多相芬顿催化水处理技术与原理吕来

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PROGRESSINCHEMISTRYDOI10.7536/PC170552http//.progchem.ac.cnProgressinChemistry2017299981~999*123123**1.5100062.1000853.100049。、pH、。、/。、。。。O643.32+2X131.2X52A1005-281X201709-0981-19201752720178172017924*No.51538013No.2016YFA0203200TheworkwassupportedbytheNationalNaturalScienceFoundationofChinaNo.51538013andtheNationalKeyResearchandDevelopmentPlanNo.2016YFA0203200.**Correspondingauthore-mailhuchun@gzhu.edu.cnHeterogeneousFentonCatalyticWaterTreatmentTechnologyandMechanism*LaiLyu123ChunHu123**1.KeyLaboratoryforWaterQualityandConservationofthePearlRiverDeltaMinistryofEducationSchoolofEnvironmentalScienceandEngineeringGuangzhouUniversityGuangzhou510006China2.KeyLaboratoryofDrinkingWaterScienceandTechnologyResearchCenterforEco-EnvironmentalSciencesChineseAcademyofSciencesBeijing100085China3.UniversityofChineseAcademyofSciencesBeijing100049ChinaAbstractHeterogeneousFentoncatalyticwatertreatmenttechnologyisaneffectivemethodfordegradationoforganicpollutantsinwater.ComparedtothehomogeneousFentonreactionithastheadvantagesofrecyclabilitywidepHresponserangeeasysolid-liquidseparationandnon-productionofironsludge.ThisarticlemainlyreviewstheclassicalFentonreactionmechanismtheheterogeneousFentonreactionmechanismandthedevelopedheterogeneousFenton/Fenton-likecatalystsbasedonthebasicmechanism.ThebottleneckproblemsofthepresentheterogeneousFentonsystemincludinglowactivityunderneutralconditionpoorstabilityofthecatalystandlowutilizationefficiencyofH2O2aresummarized.ParticularlytheemphasisistointroducethedevelopednewtypeheterogeneousFentonsystemsincludingtheone-centerCu-basedFenton-likesystemandthedual-centerFenton-likesystemforsolvingthebottleneckproblems.Wethinkthedual-centerReview·982·ProgressinChemistry2017299981~999Fenton-likesystemhasactuallybroketheconceptoftheclassicalFentonreactioncreatingtheelectron-richcentersandelectron-deficiencycentersbasedonthepolarizationtheoryofelectrondistributionwhichrealizestheefficientlyselectivereductionofhydrogenperoxideandoxidativedegradationofpollutantssolvingthetechnicalbottleneckproblemsoftheclassicalFentonreactioninwatertreatment.KeywordsHeterogeneousFentoncatalysiswatertreatmentdualreactioncenterhydrogenperoxideThispapersummarizestheclassicalFentonreactionconventionalone-centerheterogeneousFentonsystemandthedevelopeddual-centerheterogeneousFenton-likesystemandtheircharacteristicsandreactionmechanismswith/withoutpollutants.Contents1Introduction2ClassicalFentonreactionmechanism3HeterogeneousFentoncatalyticreactionmechanism3.1HeterogeneousFentonreactionmechanismwithoutconsideringorganicpollutants3.2HeterogeneousFentonreactionmechanisminconsiderationoforganicpollutants4DevelopmentandutilizationofheterogeneousFentoncatalysts4.1Zero-valentmetalcatalyst4.2Transitionmetaloxidecatalyst4.3Metalspecies-supportedcatalysts4.4Metalions-dopedcatalysts5ExistingproblemsofheterogeneousFentoncatalyticsystem6DevelopmentofnovelheterogeneousFentonsystemanditscatalyticmechanismfordegradationoforganicpollutantsinwater6.1One-centerheterogeneousFentonsystem6.2Dual-centerheterogeneousFenton-likesysteminducedbylatticeoxygen6.3Dual-centerheterogeneousFenton-likesysteminducedbysurfaceorganicligand7Conclusionandoutlook1、、、12。3。。。、4。·OH5。pH、、2。、。、H2O246。2017299981~999·983·。。21894H.J.H.FentonpH2~5Fe2+H2O2。H2O2“”Fe2+H2O2。。1964H.R.Eisenhauer7。8、9、10。11、12、13、14、1516。。HaberWeiss17Fe2+H2O2。18。Fe2+H2O2·OHFe2+Fe3+1。·OH2.7V569.3kJ2、3π4R·RX+·RHXOH。·OH。H2O2·OHHO·2/O·-25。Fe3+H2O2Fe2+H2O2HO·26Fe3+HO·2Fe2+O27。Fe2++H2O2→Fe3++OH-+·OH1·OH+RX→RX+·+OH-2RH+·OH→R·+H2O3RHX+·OH→RHXOH4H2O2+·OH→H2O+HO·25Fe3++H2O2→Fe2++H++HO·26Fe3++HO·2→Fe2++O2+H+711mol/LpH19Fig.1SpeciationofFeⅡinwaterasafunctionofpHat1mol/Lionicstrength19·OHk=109~1010L·mol-1·s-1·OH。pH·OH。pH119。pH<3Fe2+1pH。pH3~4Fe2+FeOH+FeOH2。FeOH2Fe2+pHFeOH2·OHpH4。pH>3。pH3。pH。Fe3+H2O2Fe2+6k≈0.02L·mol-1·s-1·OHk≈76L·mol-1·s-120Fe3+。Fe3+Review·984·ProgressinChemistry2017299981~999Fe2+。H2O2·OHH2O2Fe3+Fe2+H2O2HO·2O2H2O2。H2O2。·OH。H2O2H2O2。H2O2。H2O2。。H2O2Mostaghim21Co2+/H2O2Mn2+/H2O2。Gabriel22Cu2+/H2O2、180%。Nichela23H2O2Cu2+Fe3+TOC。pH。H2O223~25Cu+Fe2+Haber-WeissH2O2·OH8Cu2+Fe3+H2O2HO·2Cu+910。Cu2+H2O2Fe3+H2O226~32Cu2+H2O2Cu+·O2H11Cu+·O2HH2O2·OH12。Cu++H2O2→Cu2++OH-+·OH8Cu2++H2O2→Cu++H++HO·29Cu2++HO·2→Cu++O2+H+10Cu2++H2O2→Cu+·O2H+H+11Cu+·O2H+H2O2→Cu++O2+·OH+H2O12H2O2。33。、pH23、34、34、353637、3839。25pH、、H2O2。3、pH。、、。。H2O2、、。H2O2H2O2。H2O2。。。3.14041H2O2。H2O22017299981~999·985·H2O2O2。H2O2H2O2·OHHO·2/O·-2。H2O213~1542≡Mn++H2O2→≡Mn+1++OH-+·OH13≡Mn+1++H2O2→≡Mn++H++HO·214HO·2+≡Mn+1+→≡Mn++H++O215H2O2。H2O2·OH。。Yang2H2O2·OHFeOCl。FeOClFeOCl·OH1~3。FeOClH2O2·OH2FeOClH2O2≡FeⅡH2O2HO·2。FeOCl≡FeⅡH2O2·OH≡FeⅢ。·OH。FeOClH2O2·OHO-Fe-Cl·OH。Costa43H2Fe3O4Fe0/Fe3O42FeOCl2Fig.2MechanismoftheFentonreactionovertheFeOCl23Fe0Fe3+Fe0/Fe3O4Fe2+43Fig.3SketchoftheelectrontransferfromFe0toFe3+magnetitetoregenerateFe2+surf43Fe0/Fe3O4。Fe0/Fe3O4H2O23。Fe0/Fe3+Fe2+H2O2·OHFe0Fe3+Fe2+。CoMnH2O24445CoMnH2O2。Co2+Mn2+Fe2+H2O2·OH1617E0Co3+/Co2+=1.81V、E0Mn3+/Mn2+=1.51VE0Fe3+/Fe2+=0.77V1819Co2+Mn2+。≡Co2++H2O2→≡Co3++OH-+·OH16≡Mn2++H2O2→≡Mn3++OH-+·OH17≡

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