최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Journal of chemical technology and biotechnology, v.93 no.5, 2018년, pp.1290 - 1299
Mateo, Sara (Department of Chemical Engineering, University of Castilla La Mancha, Ciudad Real, Spain) , Zamorano‐López, Nuria (Departament d'Enginyeria Quí) , Borras, Luis (mica, Universitat de Valè) , Fernandez‐Morales, Francisco Jesús (ncia, Valencia, Spain) , Cañizares, Pablo (Departament d'Enginyeria Quí) , Seco, Aurora (mica, Universitat de Valè) , Rodrigo, Manuel (ncia, Valencia, Spain)
AbstractBACKGROUNDThis work is focused on the assessment of the performance of mini‐scale air‐breathing microbial fuel cells (MFCs), by monitoring the evolution of the bio‐electrogenic activity for a period of 40 days and by comparing the microorganisms populations developed in eac...
Penteado ED , Fernandez‐Marchante CM , Zaiat M , Cañizares P , Gonzalez ER and Rodrigo MA , Influence of sludge age on the performance of MFC treating winery wastewater . Chemosphere 151 : 163 – 170 ( 2016 ).
D'Angelo A , Mateo S , Scialdone O , Cañizares P , Fernandez‐Morales FJ and Rodrigo MA , Optimization of the performance of an air‐cathode MFC by changing solid retention time . J Chem Technol Biotechnol 92 :1746–1755 ( 2017 ).
Ledezma P , Greenman J and Ieropoulos I , MFC‐cascade stacks maximise COD reduction and avoid voltage reversal under adverse conditions . Bioresource Technol 134 : 158 – 65 ( 2013 ).
Sun G , Thygesen A and Meyer AS , Acetate is a superior substrate for microbial fuel cell initiation preceding bioethanol effluent utilization . Appl Microbiol Biotechnol 99 : 4905 – 4915 ( 2015 ).
Mateo S , Gonzalez del Campo A , Lobato J , Rodrigo M , Cañizares P and Fernandez‐Morales FJ , Long‐term effects of the transient COD concentration on the performance of microbial fuel cells . Biotechnol Progress 32 : 883 – 890 ( 2016 ).
Sawant SY , Han TH and Cho MH , Metal‐free carbon‐based materials: promising electrocatalysts for oxygen reduction reaction in microbial fuel cells . Int J Mol Sci 18 :25 ( 2017 ).
Lobato J , Zamora H , Plaza J , Cañizares P and Rodrigo MA , Enhancement of high temperature PEMFC stability using catalysts based on Pt supported on SiC based materials . Appl Catal B: Environ 198 : 516 – 524 ( 2016 ).
Lefebvre O , Ooi WK , Tang Z , Abdullah‐Al‐Mamun M , Chua DHC and Ng HY , Optimization of a Pt‐free cathode suitable for practical applications of microbial fuel cells . Bioresource Technol 100 : 4907 – 4910 ( 2009 ).
Lefebvre O , Al‐Mamun A , Ooi WK , Tang Z , Chua DHC and Ng HY , An insight into cathode options for microbial fuel cells . Water Sci Technol 57 : 2031 – 2037 ( 2008 ).
Chang YY , Zhao HZ , Zhong C and Xue A , Effects of different Pt‐M (M = Fe, Co, Ni) alloy as cathodic catalyst on the performance of two‐chambered microbial fuel cells . Russian J Electrochem 50 : 885 – 890 ( 2014 ).
Lobato J , Cañizares P , Fernández FJ and Rodrigo MA , An evaluation of aerobic and anaerobic sludges as start‐up material for microbial fuel cell systems . New Biotechnol 29 : 415 – 420 ( 2012 ).
del Campo AG , Cañizares P , Lobato J , Rodrigo M and Morales FJF , Effects of external resistance on microbial fuel cell's performance . Environment, Energy and Climate Change II , Springer , 175 – 197 ( 2014 ).
del Campo AG , Lobato J , Cañizares P , Rodrigo MA and Morales FJF , Short‐term effects of temperature and COD in a microbial fuel cell . Appl Energy 101 : 213 – 217 ( 2013 ).
Chouler J , Padgett GA , Cameron PJ , Preuss K , Titirici MM , Ieropoulos I et al ., Towards effective small scale microbial fuel cells for energy generation from urine . Electrochimica Acta 192 : 89 – 98 ( 2016 ).
Qian F and Morse DE , Miniaturizing microbial fuel cells . Trends Biotechnol 29 : 62 – 69 ( 2011 ).
Choi S , Microscale microbial fuel cells: advances and challenges . Biosens Bioelectron 69 : 8 – 25 ( 2015 ).
