您好,欢迎访问三七文档
当前位置:首页 > 行业资料 > 其它行业文档 > pH对铝盐絮凝剂形态分布与混凝除氟性能的影响鞠佳伟
96Vol.9No.620156ChineseJournalofEnvironmentalEngineeringJun.2015pH*100085AlCl33PAClpH。pH。pH5~6Al3+Al2、Al3AlCl3AlCl3A1OH3PACl。pH>7PAClAlCl3PAClAl13PAClF-ζF-。PAClζX703.5A1673-9108201506-2563-06EffectofpHonaluminumspeciesdistributionandremovaloffluoridebydifferentAlcoagulantsJuJiaweiGaoYupingHeZanLiuRuipingKeyLaboratoryofEnvironmentalAquaticChemistryResearchCenterforEco-EnvironmentalSciencesChineseAcademyofSciencesBeijing100085ChinaAbstractThisstudycomparedtheremovaloffluoridebyAlCl3andpolyaluminumchloridePAClatdif-ferentpHanddosagesandproposedthemechanismsaccordingly.TheresultsindicatethatpHhasabigimpactonthedefluoridationprocessduetodifferentaluminumspeciesinhydrolysisprocess.AtpH5~6AlCl3existsintheformofmonomerandsmallpolymericaluminumspeciesandshowsbetterperformanceinremovingfluoridethanPACl.HoweveratpH>7PAClisbetterthanthatofAlCl3inremovaloffluoride.BesidesPAClwithalargervalueofOH/A13+isbetterfordefluoridationduetoaffinitybetweenAl13andfluoride.Higherζpo-tentialisbenefitfornegatively-chargedfluorideadsorbedonthesurfaceoftheflocsandleadstobetterperform-anceindefluoridationprocess.KeywordsfluoridePAClbasicityaluminumspeciesζpotential21177143211771442015ZX07402-0032014-05-072014-05-261989—。E-mailjujiawei11@mails.gucas.ac.cn*E-mailliuruiping@rcees.ac.cn1《》1.0mg/L2。3。、--、、、4-10。、、。、PACl。Al13PACl11。B=OH/A13+PACl。0312。、、。、9。AlCl33PAClAl-Ferron4pHpH。11.1NaF105℃2h0.2210g、1000mL100mg/LFNaF。4AlCl3·6H2OPACl12%Al2O3PACl210%Al2O3PACl330%Al2O3。PACl1200mL50mL1.0mol/LAlCl350mL2.4mol/LNaOH70℃。NaOHAlCl31h。24h0.209mol/L、B=2.4PACl1。1.2MY3000-61000mL200r/min30s200r/min1min40r/min15min30min2cm0.45μm。1.3GB15892-2003DMSTitrino716MetrohmAl2O3B。Al-Ferron4Ala、AlbAlc13U-3010HitachiCo.Japan。F-PF-1ICP-OESOptima2000PerkinElmerU.K.0.45μm。22.1pH4Al-FerronpH4Ala、AlbAlc1。AlCl3AlaAlbpHpH<6AlapHAlbpHpH=6pH=7Ala10%Alb74.7%pHpH>7AlapH8.6%75.5%AlbpH74.7%17.3%。pH4.0~9.0AlcAla。3PAClpH4~9Ala、AlbAlcAlCl3PAClAlCl3。PACl1、PACl2、PACl3PACl1>PACl2>PACl3PACl1、PACl2、PACl32.40、1.901.49。PACl。pH。Ala、AlbAlc3AlaAlbAlc。14ESI-MS4pH3.0~8.0。pHAlCl3。pH3.0Al2Al3Al4Al13。pH4.0Al2Al3pH=3.0。pH5.0Al2Al13。4PAClpH3.0~6.0AlCl3。pH3.0~6.0PACl1Al13Al1、Al2Al3Al13pH。PACl2PACl3ESI-MSpHPACl1pHAl1346526pH1pHAlCl3PAClAla、AlbAlcFig.1RatiosofAlaAlbandAlcforAlCl3andPAClatdifferentpHPACl1>PACl2>PACl3。2.2pHpH。10mg/L81mg/L。2apH3.0~11.0。AlCl3pH=694.7%pH6.03.038.1%pH6.011.020.1%。PACl1、PACl2PACl33PAClpH=7.092.9%、86.2%83.7%pH7.03.038.1%、38.1%35.4%pH11.049.7%、26.8%20.5%。AlCl3pHpH6.0~7.0PAClAlCl3pHpH6.0~8.0。2bAlCl3PAClpH6.0~8.0pH。AlCl3pH=6.0AlOH3pH=9.0AlOH3。