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OALib Journal期刊
ISSN: 2333-9721
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optimizationofdoublechambermicrobialfuelcellfordomesticwastewatertreatmentandelectricityproduction
, PP. 1092-1099
amr, el-hag, ali, ola, m., gomaa, reham, fathey, hussein, abd, el, kareem, mohamed, abou, zaid
Keywords: microbialfuelcell,domesticwastewatertreatment,operatingconditions,electricityproduction
Abstract:
?microbialfuelcells(mfcs)representanewapproachfortreatingwastewateralongwithelectricityproduction.thepresentstudyaddressedelectricityproductionfromdomesticwastewaterusingamediator-lessdoublechambermfc.theelectricityproductionwasmonitoredunderdifferentoperationalconditionsforbothsummerandwintersamples.optimizationoftheanodicandcathodicchambersresultedinamaximalcurrentof0.784and0.645mawiththemaximalpowerintensityof209and117mw/m2inpowerdurationof24hforthesummerandwintersamples,respectively.scanningelectronmicroscopyshowedthatthebacterialbiofilmformationontheanodewasdenserforthesummersamplethanthatwhenthewintersamplewasused,sowasthetotalbacterialcount.therefore,samplestakenduringsummerwereconsideredbetterinelectricityproductionandwastewatertreatmentthanthosetakenduringwinterbasicallybecauseofthehighmicrobialloadduringthehotseason.inparallel,therewasadecreaseinbothbiologicaloxygendemand(bod5)andchemicaloxygendemand(cod)valueswhichreached71.8%and72.85%,respectivelyattheendoftheoperationprocessforthesummersample,whiletherewasnoevidentdecreaseforthewintersample.optimizingtheoperatingconditionsnotonlyincreasedthepotentialofusingdomesticwastewaterinmicrobialfuelcellstoproduceelectricity,butalsoimprovedthequalityofthedomesticwastewater.
| [1] | ohs,minb,loganbe.cathodeperformanceasafactorinelectricitygenerationinmicrobialfuelcells[j].environscitechnol2004,38:4900-4904.
|
| [2] | fengy,wangx,loganbe,leeh.brewerywastewatertreatmentusingair-cathodemicrobialfuelcells[j].applmicrobiolbiotechnol,2008,78:873-880.
|
| [3] | kimbh,parkhs,kimhj,kimgt,changis,leej,phungni.enrichmentofmicrobialcommunitygeneratingelectricityusingafuel-cell-typeelectrochemicalcell[j].applmicrobiolbiotechnol,2004,63(6):672-681.
|
| [4] | pantd,vanbg,dielsl,vanbroekhovenk.areviewofthesubstratesusedinmicrobialfuelcells(mfcs)forsustainableenergyproduction[j].bioresourtechnol,2010,101:1533-1543.
|
| [5] | ahny,loganbe.effectivenessofdomesticwastewatertreatmentusingmicrobialfuelcellsatambientandmesophilictemperatures[j].bioresourtechnol,2010,101:469-475.
|
| [6] | baranitharane,khanmr,yousufa,teowfa,tangya,chengck.enhancedpowergenerationusingcontrolledinoculumfrompalmoilmilleffluentfedmicrobialfuelcell[j].fuel,2015,143:72-79.
|
| [7] | greenmanj,galveza,giustil,ieropoulosi.electricityfromlandfillleachateusingmicrobialfuelcells:comparisonwithabiologicalaeratedfilter[j].enzymemicrobtechnol,2009,44(2):112-119.
|
| [8] | adelajao,keshavarzt,kyazzeg.enhancedbiodegradationofphenanthreneusingdifferentinoculumtypesinamicrobialfuelcell[j].englifesci,2014,14(2):218-228.
|
| [9] | americanwaterworksassociationwef.apha.standardmethodsfortheexaminationofwaterandwastewater[m].1999.
|
| [10] | [jp3]alonso-fagundezn,lasernav,alba-rubioac,mengibarm,herasa,mariscalr,lopezgrandosm.poly-(styrenesulphonicacid):anacidcatalystfrompolystyrenewasteforreactionsofinterestinbiomassvalorization[j].cataltoday,2014,234:285-294.
|
| [11] | abdel-rehimha,hegazyea,el-hagalia.selectiveremovalofsomeheavymetalionsfromaqueoussolutionusingtreatedpolyethylene-g-styrene/maleicanhydridemembranes[j].reactfuncpolym,2000,43(1/2):105-116.
|
| [12] | liug,yatesmd,chengs,calldf,sund,loganbe.examinationofmicrobialfuelcellstart-uptimeswithdomesticwastewaterandadditionalamendments[j].bioresourtechnol,2011,102(15):7301-7306.
|
| [13] | yous,zhaoq,zhangj,jiangj,zhaos.amicrobialfuelcellusingpermanganateasthecathodicelectronacceptor[j].jpowersources,2006,162(2):1409-1415.
|
| [14] | zhoux,quy,kimbh,choopy,liuj,duy,hew,changis,renn,fenn.effectsofazideonelectrontransportofexoelectrogensinair-cathodemicrobialfuelcells[j].bioresourtechnol,2014,169:265-270.
|
| [15] | larossa-guerreroa,scottk,headim,mteof,gintesaa,godinezc.effectoftemperatureontheperformanceofmicrobialfuelcells[j].fuel,2010,89(12):3985-3994.
|
| [16] | el-hagalia,abdel-aala.conductivethinfilmformationontoradiationgraftedpolymericsurfacesusingelectrolessplatingtechnique[j].polymadvtechnol,2009,20(9):729-735.
|
| [17] | el-hagalia,mostafatb,raafatai.chemicalmodification-inducedimprovementintheelectricalcharacteristicsofradiation-functionalizedpolypropylenesheets[j].polymint,2010,59(4):557-5561.
|
| [18] | zhongsl,cuixj,gaoys,liuwc,dous.fabricationandpropertiesofpoly(vinylalcohol)-basedpolymerelectrolytemembranesfordirectmethanolfuelcellapplications[j].intjhydrognenergy,2014,39(31):17857-17864.
|
| [19] | zhangzx,chattotr,bonorandl,jetsrisuparbk,buchmullery,wokauna,gublerl.massspectrometrytoquantifyandcomparethegasbarrierpropertiesofradiationgraftedmembranesandnafion[j].jmembsci,2014,472:55-66.
|
| [20] | liny,hoh.investigationsonthedrugreleasingmechanismfromanasymmetricmembrane-coatedcapsulewithaninsituformeddeliveryorifice[j].jcontrolrel,2003,89(1):57-69.
|
| [21] | [jp5]youngjc,baumanner.theelectrolyticrespirometer—iiuseinwaterpollutioncontrolplantlaboratories[j].waterres,1976,10(12):1141-1149.
|
| [22] | materialsasfta.annualbookofstandards.standardtestmethodsforchemicaloxygendemand(dichromateoxygendemand)ofwater[m].philadephia,pa.1995.
|
| [23] | eatonad,lsc,aeg.standardmethodsfortheexaminationofwaterandwastewater.in:americanpublichealthassociationawa,editor.19theditioned:waterenvironmentfederation[m].2005.
|
| [24] | [jp3]rabaeyk,verstraetew.microbialfuelcells:novelbiotechnologyforenergygeneration[j].trendsbiotechnol,2005,23(6):291-298.
|
| [25] | ieropoulosia,greenmanj,melhuishc,hartj.comparativestudyofthreetypesofmicrobialfuelcell[j].enzymemicrobtechnol,2005,37(2):238-245.
|
| [26] | raghavulusv,mohansv,goudrk,sarmapn.effectofanodicphmicroenvironmentonmicrobialfuelcell(mfc)performanceinconcurrencewithaeratedandferricyanidecatholytes[j].electrochemcomm,2009,11(2):371-375.
|
| [27] | tsuchiyamf.iontransportinprokaryotes[b].sandiego:academicpress,inc.;1987.
|
| [28] | weil,hanh,shenj.effectsofcathodicelectronacceptorsandpotassiumferricyanideconcentrationsontheperformanceofmicrobialfuelcell[j].intjhydrogenenergy,2012,37(17):12980-12986.
|
| [29] | rabaeyk,boonn,sicilianosd,verhaegem,verstraetew.biofuelcellsselectformicrobialconsortiathatself-mediateelectrontransfer[j].applenvironmicrobiol,2004,70(9):5373-82.
|
| [30] | luoh,liug,zhangr,jins.phenoldegradationinmicrobialfuelcells[j].chemengj,2009,147(2/3):259-264.
|
| [31] | loganbe,muranoc,scottk,graynd,headim.electricitygenerationfromcysteineinamicrobialfuelcell[j].waterres,2005,39(5):942-52.
|
| [32] | xiaob,yangf,liuj.evaluationofelectricityproductionfromalkalinepretreatedsludgeusingtwo-chambermicrobialfuelcell[j].jhazardmater,2013,254-255:57-63.
|
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