Zhao N , Angelidaki I and Zhang Y , Electricity generation and microbial community in response to short‐term changes in stack connection of self‐stacked submersible microbial fuel cell powered by glycerol . Water Res 109 : 367 – 374 ( 2017 ).
Ieropoulos IA , Greenman J and Melhuish C , Miniature microbial fuel cells and stacks for urine utilisation . Int J Hydrogen Energy 38 : 492 – 496 ( 2013 ).
Ieropoulos I , Greenman J and Melhuish C , Microbial fuel cells based on carbon veil electrodes: stack configuration and scalability . Int J Energy Res 32 : 1228 – 1240 ( 2008 ).
Venkata Mohan S , Veer Raghavulu S and Sarma PN , Influence of anodic biofilm growth on bioelectricity production in single chambered mediatorless microbial fuel cell using mixed anaerobic consortia . Biosens Bioelectron 24 : 41 – 47 ( 2008 ).
Dumas C , Basseguy R and Bergel A , DSA to grow electrochemically active biofilms of Geobacter sulfurreducens . Electrochimica Acta 53 : 3200 – 3209 ( 2008 ).
Schröder U , Anodic electron transfer mechanisms in microbial fuel cells and their energy efficiency . Phys Chem Chem Phys 9 : 2619 – 2629 ( 2007 ).
Reguera G , Nevin KP , Nicoll JS , Covalla SF , Woodard TL and Lovley DR , Biofilm and nanowire production leads to increased current in Geobacter sulfurreducens fuel cells . Appl Environ Microbiol 72 : 7345 – 7348 ( 2006 ).
Liu H , Cheng S and Logan BE , Production of electricity from acetate or butyrate using a single‐chamber microbial fuel cell . Environ Sci Technol 39 : 658 – 662 ( 2005 ).
Rabaey K , Boon N , Siciliano SD , Verhaege M and Verstraete W , Biofuel cells select for microbial consortia that self‐mediate electron transfer . Appl Environ Microbiol 70 : 5373 – 5382 ( 2004 ).
Karra U , Huang G , Umaz R , Tenaglier C , Wang L and Li B , Stability characterization and modeling of robust distributed benthic microbial fuel cell (DBMFC) system . Bioresource Technol 144 : 477 – 484 ( 2013 ).
Kim JR , Beecroft NJ , Varcoe JR , Dinsdale RM , Guwy AJ , Slade RCT et al ., Spatiotemporal development of the bacterial community in a tubular longitudinal microbial fuel cell . Appl Microbiol Biotechnol 90 : 1179 – 1191 ( 2011 ).
Cercado B , Byrne N , Bertrand M , Pocaznoi D , Rimboud M , Achouak W et al ., Garden compost inoculum leads to microbial bioanodes with potential‐independent characteristics . Bioresour Tecnhol 134 : 276 – 284 ( 2013 ).
Miceli Iii JF , Parameswaran P , Kang D‐W , Krajmalnik‐Brown R and Torres CsI , Enrichment and analysis of anode‐respiring bacteria from diverse anaerobic inocula . Environ Sci & Technol 46 : 10349 – 10355 ( 2012 ).
Schamphelaire LD , Bossche LVD , Dang HS , Höfte M , Boon N , Rabaey K et al ., Microbial fuel cells generating electricity from rhizodeposits of rice plants . Environ Sci & Technol 42 : 3053 – 3058 ( 2008 ).
Rousseau R , Santaella C , Achouak W , Godon JJ , Bonnafous A , Bergel A et al ., Correlation of the electrochemical kinetics of high‐salinity‐tolerant bioanodes with the structure and microbial composition of the biofilm . ChemElectroChem 1 : 1966 – 1975 ( 2014 ).
Sulonen MLK , Kokko ME , Lakaniemi A‐M and Puhakka JA , Electricity generation from tetrathionate in microbial fuel cells by acidophiles . J Hazard Mater 284 : 182 – 189 ( 2015 ).
Mäkinen AE , Lay C‐H , Nissilä ME and Puhakka JA , Bioelectricity production on xylose with a compost enrichment culture . Int J Hydrogen Energy 38 : 15606 – 15612 ( 2013 ).
Sun G , Rodrigues DDS , Thygesen A , Daniel G , Fernando D and Meyer AS , Inocula selection in microbial fuel cells based on anodic biofilm abundance of Geobacter sulfurreducens . Chinese J Chem Eng 24 : 379 – 387 ( 2016 ).
