生物电化学系统中电活性生物膜催化污染物降解的研究进展
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摘要
近年来,以电活性生物膜为基础构建而成的生物电化学系统成为环境领域的研究热点之一,其功能主要包括废水的处理和能源回收等。本文根据电活性生物膜在阳极与阴极功能的不同,介绍了阳极电活性生物膜以直接或间接方式为主的电子传递机制,其具备从多种污染物中回收电子的能力;阴极电活性生物膜具备高度的多样性和特异性,可以催化难降解污染物的还原降解。与此同时,本文也分析了电活性生物膜在现阶段研究的不足之处,包括较低的阳极产电功率密度以及阴极还未清晰的电子传递机制等问题。本文的分析表明,根据实际废水成分的不同,需要控制电活性生物膜群落的结构,实现不同功能微生物在电活性生物膜的协作,并通过对实际废水进行预处理,或者对电极材料进行优化来辅助电活性生物膜的催化过程,有助于达到高效去除废水中污染物的目的。
In recent years,bioelectrochemical system(BES) which based on electroactive biofilms(EAB)is proposed as one of hot topics in environmental field for pollutants degradation of wastewater and energy recovery.According to the different roles of EABs between anode and cathode,we presented the direct and indirect electron transfer mechanisms of anode EABs with an ability of electron recovery from various pollutants'.The cathode EABs had a high diversity and specificity for catalytic reductive degradation of the refractory pollutants.Meanwhile, we also analyzed the deficiencies of EABs at the present stage,including the lower power density of electrogenesis in anode and the unclear extracellular electron transfer in cathode.These analyses indicated that the EABs community structures need to be controlled for the cooperation of different functional microbes in EABs according to the difference of actual wastewater composition,and the catalytic process of EABs can be assisted to achieve the aim of efficient pollutants removal from waste water by the pretreatment of actual wastewater or improving the electrode materials.
In recent years,bioelectrochemical system(BES) which based on electroactive biofilms(EAB)is proposed as one of hot topics in environmental field for pollutants degradation of wastewater and energy recovery.According to the different roles of EABs between anode and cathode,we presented the direct and indirect electron transfer mechanisms of anode EABs with an ability of electron recovery from various pollutants'.The cathode EABs had a high diversity and specificity for catalytic reductive degradation of the refractory pollutants.Meanwhile, we also analyzed the deficiencies of EABs at the present stage,including the lower power density of electrogenesis in anode and the unclear extracellular electron transfer in cathode.These analyses indicated that the EABs community structures need to be controlled for the cooperation of different functional microbes in EABs according to the difference of actual wastewater composition,and the catalytic process of EABs can be assisted to achieve the aim of efficient pollutants removal from waste water by the pretreatment of actual wastewater or improving the electrode materials.
引文
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[4]KIM N,CHOI Y,JUNG S,et al.Effect of initial carbon sources on the performance of microbial fuel cells containing Proteus vulgaris[J].Biotechnology and Bioengineering,2000,70(1):109-114.
[5]OKAMOTO A,SAITO K,INOUE K,et al.Uptake of self-secreted flavins as bound cofactors for extracellular electron transfer in Geobacter species[J].Energy&Environmental Science,2014,7(4):1357-1361.
[6]GOLDSTEIN R,SMITH W.Water&sustainability(volume 4):US electricity consumption for water supply&treatment-the next half century[M].Washington,DC:Electric Power Research Institute,2002.
[7]MIN B,KIM J,OH S,et al.Electricity generation from swine wastewater using microbial fuel cells[J].Water Research,2005,39(20):4961-4968.
[8]HE Z,KAN J,WANG Y,et al.Electricity production coupled to ammonium in a microbial fuel cell[J].Environmental Science&Technology,2009,43(9):3391-3397.
[9]RABAEY K,VAN DE SOMPEL K,MAIGNIEN L,et al.Microbial fuel cells for sulfide removal[J].Environmental Science&Technology,2006,40(17):5218-5224.
[10]CATAL T,FAN Y,LI K,et al.Effects of furan derivatives and phenolic compounds on electricity generation in microbial fuel cells[J].Journal of Power Sources,2008,180(1):162-166.
[11]丁巍巍,汪家权,吕剑,等.微生物燃料电池处理苯酚废水[J].合肥工业大学学报(自然科学版),2010,33(1):94-96.
