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,,,,,,,,,,,,,,,,,,,!,,,,,,,,,,,,,,,,,,,,,,,,!,,,,,,,,,,!∀!#,,254,,rPp,,andwastegypsumorsludgefromfluegasdesulPhu-rization,whicharetheprineipalsourcesofsolidwastesfromeoaleombustion.Formationofgreengranulesandtheirdurabilitywereaffectedbasi-callybyhaththemixturepartitionandthe,thoughtn,al-lowingtheeoneentrationofmereuryinwastewa-tertobereducedfrominitial50mg/Ltofinal0.00044mg/L.TheTCeatalysteanbere,andeanberegeneratedbyHCIifitsactivityhasbeenreducedtoaeertainextent.ThisProcesshasbeenaPPliedtothetreatmentoffivedif,givingsatisfaetoryresults.Keywo,wastewatertreat-ment,catalyst.of1200,,fly,nuegasdesulphurizationsludge,utilizationofwastes,XiangtanUniv.,,16(3),1995,PP.32,themeehanismsandprocessesforre-,,itmayavoidscalingonthewallsofequiPmentandslugging,andmaynotneedaoxi-dationprocessforprodueinggypsum.Forthesereasons,there15alowinvestmentinequiPmentandalowoPerationeost.Keywords:fluegas,desulphuri,man-ganeseion,eatalytieoxidation..ofChem.fortheEfficientRemovalOfSolu-fremw,NingboNormalUniv.,Ning-315020):,16(3),,1995,PP.35,ShandongUniv.,Jinan250100):C,16(3),1995,PP.39,amaximumCODvo-lumeloadof6.71kg/(m,,andaCODre-movalrateof95.7%.NotonlyeanthepollutionofwastewaterbeeliminatedefteetivelybutthehaeterialmudcanalsobeusedasanimP0rtantsoureeoffeedadditive.Keywords:Photosynthetiebaeteria,wastewatertreatment,removalrateofCOD,CODvolumeload.PreParat,SouthChinaUniv.ofTechnology,Gangzhou510641):Chin.J.E,16(3),1995,PP.41,sulPhur,eolorandCOD.EsPecially,forthoseh,FAShasasPec,re-spectively.ThedecoloringmechanismofdyeswasfoundtobemainlythroughformingtheircoordinationeomPoundswithmetalionsinFAS.K,dyeingwastewater,de-eoloringmechanism.