Richter H , McCarthy K , Nevin KP , Johnson JP , Rotello VM and Lovley DR , Electricity generation by Geobacter sulfurreducens attached to gold electrodes . Langmuir 24 : 4376 – 4379 ( 2008 ).
Zhang W , Wu H and Hsing IM , Real‐time label‐free monitoring of Shewanella oneidensis MR‐1 biofilm formation on electrode during bacterial electrogenesis using scanning electrochemical microscopy . Electroanalysis 27 : 648 – 655 ( 2015 ).
Sacco NJ , Figuerola ELM , Pataccini G , Bonetto MC , Erijman L and Cortón E , Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells . Bioresource Technol 126 : 328 – 335 ( 2012 ).
Martins G , Peixoto L , Ribeiro DC , Parpot P , Brito AG and Nogueira R , Towards implementation of a benthic microbial fuel cell in lake Furnas (Azores): phylogenetic affiliation and electrochemical activity of sediment bacteria . Bioelectrochemistry 78 : 67 – 71 ( 2010 ).
Ketep SF , Bergel A , Bertrand M , Barakat M , Achouak W and Fourest E , Forming microbial anodes with acetate addition decreases their capability to treat raw paper mill effluent . Bioresource Technol 164 : 285 – 291 ( 2014 ).
Zhang T , Bain TS , Barlett MA , Dar SA , Snoeyenbos‐West OL , Nevin KP et al ., Sulfur oxidation to sulfate coupled with electron transfer to electrodes by Desulfuromonas strain TZ1 . Microbiology 160 : 123 – 129 ( 2014 ).
Badalamenti JP , Summers ZM , Chan CH , Gralnick JA and Bond DR , Isolation and genomic characterization of ‘ Desulfuromonas soudanensis WTL’, a metal‐and electrode‐respiring bacterium from anoxic deep subsurface brine . Frontiers Microbiol 7 :913 ( 2016 ).
Varanasi JL , Sinha P and Das D , Maximizing power generation from dark fermentation effluents in microbial fuel cell by selective enrichment of exoelectrogens and optimization of anodic operational parameters . Biotechnol Lett 39 :721–730 ( 2017 ).
Hodgson DM , Smith A , Dahale S , Stratford JP , Li JV , Grüning A et al ., Segregation of the anodic microbial communities in a microbial fuel cell cascade . Frontiers Microbiol 7 :699 ( 2016 ).
He GQ , Kong Q , Chen QH and Ruan H , Batch and fed‐batch production of butyric acid by Clostridium butyricum ZJUCB . J Zhejiang University: Sci 6B : 1076 – 1080 ( 2005 ).
Li J , Yuan L , Liu Z and Zhou G , Effect of microbial fermentation on electricity production of microbial fuel cells . Chinese J Environ Eng 10 : 4049 – 4054 ( 2016 ).
Lee Y‐Y , Kim TG and Cho K‐S , Characterization of the COD removal, electricity generation, and bacterial communities in microbial fuel cells treating molasses wastewater . J Environ Sci Health, Part A 51 : 1131 – 1138 ( 2016 ).
Park HS , Kim BH , Kim HS , Kim HJ , Kim GT , Kim M et al ., A novel electrochemically active and Fe (III)‐reducing bacterium phylogenetically related to Clostridium butyricum isolated from a microbial fuel cell . Anaerobe 7 : 297 – 306 ( 2001 ).
Ho IP , Sanchez D , Sung KC and Yun M , Racterial communities on electron‐ream Pt‐deposited electrodes in a mediator‐less microbial fuel cell . Environ Sci Technol 42 : 6243 – 6249 ( 2008 ).
Michaelidou U , Ter Heijne A , Euverink GJW , Hamelers HVM , Stams AJM and Geelhoed JS , Microbial communities and electrochemical performance of titanium‐based anodic electrodes in a microbial fuel cell . Appl Environ Microbiol 77 : 1069 – 1075 ( 2011 ).
Rodrigo M , Seco A , PenyaRoja J and Ferrer J , Influence of sludge age on enhanced phosphorus removal in biological systems . Water Sci Technol 34 : 41 – 48 ( 1996 ).
Park D and Zeikus J , Impact of electrode composition on electricity generation in a single‐compartment fuel cell using Shewanella putrefaciens . Appl Microbiol Biotechnol 59 : 58 – 61 ( 2002 ).
Rodríguez Mayor L , Villaseñor Camacho J and Fernández Morales FJ , Operational optimisation of pilot scale biological nutrient removal at the Ciudad Real (Spain) domestic wastewater treatment plant . Water Air Soil Pollut 152 : 279 – 296 2004 ).
