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催化学报 2015

Electricityproductionbyamicrobialfuelcellfueledbybrewerywastewaterandthefactorsinitsmembranedeterioration

DOI: 10.1016/S1872-2067(15)60833-6, PP. 1068-1076

Af？,in Y. ？,etinkaya,Emre O？,uz K？,ro？,lu,Neslihan Manav Demir,Derya Y？,lmaz Baysoy,Bestamin ？,zkaya,Mehmet ？,akmak？,？

Keywords: Biofilm,Wastewatertreatment,Anaerobicprocesse,Microbialfuelcell,Microbialcommunity

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Abstract:

？Electricityproductionfrombrewerywastewaterusingdual-chambermicrobialfuelcells(MFCs)withatin-coatedcoppermeshintheanodewasinvestigatedbychangingthehydraulicretentiontime(HRT).TheMFCswerefedwithwastewatersamplesfromtheinlet(inflow,MFC-1)andoutlet(outflow,MFC-2)ofananaerobicdigesterofabrewerywastewatertreatmentplant.BothchemicaloxygendemandremovalandcurrentdensitywereimprovedbydecreasingHRT.ThebestMFCperformancewaswithanHRTof0.5d.Themaximumpowerdensitiesof8.001and1.843μW/cm2wereobtainedfromreactorsMFC-1andMFC-2,respectively.MicrobialdiversityatdifferentconditionswasstudiedusingPCR-DGGEprofilingof16SrRNAfragmentsofthemicroorganismsfromthebiofilmontheanodeelectrode.TheMFCreactorhadmainlyGeobacter,Shewanella,andClostridiumspecies,andsomebacteriawereeasilywashedoutatlowerHRTs.ThefoulingcharacteristicsoftheMFCNafionmembraneandtheresultingdegradationofMFCperformancewereexamined.Theionexchangecapacity,conductivity,anddiffusivityofthemembranedecreasedsignificantlyafterfouling.ThemorphologyoftheNafionmembraneandMFCdegradationwerestudiedusingscanningelectronmicroscopyandattenuatedtotalreflection-Fouriertransforminfraredspectroscopy.

References

[1]	Ozkaya B, Akoglu B, Karadag D, Aci G, Taskan E, Hasar E. Bioprocess Biosyst Eng, 2012, 35: 1219
[2]	Fernando E, Keshavarz T, Kyazze G. Bioresour Technol, 2013, 127: 1
[3]	Lin C W, Wu C H, Huang W T, Tsai S L. Fuel, 2015, 144: 1
[4]	Yang G X, Sun Y M, Yuan Z H, Lü P M, Kong X Y, Li L H, Chen G Y, Lu T H. Chin J Catal (杨改秀, 孙永明, 袁振宏, 吕鹏梅, 孔晓英, 李连华, 陈冠益, 陆天虹. 催化学报), 2014, 35: 770
[5]	Kiely P D, Rader G, Regan J M, Logan B E. Bioresour Technol, 2011, 102: 361
[6]	He Z, Wagner N, Minteer S D, Angenent L T. Environ Sci Technol, 2006, 40: 5212
[7]	Koroglu E O, Yilmaz Baysoy D, Cetinkaya A Y, Ozkaya B, ？akmakci M. Biomass Bioenergy, 2014, 69: 58
[8]	Wen Q, Wu Y, Zhao L X, Sun Q. Fuel, 2010, 89: 1381
[9]	Venkata Mohan S, Mohanakrishna G, Velvizhi G, Babu V L, Sarma P N. Biochem Eng J, 2010, 51: 32
[10]	Zhao F, Harnisch F, Schroder U, Scholz F, Bogdanoff P, Herrmann I. Environ Sci Technol, 2006, 40: 5193
[11]	Kim H J, Park H S, Hyun M S, Chang I S, Kim M, Kim B H. Enzyme Microb Technol, 2002, 30: 145
[12]	Koroglu E O, Ozkaya B, Cetinkaya A Y. Int J Energy Sci, 2014, 4: 28
[13]	Koroglu E O, Ozkaya B, Denktas C, Cakmakci M. J Biosci Bioeng, 2014, 118: 672
[14]	Ghasemi M, Daud W R W, Ismail M, Rahimnejad M, Ismail A F, Leong J X, Miskan M, Ben Liew K. Int J Hydrog Energy, 2013, 38: 5480
[15]	Cheng K, He D P, Peng T, Lv H F, Pan M, Mu S C. Electrochim Acta, 2014, 132: 356
[16]	Choi T H, Won Y B, Lee J W, Shin D W, Lee Y M, Kim M, Park H B. J Power Sources, 2012, 220: 269
[17]	Koskinen P E P, Lay C H, Puhakka J A, Lin P J, Wu S Y, ？rlygsson J, Lin C Y. Biotechnol Bioeng, 2008, 101: 665
[18]	Koskinen P E P, Kaksonen A H, Puhakka J A. Biotechnol Bioeng, 2007, 97: 742
[19]	Behera M, Ghangrekar M M. Bioresour Technol, 2009, 100: 5114
[20]	Yates M D, Kiely P D, Call D F, Rismani-Yazdi H, Bibby K, Peccia J, Regan J M, Logan B E. ISME J, 2012, 6: 2002
[21]	Jadhav G S, Ghangrekar M M. Bioresour Technol, 2009, 100: 717
[22]	Yu J, Park Y, Kim B, Lee T. Bioprocess Biosyst Eng, 2015, 38: 85
[23]	Chae K J, Choi M J, Lee J W, Kim K Y, Kim I S. Bioresour Technol, 2009, 100: 3518
[24]	Dryden S K, He Z, Ley R E, Angenent L T. Unpublished. http://getentry.ddbj.nig.ac.jp/getentry/na/EF515697/?filetype=html
[25]	Morita M, Malvankar N S, Franks A E, Summers Z M, Giloteaux L, Rotaru A E, Rotaru C, Vargas M, Lovley D R. Unpublished. http://getentry.ddbj.nig.ac.jp/getentry/na/FR823540/?filetype=html
[26]	Uria N, Mas J. Unpublished. http://getentry.ddbj.nig.ac.jp/getentry/na/HE856389-HE856491/?filetype=html&limit=100
[27]	Zhang X. Unpublished. http://getentry.ddbj.nig.ac.jp/getentry/na/JQ724353/?filetype=html
[28]	Ludvigsson M, Lindgren J, Tegenfeldt J. Electrochim Acta, 2000, 45: 2267
[29]	Xu L, Wang J N, Meng Y, Li A M. Chin Chem Lett, 2012, 23: 105
[30]	Di Noto V, Piga M, Giffin G A, Lavina S, Smotkin E S, Sanchez J Y, Iojoiu C. J Phys Chem C, 2012, 116: 1370
[31]	Wu Y, Guo J, Yang W L, Wang C C, Fu S K. Polymer, 2006, 47: 5287
[32]	Danilczuk M, Lin L, Schlick S, Hamrock S J, Schaberg M S. J Power Sources, 2011, 196: 8216
[33]	Shin S J, Balabanovich A I, Kim H, Jeong J, Song J, Kim T K. J Power Sources, 2009, 191: 312
[34]	Barbora L, Singh R, Shroti N, Verma A. Mater Chem Phys, 2010, 122: 211
[35]	Belfer S, Fainchtain R, Purinson Y, Kedem O. J Membr Sci, 2000, 172: 113

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