[12]ZHANG T,GANNON S M,NEVIN K P,et al.Stimulating the anaerobic degradation of aromatic hydrocarbons in contaminated sediments by providing an electrode as the electron acceptor[J].Environmental Microbiology,2010,12(4):1011-1020.
[13]HU W J,NIU C G,WANG Y,et al.Nitrogenous heterocyclic compounds degradation in the microbial fuel cells[J].Process Safety and Environmental Protection,2011,89(2):133-140.
[14]LUO H,LIU G,ZHANG R,et al.Phenol degradation in microbial fuel cells[J].Chemical Engineering Journal,2009,147(2):259-264.
[15]MOHAN S V,SRIKANTH S,SARMA P N.Non-catalyzed microbial fuel cell(MFC)with open air cathode for bioelectricity generation during acidogenic wastewater treatment[J].Bioelectrochemistry,2009,75(2):130-135.
[16]PANT D,VAN BOGAERT G,DIELS L,et al.A review of the substrates used in microbial fuel cells(MFCs)for sustainable energy production[J].Bioresource Technology,2010,101(6):1533-1543.
[17]HEILMANN J,LOGAN B E.Production of electricity from proteins using a microbial fuel cell[J].Water Environment Research,2006:78(5):531-537.
[18]MIN B,LOGAN B E.Continuous electricity generation from domestic wastewater and organic substrates in a flat plate microbial fuel cell[J].Environmental Science&Technology,2004,38(21):5809-5814.
[19]ISLAM M A,KHAN M R,YOUSUF A,et al.Electricity generation form pretreated palm oil mill effluent using Klebsiella Variicola as an inoculum in microbial fuel cell[C]//4th International Conference on the Development in the in Renewable Energy Technology,IEEE,2016:1-4.
[20]AGARRY S,OGHENEJOBOH K,SOLOMON B.Bioelectricity production from cassava mill effluents using icrobial fuel cell technology[J].Nigerian Journal of Technology,2016,35(2):329-336.
[21]ABBASI U,JIN W,PERVEZ A,et al.Anaerobic microbial fuel cell treating combined industrial wastewater:correlation of electricity generation with pollutants[J].Bioresource Technology,2016,200:1-7.
[22]FENG Y,WANG X,LOGAN B E,et al.Brewery wastewater treatment using air-cathode microbial fuel cells[J].Applied Microbiology and Biotechnology,2008,78(5):873-880.
[23]LU N,ZHOU S G,ZHUANG L,et al.Electricity generation from starch processing wastewater using microbial fuel cell technology[J].Biochemical Engineering Journal,2009,43(3):246-251.
[24]HUANG L,LOGAN B E.Electricity generation and treatment of paper recycling wastewater using a microbial fuel cell[J].Applied Microbiology and Biotechnology,2008,80(2):349-355.
[25]PATIL S A,SURAKASI V P,KOUL S,et al.Electricity generation using chocolate industry wastewater and its treatment in activated sludge based microbial fuel cell and analysis of developed microbial community in the anode chamber[J].Bioresource Technology,2009,100(21):5132-5139.
[26]VIJAYARAGHAVAN K,AHMAD D,LESA R.Electrolytic treatment of beer brewery wastewater[J].Industrial&Engineering Chemistry Research,2006,45(20):6854-6859.
[27]RABAEY K,BUTZER S,BROWN S,et al.High Current Generation Coupled to Caustic Production Using a Lamellar Bioelectrochemical System[J].Environmental Science&Technology,2010,44(11):4315-4321.
[28]KIM B,PARK H,KIM H,et al.Enrichment of microbial community generating electricity using a fuel-cell-type electrochemical cell[J].Applied Microbiology and Biotechnology,2004,63(6):672-681.
[29]REN Z,WARD T E,REGAN J M.Electricity production from cellulose in a microbial fuel cell using a defined binary culture[J].Environmental Science&Technology,2007,41(13):4781-4786.
[30]SUN M,SHENG G P,MU Z X,et al.Manipulating the hydrogen production from acetate in a microbial electrolysis cell–microbial fuel cell-coupled system[J].Journal of Power Sources,2009,191(2):338-343.
[31]KJELDSEN P,BARLAZ M A,ROOKER A P,et al.Present and long-term composition of MSW landfill leachate:a review[J].Critical Reviews in Environmental Science and Technology,2002,32(4):297-336.
