86Vol.8No.620146ChineseJournalofEnvironmentalEngineeringJun.2014Fenton121111.1000892.100083Fenton1000083%Fe2+H2O21∶5pH3.5H2O230%3.25mL/LFentonH2O230%6.50mL/LCOD79.5%AOX75.3%97.5%500~300082.98%BOD5/COD0.56。Fen-ton。FentonX703A1673-9108201406-2429-06EffectofFentonoxidationonbiodegradabilityandmolecularweightchangesofwastewaterSongYun12WangHaijian1LiPeizhong1HaoRunqin11.EnvironmentProtectResearchInstitutionofLightIndustryBeijing100089China2.SchoolofCivilandEnvironmentalEngineeringUniversityofScienceandTechnologyBeijingBeijing100083ChinaAbstractTheoxidationviabilityofprimaryclarifiereffluentofpulpandpapermakingwastewaterwithdif-ferentdosageofFentonreagentwasstudiedinthiswork.Theorganicpollutantswithmolecularweightgreaterthan10000wereaccountedfor83%intheprimaryclarifiereffluentandtheirbiodegradabilitywasworse.UndertheconditionsofpHof3.5theFe2+∶H2O2moleratioof1∶5theH2O230%doseoflowerthan3.25mL/LtheFentonreagentshowedhigheroxidationefficiency.WhenthedoseofH2O230%increasedto6.50mL/Lover79.5%ofCODabatement75.3%ofAOXabsorbableorganichalogenreduction97.5%ofchromade-creaseachievedandthepollutantsoflowmolecularweightattherangeof500~3000wereaccountedfor82.98%ofthetotalintheeffluentwhiletheratioofBOD5/CODincreasedto0.56.Asapre-oxidationprocessforthetreatmentofpulpandpapermakingwastewaterFentonoxidationcandecreasethemolecularweightoforgan-icmattersinpulpandpaperwastewaterandthetoxicityofwastewaterandthenconsequentlyresultstheincre-mentsofthewastewaterbiodegradabilityandstableoperationofsubsequentbio-process.KeywordspulpingandpapermakingwastewaterFentonoxidationbiodegradabilitychangeofmolecularweight2009EG1110212010090152013-05-272013-07-281966~、、、。E-mailliepi_song@163.com、、。。。150.84%825.12%13.53%。2898。COD200mg/L3。Fenton、、、。FentonCOD。Fenton45。80%Fenton。Fenton6-8。11.1。。、、、、。C/D0—E0—D1—D2。、、。。90%。、9-12。40000m3/d27085m3/d。1。1Fig.1Processesofwastewatertreatment。/pHpH7.8COD920mg/LBOD5266mg/LBOD5/COD0.29。1.21.5L。1LWCJ-8021mol/LH2SO4pH3.5H2O230%Fe2+H2O21∶5FeSO4·7H2O50min1mol/LNaOHpH9。1.31.3.1ThermoOrion3starpHpH5BOD5、COD13。Ele-mentLiquiTOCIITOC。1.3.2AOXAOX。TOX-2100H。1.3.30.1mol/L0.22μm40℃40℃658nm1.0mL0.5mL/min。03426FentonGPC-GPC-MALLS-。0.45μm、。22.1COD/Fe2+H2O21∶5pH3.51L0.65、1.95、3.25、4.556.50mLH2O2Fenton2。2H2O2COD/TOC/nFe2+∶nH2O2=1∶5pH=3.5Fig.2InfluenceofH2O2dosageonCOD/TOC/colorremovalefficiencynFe2+∶nH2O2=1∶5pH=3.5、TOCCODFenton。H2O20.6mL/LCOD42.39%1.95mL/LCOD68.7%H2O26.50mL/LCOD79.5%。H2O21.95mL/LFentonFentonH2O2FentonCODFentonCODFenton。FentonH2O23.25mL/LFentonFentonCOD。