A2O工艺处理生活污水反硝化除磷研究曾薇

整理文档很辛苦,赏杯茶钱您下走!

免费阅读已结束,点击下载阅读编辑剩下 ...

阅读已结束,您可以下载文档离线阅读编辑

资源描述

37920119JOURNALOFBEIJINGUNIVERSITYOFTECHNOLOGYVol.37No.9Sept.2011A2O100124A2OρC/ρN.ρC/ρN、A2OρNO-3-N35mg/LTN47.1%A2O.A2OTN60.7%PO3-4-P55.9%31.4%~46.9%.ρC/ρNTN74.4%ρPO3-4-P0.5mg/L66.2%~90.9%.PHA、A2O.、31.1%74.7%.A2O.A2O-β-PHAX703.1A0254-0037201109-1407-092009-09-08.508780058102005121076.1974—.、.《》GB18918—2002.A2O--、、、、.A2O、、、1.A2OρC/ρN.denitrifyingphosphateaccumulatingorganismDNPAOphosphateaccumulatingorganismPAOvolatilefattyacidVFA-β-poly-β-hydroxyalkanoatePHA.PHA.PHA、NO-x-NNO-x-NN2.A2O2-4.SBR5-6、7-8、pH9DNPAODNPAO.ρC/ρN.ρC/ρN3.0ρNH+4-N50mg/L.A2O102011.ρC/ρNA2OA2O11.A2O、A2OA2OρC/ρN.11.1A2O1.---.80L.8.11、23、44、1∶1∶2.231、、1∶2∶3∶6.、..22±1℃.24L.1.2.3.WTW4.5.6.7.8.9.10.11.12.13.14.15.16.1A2OFig.1SchematicdiagramofA2Oprocess11122、311.、.188L/dHRT9.3hSRT18~25dρMLSS3500±500mg/L.50%~80%100%~300%ρDO1.5~2.5mg/L..1~2.3.Ⅰ1~16d、1∶1∶2.Ⅱ17~32d、、80419A2O1∶2∶3∶6.Ⅲ33~106d、、1∶2∶3∶6.1.2.ρC/ρN1.3ρCODC2∶1ρCOD273.6~424.9mg/L352.4mg/LρC/ρN3.76~6.895.06ρC/ρP43.75~77.1761.55.1Table1CharacteristicsoftherawwastewaterρCOD/mg·L-1175.7~223.8194.5ρNH+4-N/mg·L-160.42~79.4369.44ρTN/mg·L-163.27~83.5972.27ρPO3-4-P/mg·L-14.30~8.285.71ρC/ρN2.44~3.453.22ρC/ρP33.12~46.0637.341.312ρCOD、ρNH+4-N、ρNO-3-N、ρNO-2-N、ρPO3-4-P.ρTNρTOCMultiNC3000/.PHA13N2Agilent6890NAgilentDB-1.13.pHρDOWTW-Multi-340i.DNPAOPAOs14.2.4L2.5L30min2.ρDO1.5~2.5mg/L60min24mg/LNO-3-N60min20min.Kanox/KaerDNPAOPAOs.G、UTGmg/LG=cb-c0+ca×R1+RUmg/LU=cb×1+R+cd×r1+R+r-ccT%T=1-cc×1+r+Rcb×1+R+cd×rrRc0PO3-4-Pmg/LcaPO3-4-Pmg/LcbPO3-4-Pmg/LccPO3-4-Pmg/LcdPO3-4-Pmg/LUTPO3-4-P.9041201122.1A2OCOD2ρCOD.ρCODCOD.2ρCOD175.7~223.8mg/L194.5mg/LρCOD54.1~90.3mg/L73.1mg/LρCOD30.8~45.1mg/L35.9mg/LCOD77.3%~84.3%81.6%.3ρCOD273.6~424.9mg/L352.4mg/LρCOD55.2~116.3mg/L87.3mg/LρCOD19.2~52.4mg/L36.5mg/LCOD81.9%~94.5%89.5%COD.ρCODGB18918—2002A.2.2A2O3A2OTNTN95%.95%TNTN90%.2A2OCODFig.2CODremovalinA2Oprocess3A2OFig.3NremovalinA2Oprocess4PO3-4-P5ρPO3-4-PA2O.1ρC/ρN3.22TN47.1%ρNO-3-N35mg/LNO-3-N.VFA.PO3-4-P9.8%.2TNTN60.7%ρNO-3-N25mg/L.NO-3-NNO-3-N.3ρNO-3-N4.1~12.7mg/L7.6mg/L.NO-3-NCODPHAPO3-4-P.4、5ρPO3-4-P1.3~3.4mg/L2.4mg/LPO3-4-P01419A2O4A2OFig.4PremovalinA2Oprocess5A2OFig.5DenitrifyingphosphorusremovalinA2Oprocess55.4%.31.4%~46.9%3.3~7.1mg/L.3ρC/ρN5.06TN74.4%ρNO-3-N18mg/L.3ρNO-3-N0.1~10mg/L2.4mg/LNO-3-N.CODVFAPHA.5PHA66.2%~90.9%3.5~14.6mg/L.PHA.PO3-4-P84.5%~100%ρPO3-4-P0.5mg/LGB18918—2002A.2.3A2O2.3.16A2OFig.6VariationsofnutrientalongthereactorinA2Oprocess3、、.6.2、34COD、TN、PO3-4-P89.5%、74.4%98.1%.ρCODρPO3-4-PGB18918—2002A.