复合MBR工艺处理生活垃圾焚烧电厂渗滤液苏东辉

35、、、[1]、。。+MBR。、ABR、A/OMBR。A/OMBRMBR。1、、。、、、《》2011-06-032011-09-021974-、0571-89975385sudh@zjemc.org.cn。EnvironmentalScience&Technology35420124Vol.35No.4Apr.20121211.3100152.323000100m3/dA/OMBR。MBR98%。COD200mg/L5mg/L。MBRA/OMBR。MBRABRX703Adoi10.3969/j.issn.1003-6504.2012.04.0351003-6504(2012)04-0162-03ApplicationofCompositeMBRProcesswithTwoA/OAddedCarbonSourseinLeachateTreatmentoftheSolidWasteIncinerationPowerPlantSUDong-hui1YEXiao-guo2YAODe-fei11ZhejiangEnvironmentalMonitoringCenter,Hangzhou310015China2QingyuanCountyEnvironmentalMonitoringStation,Qingyuan323000ChinaAbstractByusingthepracticalengineeringinZhejiangwiththescaleof100m3/dwasteincinerationpowerplantleachatetreatmentthispaperintroducestheapplicationofcompositeMBRprocesswithtwoA/Oaddedcarbonsourseinleachatetreatmentintheincinerationplant.CompositeMBRtechnologyleachateorganicpollutantsandammonia-nitrogenremovalefficiencieswerehighforsolidwasteincinerationallabove98%.AfterthetreatmentbythecombinedprocessCODcanbereducedbelow200mg/Landtheeffluentammonia-nitrogenbelow5mg/L.ComparedwiththegeneralcompositeMBRprocesswithtwoA/Ocanremoveorganicpollutantsandammonianitrogenmoreefficiently.Keywordsleachate;MBR;ABRanaerobicreactor4。10%~20%[2]。。1COD30~70g/L。2。BOD/COD0.5C/N20。3。、、。4。1.2g/L[3]。、。2、2300t/d600t/d。100m3/d1800m31。31。。、、、[4]。。ABRABR3。ABR。MBR。MBRA/O-MBR。。44.14m×5.7m×2.5mHRT12h2SSR。pH9.5~10.5。4.2ABR15m×4m×2m120m35HRT36h。4.3MBR、、120m3、450m3、80m3300m315kg/m30.21kgCOD/kgMLSS·d。0.02μm61.2L/h·m278.3m20.6MPa。1Table1Designedinfluentandeffluentwaterqualitymg/LpHpHCODBODNH3-NSS6~96000030000150070006~95003003540035523。5.1MBRABR2MBRABRCOD84~148mg/LMBRABRCOD98.6%。3MBRABR1.28~2.97mg/LMBRABR99.4%。5.24MBRMBRTable4ComplexcombinationoftechnologyandgeneralMBRprocessoforganicpollutantsandammonianitrogenremovalefficiencyMBR《UASBMBR》1800093.9~97.1150099《-》[5]1800093.3150099.1《UASB/SBR/MBR》[6]100007020090《AS-SMBR》[7]800~140050~60400~60095《MBR+NF/RO》[8]6300~810091.9450~80098MBR7710~844098.6284~29899.4MBRCODMBR/mg·L－1/%/mg·L－1/%2CODTable2CODmonitoringresultsandtreatmenteffect/mg·L－112345678－476004550046900477004930050400485004780082908180798077108440774078807970/%82.682.083.083.882.984.683.883.3MBRABR11810511284101122148122/%98.698.798.698.998.898.498.198.5/%99.899.899.899.899.899.899.799.73Table3Monitoringresultsandtreatmenteffectofammonia/mg·L－112345678-15801600157015701520152015301540295293295287285298284286/%81.381.781.281.781.380.481.481.4MBRABR2.971.921.371.541.281.401.831.82/%99.099.399.599.599.699.599.499.4/%99.899.999.999.999.999.999.999.971MBRCOD98%99%。MBRMBR。2+ABR+A/OMBR《》GB8978-1996。[][1].UASB+A/O+UF+NF[J].201028(1)40-42.SongCan-huiHuZhi-quanXiaoBo.TreatmentofleachatefeomMSEincinerationplantwithUASB+A/O+UF+NFpro－cess[J].EnvironmentalEngineering,201028(1)40-42.(inChinese)17823COD99.8%99.9%。5.33.5/m324/m3。6MBRMBRA/OMBRMBR4MBR。35164[2].UASB/MBR/NF[J].200935()135-139.WangFangLuXin-shengOuMing.UASB/MBR/NFgarbageincinerationpowerplanttechnologyintheapplica－tionofleachatetreatment[J].WaterSupplyandDrainage200935(S)135-139.(inChinese)[3].UASBMBR[J].201036(4)21-2224.YuanJiangXiaMingHuangXingetal.Solidwastein－cinerationpowerplantleachatetreatmentbyUASBandMBRcombinatedprocess[J].IndustrialSafetyandEnviron－mentalProtection201036(4)21-2224.(inChinese)[4].[J].201037(4)40-43.SunXiao-longJiangWen-ju.Domesticlandfillleachatetreatmentprocessandtechnologyofthestatusquo[J].Yun－nanChemical201037(4)40-43.(inChinese)[5].-[J].200940(5)85-87.ChengXu.Membranebioreactor-nanofiltrationprocessintheapplicationoflandfillleachatetreatment[J].IndustrialWa－terandWastewater200940(5)85-87.(inChinese)[6].UUASB/SBR/MBR[J].200925(2)62-64.SongCan-huiXiaoBoHuZhi-quanetal.UASB/SBR/MBRprocessfortreatmentofleacheatefromMSWinciner－ationpowerplant[J].ChinaWater&Wastewater,200925(2)62-64.(inChinese)[7].AS-S/MBR[J].20104(10)2263-2266.NingGui-xingWangKaiWuDietal.ExperimentalstudyonAS-S/MBRprocesstotreatlandfillleachate[J].ChineseJournalofEnvironmentalEngineering20104(10)2263-2266.(inChinese)[8].MBR+NF/RO[J].201026(4)31-35.ZhangXuFengXiXieYu-hong.AcasestudyofMBR+twomembraneprocessforlandfillleachatetreatment[J].JournalofTianjinUniversityofTechnology201026(4)31-35.(inChinese)[J].20072412144-148.DuZhi-min,WangJian-jun.Analysisonhighwayland－scapeevaluationbasedonfuzzycomprehensiveevaluation[J].JournalofHighwayandTransportationResearchandDevelopment20072412144-148.inChinese[2].[J].:2009331157-160.HuangJiang-bo,LiJie,SongJiang-ping,etal.Researchonlandscapeenvironmentevaluationmodeloftypicalsectionofhighway[J].JouranlofWuhanUniversityofTechnology:TransportationScience&Engineeing,2009331157-160.inChinese[3].AHP[J].:200930240-45.YangYong-zhi,ZhangLi-yun,YanHai-xia,etal.BasedonthemethodofAHPoftheplantcommumitylandscapeevaluationofYuquanDistrictinHuhhot[J].JournalofInnerMongoliaAgriculturalUniversity:NaturalScienceEdition200930240-45.inChinese[4].[J].199110238-51.YuKong-jian.Landscapesensitivityandthresholdevalua－tionresearch[J].GeographyResearch199110238-51.inChinese[5].[J].1998(11)31-34.WuHong-tao.Roadlandscapeoffuzzycompr