PAClpH=7.0AlOH3。2AlCl3PAClpH3~11Fig.2RemovalrateoffluorideandconcentrationofresidualaluminumofAlCl3andPAClatpHinrangeof3~11pH=3~44。pH56AlCl3AlCl3PAClAlOH3。F-AlCl3Al2、Al315。pH694。AlOH3。、Al13PAClF-。AlCl3Al13。4PACl56529PACl1>PACl2>PACl3>AlCl3。pH10.0A1OH3A1OH4-。2.33413.5mg/L108mg/LpH6.07.5。pH=6.0AlCl33PACl。0~60mg/LAlCl3AlCl3108mg/L94.7%。3PAClpHPAClPACl1>PACl2>PACl3。pH=7.5AlCl33PAClpH6.0。pH6.07.5AlCl3AlOH3、PAClpH。3Fig.3EffectofaluminumdosageofAlCl3andPAClonremovaloffluoride2.44a4pHζ。pH<4.04ζAl3+Al2、Al3pH5.06.04ζpHAlCl3PAClζpH=6.0pH7.0AlCl3ζPAClpH=7.0。pH11.04ζAlCl3ζPACl。3PAClζPACl1>PACl2>PACl3。4pHζ4bR20.95。ζ。Al3OH5+4、Al7OH4+17、Al13O4OH7+24AlOH3am。ζ。4pHAlCl3PAClζζFig.4ζpotentialvariationoverwidepHrangesforfourcoagulantsandremovedfluorideplottedwithζpotentialforAlCl3andPAClatdifferentpH66526pH54。3460cm-1—OH1625cm-1—OHF-—OH。3PACl3460cm-11625cm-1PAClAl—OH16。54965cm-1590cm-1。965cm-1AlF2+、AlF+2AlF3。PAClAlCl3590cm-1965cm-1AlCl3PACl。5Fig.5FTIRofAlCl3andPAClbeforeandafterdefluoridationprocesspH6。pH3~5/pH5~7.5AlOH3Al13/AlOH3。pH>7.5AlOH3。6Fig.6SchematicdiagramofmechanismsfordefluoridationforAlindifferentforms3pH。pH5~6Al3+Al2、Al3AlCl3PAClAlCl3A1OH3。AlCl3。pH>7PAClAlCl3PACl。4ζζ。1AyoobS.GuptaA.K.Fluorideindrinkingwaterareviewonthestatusandstresseffects.CriticalReviewsinEnviron-mentalScienceandTechnology2006366433-4872MohapatraM.AnandS.MishraB.K.etal.Reviewoffluorideremovalfromdrinkingwater.JournalofEnviron-mentalManagement200991167-773MaJianqingShenYuShenChensietal.Al-dopingchi-tosan-FeIIIhydrogelfortheremovaloffluoridefroma-queoussolutions.ChemicalEngineeringJournal20142481598-1064ArarO.YavuzE.YukselU.etal.SeparationoflowconcentrationoffluoridefromwaterbyelectrodialysisED76529inthepresenceofchlorideandsulfateions.SeparationSci-enceandTechnology20094471562-15735ChangM.F.LiuJ.C.Precipitationremovaloffluoridefromsemiconductorwastewater.JournalofEnvironmentalEngineering20071334419-4256DengShuboLiuHanZhouWeietal.Mn-Ceoxideasahigh-capacityadsorbentforfluorideremovalfromwater.JournalofHazardousMaterials20111862-31360-13667WuXiaomeiZhangYuDouXiaominetal.Fluoridere-movalperformanceofanovelFe-Al-Cetrimetaloxidead-sorbent.Chemosphere200769111758-17648LuN.C.LiuJ.C.Removalofphosphateandfluoridefromwastewaterbyahybridprecipitation-microfiltrationprocess.SeparationandPurificationTechnology2010743329-3359KhatibikamalV.TorabianA.JanpoorF.etal.Fluor-ideremovalfromindustrialwastewaterusingelectrocoagula-tionanditsadsorptionkinetics.JournalofHazardousMate-rials20101791-3276-28010Dol
本文标题:pH对铝盐絮凝剂形态分布与混凝除氟性能的影响鞠佳伟
链接地址:https://www.777doc.com/doc-6539971 .html