleexperienceoftheSHAR-ONprocessfortreatmentofrejectionwaterofdigestedsludgedewatering.WaterSci.Technol.,2001,44(1):145~152[11],,,..,2008,40(10):1552~1556[12].-.:,2004[13]vanBenthumWAJ.Nitrogenremovalusingnitrifyingbio-filmgrowthanddenitrifyingsuspendedgrowthinabiofilmairliftsuspensionreactorcoupledwithachemostat.WaterRes.,1998,32(7):2009~2018[14]RalfStuven.Theimpactoforganicmatteronnitricoxideformationbynitrosomonaseuropaea.Arch.Microbiol.,1992,158(1):439~443[15],,,..,2006,19(1):26~29[16],,,..,2003,9(1):40~45[17]PENGY.Z.,CHENT.,TIANW.J.NitrogenremovalvianitriteatnormaltemperatureinA/Oprocess.JournalofEnvironmentalScienceandHealthpartA—Toxic/Haz-ardousSubstancesandEnvironmentalEngineering,2003,39(7):1667~1680[18],.(2).:,2000.49~60[19]MichaudL.,BlanchetonJ.P.,BruniV.Effectofpartic-ulateorganiccarbononheterotrophicbacterialp