对不同的人工湿地基质除磷性能的比较王媛媛

2005121.4300702.4300701980.62004430070Email:wyywjb@sina.com.cn1957430070Email:zhangyl@mail.hzau.edu.cn200513DrizoshalezeolitelimestonewollastonitedolomiteSFSBFSWilliamZhu[11]AriasH.Brix[13]13SanyalElisabethDrizoDrizoP[15][17]·200514(1)PHCaAlFe(2)(3)666.67[3]KadlecRH,KnightRL.Treatmentwetland.LewisPublishers,ChelseaMI,1996,215-243[4]House,C.H.,Broome,S.W.,Hoover,M.T.,1994.Treatmentofnitrogenandphosphorusbyaconstructedupland-wetlandwastewatertreatmentsystem.WaterSci.Tech.29,177–184[5]Drizo,A.,Frost,C.A.,Smith,K.A.,etal.Phosphateandammoniumremovalbyconstructedwetlandswithhorizontalsubsurfaceflow,usingshaleasasubstrate.Wat.Sci.Tech.,1997,35(5),95-102[6]WilliamE.S.etal.Hydraulicconductivityofgravelandsandassubstratesinrock-reedfilters.EcologicalEngineering,1995,4:321-336[7]DrizoA,FrostCA,GraceJ,eta1.Physico-chemicalscreeningofphosphate-removingsubstratesforUseinconstructedwetlandsystems[J].WatRes,1999b,33(17):3595-3602[8]AndreaS.Brooks.etal.Phosphorusremovalbywollastonite:Aconstructedwetlandsubstrate.EcologicalEngineering[J].2000,15:121-132[9]H.K.Pant,K.R.Reddy,E.Lemon.Phosphorusretentioncapacityofrootbedmediaofsub-surfaceflowconstructedwetlands[J].EcologicalEngineering,2001,17:345–355[10]YuanG,LakulichLM.Phosphateadsorptioninrelationshiptoextractableironandaluminuminspodosol[J].SoilSci.Soc.Am.J.1994,58:343-346[11]ZhuT.Phosphatesorptionandchemicalcharacteristicsoflightweightaggregates(LWA)-Potentialfiltermediaintreatmentwetlands[J].WatSciTech,1997,35(5):103-108[12]AriasCA,BubbaDM,BrixH.PhosphorusremovalbysandsforUsesmediansubsurfaceflowconstructedreedbeds[J].WaterResearch,2001,35(5):1159-1168[13]HBrix,CAArias,MdelBubba.Mediaselectionforsustainablephosphorousremovalinsubsurfacefolwconstructedwetlands[J].WatSciTech,2001,44(11-12):47-54]200515[14]SanyalS.K.,DeDatteS.K.andChanP.Y.PhosphateadsorptionanddesorptionbehaviorofsomeacidicsoilsofSouthandSoutheastAsia.SoilSci.Soc.Am.J,1993,57,937-945[15]ElisabethKvarnström.M.etal.Plant-availabilityofphosphorusinfiltersubstratesderivedfromsmall-scalewastewatertreatmentsystems.EcologicalEngineering,2004,22:1-15[16]DrizoA,ComeauY,ForgetC,ChapuisRP.Phosphorussaturationpotential:Aparameterforestimatingthelongevityofconstructedwetlandsystems.EnvironSciTechnol,2002,36(21):4642-4648[17]H.K.Pant,K.R.Reddy,E.Lemon.Phosphorusretentioncapacityofrootbedmediaofsub-surfaceflowconstructedwetlands.EcologicalEngineering,2001,17:345–355ThestudyondephosphorizationcapabilityofvariousconstructedwetlandmediaYuanyuanWang1,YanlinZhang2,RenjieDong3(1.,YuanyuanWang,CollegeofEngineeringandTechnology,HuazhongAgricultureUniversity,Wuhan,430070,China;2.YanlinZhang,CollegeofEngineeringandTechnology,HuazhongAgricultureUniversity,Wuhan,430070,China;3.RenjieDong,,CollegeofWaterConservancyandCivilEngineering,ChinaAgriculturalUniversity,Beijing,100083,China)Abstract:Becauseofeutrophicationoflakesandstreamsmoreandmoreseriousthedephosphorizationcapabilityofconstructedwetland(CW)waspaidattentionwidely.Andthemediainwetlandisakeyfactorwhichaffectstherun-capabilityofCW.ButthemediainconventionalCW,suchassoil,sandandgravel,havethedisadvantagewithlowdephosphorizationcapability,easy-saturation,easilyclogged,whichaffectedtheuseofCW.So,forreducingphosphoruseffectonacceptingwater,thestudiesondephosphorizationcapabilityofdifferentmediainCWshavedevelopedallaroundtheworld.Afteranalysingseveralmediastudiedatpresent,theauthorconcludesthatallparameterssuchasloadingrate,running-time,wet-dryradioofsystemandthephysical-chemicalcharacteristicsofmediacanaffectthelongevityofmedia.Moreover,itwasthoughtthatshalewasmoresuitableforusingasthemediumofsubsurfaceconstructedwetland(SSFW),inthenextplace,steelfurnacesediment(SFS),zeolite,grasscharcoalalsohavebetterdisposaleffect.keywords:Constructedwetlandmediumdephosphorizationcapabilitywastewatertreatment