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20113361248-1251http//xuebao.jxau.edu.cnActaAgriculturaeUniversitatisJiangxiensisE-mailndxb7775@sina.com121*221.3300292./330022、、、。4。、、。4、、、。。X52A1000-2286201106-1248-04ThePhosphorusAdsorptionCharacteristicsofDifferentFillingsinArtificialWetlandZOUXin1JIANMin-fei2SHIXiao-yan1*XUPeng-fei2ZHOUXue-ling21.JiangxiAcademyofEnvironmentScienceNanchang330029China2.CollegeofLifeScienceJian-gxiNormalUniversityJiangxiProvincialKeyLabofProtectionandUtilizationofSubtropicalPlantResourcesNanchang330022ChinaAbstractInthisstudythephosphorusadsorptioncharacteristicsoffourfillingsincludedslimyshaleblackshalehoneycombcinderandriversandwhichwereusedintheconstructedwetlandwerestudiedbyiso-thermaladsorptionexperimentandadsorptionkineticsexperiment.Theresultsoftheisothermaladsorptionex-perimentshowedthatthephosphorusadsorptioncapacityofthefourfillingsincreasedastheinitiativeconcen-trationofthephosphateincreasedandthephosphorusadsorptioncapacityofslimyshaleandhoneycombcin-derwasmuchlargerthanthatofblackshaleandriversand.Intheexperimentofadsorptionkineticsthere-sultsofthecurveindicatedthatthecharacteristicsofthephosphorusadsorptionkineticsinthefourkindsoffillingswerethesame.Atthebeginningtimethephosphoruswasabsorbedveryfastinthedifferentfillingsandthenslowdownuntiltheadsorbancereachedtheadsorptionequilibrium.Theorderofthephosphorusadsorp-tioncapacityinthefourfillingswasthathoneycombcinder>slimyshale>riversands>blackshale.There-sultsindicatedthattheefficiencyofhoneycombcinderandslimyshaleweremuchbetterthanthatoftheothertwofillingswhenbeingusedinremovalphosphorus.2011-09-232011-11-01GJJ10403、2008188、2009ZX07211-0012010AE007001974—E-mailzouxin03@sina.com*E-mailjianminfei0914@163.com。6Keywordsartificialconstructedwetlandfillingsphosphorusadsorptioncharacteristicsconstructedwetlands、、、、、、、-1。“——”、、、、、2-3。4-5。6。、、7-8。“”“”9-10。、、、、、、、、11-13、。。4。11.100000249、UV-2100-UNICO、WGL-45B、TGL-16G、WXJ-Ⅲ、SCS-24、Varian725-ES、BELSORP-miniⅡ、HOR-IBALA-950。1.222。60105℃2h。Varian725-ESBELSORP-miniⅡHORIBALA-950。1.3105℃2h605g100mL。KH2PO420mL。225℃170r/min24h30min3000r/min10minTP143。1.4105℃2h6010g100mL。20mL100mg/LKH2PO425℃170r/min2481218303648h3000r/minP2.33。22.141。2Ca25%SiSi。42。·9421·3314Fig.1Thephosphorusadsorptionisothermcurveoffourfillings2Fig.2Effectofinitialconcentrationonefficiencyofphosphorusremoval14Tab.1Chemicalelementscontentofthefourfillings%FillingnameChemicalelementsFeAlSiMgCaKNaSlimyshale0.1310.2950.5366.72333.3510.02080.039Blackshale7.5317.01621.6403.9515.9950.8781.340Honeycombcinder3.52713.96021.7700.4642.1142.1080.627Riversand1.3134.34029.5600.1750.1442.7010.23524Tab.2PhysicalpropertiesofthefourfillingsFillingname/Granulardiameter/nmMeanaperture/m2·g-1Specificarea/%Porosity/g·cm-3DrycapaucitySlimyshale601.7880.28648.327.834Blackshale602.1060.12850.241.481Honeycombcinder602.0240.27943.210.709Riversand601.9520.77558.622.6462.21。14。。150mg/L。2。50mg/L。·0521·634Fig.3Thephosphorusadsorptionkineticcurveoffourfillings2.343。43、、、。4、、4h12h。12~48h。115—124。314150mg/L。4、、、。250mg/L。。34、、。、、、。4。、。5、COD。1.—J.200624176-78.2LiXFJiangCC.ConstructedwetlandsystemsforwaterpollutioncontrolinNorthChinaJ.WatSciTech1995323349-356.3.J.1998175232-234.4.J.200410513-16.5.J.2003224454-457.6.4J.2006321137-40.7.J.200526151-55.8.COD、Zn2+J.199584276-283.9.J.20045671-75.10.J.2006226985-988.11.5-J.2008248232-235.12.4J.20104144-48.13.J.20062327-11.14.M.4.2002246-248.·1521·