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3611201611ActaScientiaeCircumstantiaeVol.36No.11Nov.2016No.KJ2013A059SupportedbytheScienceResearchProjectofCollegesandUniversitiesinAnhuiProvinceNo.KJ2013A0591966—E-mailhxb1612@ahut.edu.cn*E-mailyebbh1210@126.comBiographyHUXiaobing1966—maleassociateprofessorPh.D.E-mailhxb1612@ahut.edu.cn*CorrespondingauthorE-mailyebbh1210@126.comDOI10.13671/j.hjkxxb.2016.0134.2016.J.36114062-4069HuXBYeXZhouYKetal.2016.TheeffectofextracellularpolymericsubstancesonadsorptionofthecarbonsourceinsewagebyactivatedsludgeJ.ActaScientiaeCircumstantiae36114062-4069132*111111.2430322.2430003.2430322015-12-062016-03-162016-04-02SB-EPS、LB-EPSTB-EPS、EPSEPSCODLagergern、Ritchie.、-SB-LBLagergernRitchie.EPSLB-EPSTB-EPS.SB-EPS0.650mg·mg-1、3.37mg·mg-10.0997min-1、0.0390min-1SB-EPS.TB-EPS1.06mg·mg-1、0.443mg·mg-110.7min-1、0.183min-1TB-EPS.LB-EPS.0253-2468201611-4062-08X172X703ATheeffectofextracellularpolymericsubstancesonadsorptionofthecarbonsourceinsewagebyactivatedsludgeHUXiaobing13YEXing2*ZHOUYuankai1RAOQiang1ZHURongfang1QIXiaohong1ZHONGMeiying1.CollegeofArchitecturalEngineeringAnhuiUniversityofTechnologyMa'anshan2430322.CollegeofEnergyandEnvironmentAnhuiUniversityofTechnologyMa'anshan2430003.EngineeringResearchCenterofWaterPurificationandUtilizationTechnologybasedonBiofilmProcessMinistryofEducationMa'anshan243032Received6December2015receivedinrevisedform16March2016accepted2April2016AbstractToexploretheeffectsofdifferentextracellularpolymericsubstancesslime-EPSLB-EPSandTB-EPSontheadsorptioncharacteristicsoftheactivatedsludgesuchasculturedsludgeandsewagesludgetheorganicpollutantsCODadsorptioncharacteristicsofdifferentEPSlayersinurbansewagehasbeeninvestigatedthroughextractionofEPSindifferentlayersafterheating.ThereforethreedynamicalmodelshavebeenproposedtounderstandtheadsorptionprocessincludingLagergern'smonolayeradsorptionkineticsequationRitchie'sbilayeradsorptionkineticsequationandparticlediffusionequation.Theresultsshowthattheadsorptioncharacteristicsofbothuntreatedsludgeand-SBslimeboundextracellularpolymericsubstancessludgefromtwosourceswellconformtotheLagergern'sequationandRitchie'sequationfurtherindicatingthatbothmonolayerandbilayeradsorptionoccursintheprocessofsludgeadsorption.ThecontentofEPSgraduallyincreasesfromtheouterlayertotheinnerlayeroftheactivatedsludge.TheratioofproteintopolysaccharideintheouterlayerissmallerthanthatintheinnerlayerhowevertheratioofproteintopolysaccharideintheouterlayerforLB-EPSishigherthanthatforTB-EPSofcultivatedsludge.TheadsorbedSB-EPSinthecultivatedsludgeis0.650mg·mg-1andthatinthesewagetreatedplantisaslargeas3.37mg·mg-1.Comparedtotherawsludgetheadsorptionratesincreaseby0.0997min-1and0.0390min-1forthe10abovetwosludgesrespectively.ThereforeitcanbeconcludedthattheSB-EPScanabsorborganicpollutantswithalowadsorptionrate.TheadsorptioncapacitiesofTB-EPStightlyboundextracellularpolymericsubstancesEPSfortwosludgesare1.06mg·mg-1and0.443mg·mg-1respectively.Theadsorptionratesincreaseby10.7min-1and0.183min-1respectivelycomparedtotherawsludge.ThecompactstructureofTB-EPSresultsinalowadsorptionratebutTB-EPScanabsorbthepollutantsontheextracellularsubstanceswithoutbeingreleased.TheLB-EPScannotstorepollutantsbutitcandeliverpollutantstotheinnerlayerrapidly.Keywordsextractextracellularpolymericsubstancesludgeadsorptiondynamicsmodelcarboninwastewater1Introduction19992011.EPS50%~90%Shengetal.20102013.EPS、、、、Shengetal.2010.EPSEPSZhangetal.2014Liuetal.2015Tourneyetal.2009Wangetal.2014Liu2015EPSPbⅡ、CdⅡZnⅡEPS31587.3mg·g-1、1470.6mg·g-11123.6mg·g-1Wei2011EPSEPSCdEPSUeshima2008EPSCd.EPSEPSWei2015EPSEPSGao2011EPS4、、、EPSSheng2008、EPS、EPS-EPSEPS.EPSEPSslimeboundextracellularpolymericsubstancesSB-EPS、looselyboundextracellularpolymericsubstancesLB-EPStightlyboundextracellularpolymericsubstancesTB-EPS2013Yuetal.2007.GuoGuoetal.2015TB-EPS、、TB-EPSTB-EPS.EPS.EPS.EPSEPSEPS.2Materialsandmethods2.1A2OSBR.、NH4ClKH2PO4100∶5∶1.24h..、1.3604361、Table1ActivatedsludgeandsewageindicatorsoftestandmainprocessoperationMLSS/mg·L-1MLVSS/mg·L-1SVI/mL·g-1SRT/dDO/mg·L-1pHCOD/mg·L-1NH+4-N/mg·L-1TP/mg·L-16481597669.4255.0~7.07.0~8.0296.8616.934.2751373172112202.0~4.06.8~7.2314.5817.736.352.2EPSEPS2012EPS0.45μmEPS.Folin-EPS2005-EPS2012DNAEPSDNA2013Sunetal.1999.2.3EPSEPS41000mL500mL6000mg·L-12013Ⅰ、Ⅱ、-SB6000g5minSB-EPSpH7.00~7.50-SBSB-EPSⅢ、-LB3000r·min-110min70℃0.1mol·L-1pH=7.4PBS50℃1min6000g10minLB-EPSpH-LBLB-EPSⅣ、-TB3000r·min-110minPBS60℃30min6000g30minTB-EPSpH-TBTB-EPS.pH530minCOD300mL.600mLJJ-4150r·min-15、10、20、30、40、6090min10mLCOD.2.42.4.1EPSRitchie2LagergernRitchie2011.31~3.qt=qe1-exp-k1t1qt=qe1-11+k2()t2qt=k3t0.5+c3qtqetmg·g-1k1、k2LagergernRitchiemin-1k3mg·g-1·min-0.5c.2.4.2EPSEPSEPSSB-EPS=A=qe--SBqe/SB-EPS×MLSS1/1000LB-EPS=B=qe--LBqe-SB-EPS×MLSS2/1000×A/LB-EPS×MLSS2/1000TB-EPS=C=qe--TBqe-SB-EPS×MLSS3/1000×A-LB-EPS×MLSS3/1000×B/TB-EPS×MLSS3/1000MLSS1、MLSS2、MLSS3-SB、-LB、-TB.3Resultsanddiscussion3.1EPSEPS1EPSLB-EPS、TB-EPS4604104.86mg·g-1.EPSDO5.00~7.00mg·L-12.0~4.0mg·L-1EPS2006DOEPSEPSLiao2001SRTEPS.1EPSFig.1ThepictureofEPScompositiondistributionofactivatedsludgeEPSEP