ρC/ρN11412011ρTNρTNGB18918—2002B.2.3.2PHAVFAPHAPHB、PHVPH2MVPHVPHAPHB、PHVPHB15.3PHAPHB、PHVPH2MV.PHAPH2MV.7PHVPHB.PHBMLSS1.72.2mg/g0.07670.1233mmol/gPHVMLSS2.43.1mg/g0.11950.1570mmol/g.PHVPHB.PHVPHB.PHBPHV.16-17.7、8PHAPHA.PHA.1golycogenaccumulatingorganismGAO18.A2OGAO.GAOPAO19.7PHAFig.7VariationsofsludgePHAcontentalongthereactor8Fig.8Variationsofglycogencontentalongthereactor1PO3-4-PPHA.、DO、pHPHA.PHAρDO1.5~2.5mg/L.、24PHAPHA20..VFA.VFAPHA.PO3-4-P.DNPAO7、8PHA.PO3-4-P.21419A2O2.3.2DNPAO929a39bDNPAO3、DNPAO.DNPAOPAOs231.1%374.7%.DNPAO10.9Fig.9TheexperimentsoftheDNPAOrelativemetabolicactivity31A2OρC/ρN、A2OρNO-3-N35mg/LTN47.1%.PO3-4-P9.8%.2A2OTN60.7%PO3-4-P55.9%31.4%~46.9%.ρC/ρN、PHAρTNρPO3-4-P.3A2O.TN74.4%PO3-4-P84.5%~100%66.2%~90.9%.ρCODρPO3-4-PGB18918—2002AρTNGB18918—2002B.ρC/ρN、.4PHVPHBPHBPHV.5A2ODNPAO.、DNPAOPAOs31.1%74.7%.A2O.1.A2/OJ.200329322-26.ZHANGJieZANGJing-hongYANGHongetal.AstudyontheinherentshortcomingsandcountermeasuresoftheA2/OprocessJ.WaterandWastewaterEngineering200329322-26.inChinese2.A2/OJ.200826752-756.31412011PENGYiPENGYong-zhenWUChang-yong.DenitrifyingphosphorusremovalinA2/OprocessJ.ChineseJournalofEnvironmentalEngineering200826752-756.inChinese3KUBATvanLOOSDRECHTMCM.Phosphorusremovalfromwastewaterbyanaerobic/anoxicsequencingbatchreactorJ.WaterScienceandTechnology1993275241-252.4KUBATMURNLEITNEREvanLOOSDRECHTMCMetal.AmetabolicmodelforbiologicalphosphorusremovalbydenitrifyingorganismsJ.BiotechnologyandBioengineering1996526685-695.5OEHMENASAUNDERSAMVIVESMTetal.CompetitionbetweenpolyphosphateandglycogenaccumulatingorganismsinenhancedbiologicalphosphorusremovalsystemswithacetateandpropionateascarbonsourcesJ.JournalofBiotechnology2006123122-32.6.J.2006262186-192.WANGYa-yiWANGShu-yingPENGYong-zhenetal.TheinfluenceofcarbonsourceandtemperatureonthedenitrifyingphosphorusremovalinwastewatertreatmentprocessJ.ActaScientiaeCircumstantiae2006262186-192.inChinese7ZHANGXWANGZZHAOQ.BiologicalphosphorusremovalwithnitriteaselectionacceptorJ.WaterScienceandTechnology2006539185-191.8NGWJONGSLHUJY.Denitrifyingphosphorusremovalbyanaerobic/anoxicsequencingbatchreactorJ.WaterScienceandTechnology2001433139-146.9SERRALTAJFERRERJBORRASLetal.EffectofpHonbiologicalphosphorusuptakeJ.BiotechnologyandBioengineering2006955875-882.10.A2/OJ.20055681565-1569.WANGXiao-lianWANGShu-yingMAYongetal.AnoxicbiologicalphosphorusremovalandeffectofexcessiveaerationonbiologicalphosphorusremovalinA2OprocessJ.JournalofChemicalIndustryandEngineering20055681565-1569.inChinese11.A-A2/OJ.20083112150-152.ZHOUAi-jiaoTAOTaoZHANGTai-pingetal.Removaleffec

1 / 9
下载文档,编辑使用

©2015-2020 m.777doc.com 三七文档.

备案号:鲁ICP备2024069028号-1 客服联系 QQ:2149211541

×
保存成功