Fenton·OH·OH121415FentonFenton16-18。Fe2++·OH→Fe3++OH-1H2O2+·OH→HO2·+H2O2、。H2O21.95mL/L91.8%6.50mL/L97.5%。Fenton。Fenton。。2.2AOXFentonAOX3。3H2O2AOXnFe2+∶nH2O2=1∶5pH=3.5Fig.3InfluenceofH2O2dosageonAOXremovalefficiencynFe2+∶nH2O2=1∶5pH=3.5FentonAOX。AOXFenton。H2O20.65mL/LAOX48.6%1.95mL/LAOX61.5%6.5mL/LAOX75.3%。AOX。Fenton·OHAOX13428AOX。2.3Fenton。BOD5/COD19。BOD5/COD0.3BOD5/COD0.2BOD5/COD0.3BOD5/COD0.45。Fenton4。4H2O2nFe2+∶nH2O2=1∶5pH=3.5Fig.4InfluenceofH2O2dosageonbiodegradabilityofwastewaternFe2+∶nH2O2=1∶5pH=3.54CODBOD5Fenton。H2O21.95mL/LCODBOD5BOD5/CODFentonH2O21.95mL/LBOD5/COD0.49H2O21.95~4.55mL/LCODBOD5BOD5/CODH2O26.5mL/LBOD5/COD0.56。H2O24.55mL/LBOD595.3mg/LH2O26.50mL/LBOD5105.3mg/L。FentonFenton。2.4。10002021。———。、MnMwMw/Mn2223。MnMnMnMwMwMw/Mn。Fenton100mL1。1H2O2nFe2+∶nH2O2=1∶5pH=3.5Table1EffectofH2O2dosageonmolecularweightdistributionofwastewaternFe2+∶nH2O2=1∶5pH=3.5H2O230%mL/LMw×104Mn×104Mw/Mn03.5631.4532.4523.251.4390.22636.3616.501.0260.13107.837MnMwMw/Mn。1FentonH2O26.50mL/L2/71/11Mw/Mn2.4527.837。510000~3000052.44%3000030.6%3000~1000015.79%Fenton。H2O23.25mL/LFenton1000023426Fenton5Fig.5Molecularweightdistributionofpollutantsinwastewater100000300003.87%30003000~1000021.11%300067.36%1000~200048.02%BOD5/COD0.47。H2O26.50mL/LFenton50000500~3000300082.98%3000。1000BOD5/COD0.56。FentonFentonFenton。3110000~3000052.44%3000030.66%3000~1000015.79%2H2O23.25mL/LFentonH2O26.50mL/LCOD188.6mg/kgCOD79.5%AOX75.3%。Fenton。3FentonH2O26.50mL/LBOD5105.3mg/LBOD5/COD0.56。4H2O23.25mL/LFenton10000~300005.95%300067.36%H2O26.25mL/LFenton300082.98%。5。Fenton。1.GC-MS.200521153-5533428SunJ.H.FengJ.L.SunR.X.AnalysisoforganicpollutantsinalkalistrawpulppapermakingwastewaterbyGC-MS.EnvironmentalMonitoringinChina200521153-55inChinese2..2008316127-131ChenY.J.MaY.W.ZhangC.H.Degradationofor-ganicinwastewaterfromregeneratedpapermaking.Envi-ronmentalScience&Technology2008316127-131inChinese3..20104.Fenton-.20071457-60XuY.ChenL.ZhouJ.X.Treatmentofdyeintermedi-atewastewaterbyFentonoxidationandbiochemicalprocesses.ChineseJournalofEnvironmentalEngineering20071457-60inChinese5WangX.J.SongY.MaiJ.S.CombinedFentonoxida-tionandaerobicbiologicalprocessesfortreatingasurfac-tantwastewatercontainingabundantsulfate.JournalofHazardousMaterials20081602-3344-3486LiJ.LuanZ.K.YuL.etal.PretreatmentofacrylicfibermanufacturingwastewaterbytheFentonprocess.Desalination2012284462-657LodhaB.ChaudhariS.OptimizationofFenton-biologicaltreatmentschemeforthetreatmentofaqueousdyesolutions.JournalofHazardousMaterial20071481-2459-4668VítorJ.P.V