[32]ZHANG J,ZHAO Q,YOU S,et al.Continuous electricity production from leachate in a novel upflow air-cathode membrane-free microbial fuel cell[J].Water Science&Technology,2008,57(7):1017-1021.
[33]G LVEZ A,GREENMAN J,IEROPOULOS I.Landfill leachate treatment with microbial fuel cells;scale-up through plurality[J].Bioresource Technology,2009,100(21):5085-5091.
[34]GREENMAN J,G LVEZ A,GIUSTI L,et al.Electricity from landfill leachate using microbial fuel cells:comparison with a biological aerated filter[J].Enzyme and Microbial Technology,2009,44(2):112-119.
[35]CLAUWAERT P,VAN DER HA D,BOON N,et al.Open air biocathode enables effective electricity generation with microbial fuel cells[J].Environmental Science&Technology,2007,41(21):7564-7569.
[36]STRYCHARZ S M,GLAVEN R H,COPPI M V,et al.Gene expression and deletion analysis of mechanisms for electron transfer from electrodes to Geobacter sulfurreducens[J].Bioelectrochemistry,2011,80(2):142-150.
[37]ROSS D E,FLYNN J M,BARON D B,et al.Towards electrosynthesis in Shewanella:energetics of reversing the Mtr pathway for reductive metabolism[J].Plos One,2011,6(2):e16649.
[38]PAROT S,VANDECANDELAERE I,COURNET A,et al.Catalysis of the electrochemical reduction of oxygen by bacteria isolated from electro-active biofilms formed in seawater[J].Bioresource Technology,2011,102(1):304-311.
[39]JAFARY T,DAUD W R W,GHASEMI M,et al.Biocathode in microbial electrolysis cell:present status and future prospects[J].Renewable&Sustainable Energy Reviews,2015,47:23-33.
[40]许玫英,郭俊,岑英华,等.染料的生物降解研究[J].微生物学通报,2006,33(1):138-143.
[41]PARK H I,KUN K D,CHOI Y J,et al.Nitrate reduction using an electrode as direct electron donor in a biofilm-electrode reactor[J].Process Biochemistry,2005,40(10):3383-3388.
[42]程建萍,孙秋阳,胡淑恒,等.两类阴极菌群微生物燃料电池降解硝酸盐研究[J].合肥工业大学学报(自然科学版),2014,37(10):1168-1172.
[43]梁鹏,张玲,黄霞,等.双筒型微生物燃料电池生物阴极反硝化研究[J].环境科学,2010,31(8):1932-1936.
[44]黄斌,顾丽鹏,任东,等.可溶有机质介导硝基芳香化合物降解研究进展[J].化工进展,2015,34(3):848-856.
[45]WANG A J,CHENG H Y,LIANG B,et al.Efficient reduction of nitrobenzene to aniline with a biocatalyzed cathode[J].Environmental Science&Technology,2011,45(23):10186-10193.
[46]WANG Y Z,WANG A J,LIU W Z,et al.Accelerated azo dye removal by biocathode formation in single-chamber biocatalyzed electrolysis systems[J].Bioresource Technology,2013,146:740-743.
[47]STRYCHARZ S M,GANNON S M,BOLES A R,et al.Reductive dechlorination of 2-chlorophenol by Anaeromyxobacter dehalogenans with an electrode serving as the electron donor[J].Environmental Microbiology Reports,2010,2(2):289-294.
[48]HUANG L P,CHAI X L,QUAN X,et al.Reductive dechlorination and mineralization of pentachlorophenol in biocathode microbial fuel cells[J].Bioresource Technology,2012,111:167-174.
[49]AULENTA F,CANOSA A,REALE P,et al.Microbial reductive dechlorination of trichloroethene to ethene with electrodes serving as electron donors without the external addition of redox mediators[J].Biotechnology and Bioengineering,2009,103(1):85-91.
[50]STRYCHARZ S M,WOODARD T L,JOHNSON J P,et al.Graphite electrode as a sole electron donor for reductive dechlorination of tetrachlorethene by Geobacter lovleyi[J].Applied and Environmental Microbiology,2008,74(19):5943-5947.
[51]LIANG B,CHENG H Y,KONG D Y,et al.Accelerated reduction of chlorinated nitroaromatic antibiotic chloramphenicol by biocathode[J].Environmental Science&Technology,2013,47(10):5353-5361.
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