搜索
/111211.3300312.330031/。COD、TN、NO-3-N、NO-2-N、TP53.7%、45.0%、34.0%、54.5%、48.7%50.5%。COD、TNTP30.2~31.4℃。TNTNR2=0.6174TPTPR2=0.9130。、、。X505A1000-4602201121-0011-04“”2007BAB23C02CombinedProcessofMulti-surfaceFlowConstructedWetlandandOxidationPondforTreatmentofMicro-pollutedRawWaterWANJin-bao1LANXin-yi1TANGAi-ping12LIUFeng11.SchoolofEnvironmentalandChemicalEngineeringNanchangUniversityNanchang330031China2.SchoolofEnvironmentalandChemicalEngineeringNanchangHangkongUniversityNanchang330031ChinaAbstractThecombinedprocessofmulti-surfaceflowconstructedwetlandandoxidationpondwasusedtotreatmicro-pollutedrawwaterfromfishpondaquacultureandagriculturalproductionandthepollutantremovaleffectoftheconstructedwetlandwasinvestigated.Theresultsshowthatthetreatmenteffectofmicro-pollutedrawwaterbywetlandsystemisverysignificant.InthewholemonitoringperiodtheaverageremovalratesofCODTNNO-3-NNO-2-NTPandsolubleTPare53.7%45.0%34.0%54.5%48.7%and50.5%respectively.Thequalityofthefinaleffluentmeetsthestandardofwaterenvironmentalfunctionarea.AstemperatureisincreasedtheremovalratesofCODTNandTPareincreased.Inparticulartheirremovalratesareincreasedsharplyat30.2℃to31.4℃.FortheconstructedwetlandthereisapoorcorrelationbetweenTNloadandremovalrateR2=0.6174butthereisagoodcorrelationbetweenTPloadandremovalrateR2=0.9130.Becauseoflessinvest-mentgoodeffectsimpleoperationandmanagementthesurfaceflowconstructedwetlandsystemhasagoodapplicationprospectinreductionofpollutionloadintothelake.·11·2721201111CHINAWATER&WASTEWATERVol.27No.21Nov.2011Keywordsmulti-surfaceflowconstructedwetlandoxidationpondmicro-pollutedrawwa-tertemperature、、、、、、。39.6×104hm2537.5×104hm2。1。。、、、、。。11.12hm21400m2。、、8、。。。Ⅳ。1.220095100m3/d。COD31.06mg/LTN1.289mg/LNO-3-N0.491mg/LNO-2-N0.026mg/LTP0.106mg/L0.039mg/L。《》GB3838—2002Ⅴ。1.31。。。、、20/m2。。230、266、488m20.43、0.38、0.21m3/m2·d0.4m。1Fig.1PlanlayoutofwetlandsystemPVC0.2m。4/m2。PVC。550m21.2m0.18m3/m2·d。1.420095712。1630、。CODTN—NO-3-NNO-2-NTP6350M。SPSS17.0Origin6.0。22.11。COD、TN、NO-3-N、·21·2721.watergasheat.comNO-2-N、TP、53.7%、45.0%、34.0%、54.5%、48.7%、50.5%。GB3838—2002COD、TN、TPⅤ、ⅣⅢⅠ、ⅢⅡ。Ⅲ。1、Tab.1Characteristicofinflowandoutflowmg·L-1±±COD21.50~49.7031.06±9.387.17~27.0015.00±7.92TN0.487~2.4901.289±0.7840.115~1.6870.724±0.566NO-3-N0.126~0.8950.491±0.2560.027~0.7790.365±0.251NO-2-N0.008~0.0560.026±0.0150.001~0.0480.014±0.014TP0.051~0.1580.106±0.0310.018~0.0900.056±0.0230.013~0.0880.039±0.2830.003~0.0480.021±0.0172COD。53.7%361%~94%。、。4。5。、6。TP48.7%50.5%。2.2COD、TNTP2。4.3~31.4℃2COD、TNTP。—。。230.2~31.4℃30.2~31.4℃。2Fig.2Effectoftemperatureonpollutantsremoval2.36TNTP。TNTNy=0.404x+0.006R2=0.6174TPTPy=0.401x+0.0005R2=0.91307。。2.49.27、、、、927/m30.1/m3。。3①/COD、TN、·31·.watergasheat.com/2721NO-3-N、NO-2-N、TP、53.7%、45.0%、34.0%、54.5%、48.7%、50.5%。②COD、TNTP30.2~31.4℃。③TNTNR2=0.6174TPTPR2=0.9130。。④、、。1.J.20093731292-1293.2.COD、J.200415122337-2341.3RousseauDPLVanrolleghemPAPauwN.ConstructedwetlandsinFlandersaperformanceanalysisJ.EcolEng2004233151-163.4.J.20062682670-2677.5.J.2008173923-925.6BubbaMDAriasCABrixH.PhosphorusadsorptionmaximumofsandsforuseasmediainsubsurfaceflowconstructedreedbedsasmeasuredbytheLangmuiriso-thermJ.WaterRes200337143390-3400.7.J.20071651372-1375.1952-。E-mail@163.com櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵櫵2011-04-2510。。②DODO。③。。④。1.M.2005.2.J.200732145-146.3TanwarPNandyTKhanRetal.IntermittentcyclicprocessforenhancedbiologicalnutrientremovaltreatingcombinedchemicallaboratorywastewaterJ.BioresourTechnol200798132473-2478.4BalkuS.Comparisonbetweenalternatingaerobic-anoxicandconventionalactivatedsludgesystemsJ.WaterRes200741102220-2228.5.4M.2002.6HartleyKJ.Controllingsludgesettleabilityintheoxida-tionditchprocessJ.WaterRes2008426/71459-1466.1968-。13649201248E-mailguochangzi@sust.edu.cn2011-05-06·41·2721.watergasheat.com