Zhang Y , Ng CK , Cohen Y and Cao B , Cell growth and protein expression of Shewanella oneidensis in biofilms and hydrogel‐entrapped cultures . Molec BioSyst 10 : 1035 – 1042 ( 2014 ).
Holmes DE , Giloteaux L , Barlett M , Chavan MA , Smith JA , Williams KH et al ., Molecular analysis of the in situ growth rates of subsurface geobacter species . Appl Environ Microbiol 79 : 1646 – 1653 ( 2013 ).
Mateo S , D'Angelo A , Scialdone O , Canizares P , Andres Rodrigo M and Jesus Fernandez‐Morales F , The influence of sludge retention time on mixed culture microbial fuel cell start‐ups . Biochem Eng J 123 : 38 – 44 ( 2017 ).
D'Angelo A , Mateo S , Scialdone O , Canizares P , Jesus Fernandez‐Morales F and Andres Rodrigo M , Optimization of the performance of an air‐cathode MFC by changing solid retention time . J Chem Technol Biotechnol 92 : 1746 – 1755 ( 2017 ).
Penteado ED , Maria Fernandez‐Marchante C , Zaiat M , Canizares P , Gonzalez ER and Andres Rodrigo M , Influence of sludge age on the performance of MFC treating winery wastewater . Chemosphere 151 : 163 – 170 ( 2016 ).
Asensio Y , Montes IB , Fernandez‐Marchante CM , Lobato J , Canizares P and Rodrigo MA , Selection of cheap electrodes for two‐compartment microbial fuel cells . J Electroanalyt Chem 785 : 235 – 240 ( 2017 ).
Mateo S , Rodrigo M , Fonseca LP , Cañizares P and Fernandez‐Morales FJ , Oxygen availability effect on the performance of air‐breathing cathode microbial fuel cell . Biotechnol Progress 31 : 900 – 907 ( 2015 ).
Logan BE , Hamelers B , Rozendal R , Schröder U , Keller J , Freguia S et al ., Microbial fuel cells: methodology and technology . Environ Sci & Technol. 40 : 5181 – 5192 ( 2006 ).
Water Environment F , Water Pollution Control F , American Water Works A, American Public Health A. Standard methods for the examination of water and wastewater. 1905:v.
Schmieder R and Edwards R , Quality control and preprocessing of metagenomic datasets . Bioinformatics 27 : 863 – 864 ( 2011 ).
Aronesty E , ea‐utils: command‐line tools for processing biological sequencing data . Expression Analysis , Durham, NC ( 2011 ).
Edgar RC , Haas BJ , Clemente JC , Quince C and Knight R , UCHIME improves sensitivity and speed of chimera detection . Bioinformatic 27 : 2194 – 2200 ( 2011 ).
Cole JR , Wang Q , Cardenas E , Fish J , Chai B , Farris RJ et al ., The Ribosomal Database Project: improved alignments and new tools for rRNA analysis . Nucleic Acids Res 37 : D141 – D145 ( 2008 ).
Asensio Y , Montes IB , Fernandez‐Marchante CM , Lobato J , Cañizares P and Rodrigo MA , Selection of cheap electrodes for two‐compartment microbial fuel cells . J Electroanalyt Chem 785 : 235 – 240 ( 2017 ).
Schilirò T , Tommasi T , Armato C , Hidalgo D , Traversi D , Bocchini S et al ., The study of electrochemically active planktonic microbes in microbial fuel cells in relation to different carbon‐based anode materials . Energy 106 : 277 – 284 ( 2016 ).
Hidalgo D , Tommasi T , Velayutham K and Ruggeri B , Long term testing of microbial fuel cells: comparison of different anode materials . Bioresource Technol 219 : 37 – 44 ( 2016 ).
Fan Y , Hu H and Liu H , Enhanced Coulombic efficiency and power density of air‐cathode microbial fuel cells with an improved cell configuration . J Power Sources 171 : 348 – 354 ( 2007 ).
Ringeisen BR , Henderson E , Wu PK , Pietron J , Ray R , Little B et al ., High power density from a miniature microbial fuel cell using Shewanella oneidensis DSP10 . Environ Sci & Technol 40 : 2629 – 2634 ( 2006 ).
Han Y , Yu C and Liu H , A microbial fuel cell as power supply for implantable medical devices . Biosensors Bioelectron 25 : 2156 – 2160 ( 2010 ).
Hidalgo D , Tommasi T , Bocchini S , Chiolerio A , Chiodoni A , Mazzarino I et al ., Surface modification of commercial carbon felt used as anode for microbial fuel cells . Energy 99 : 193 – 201 ( 2016 ).
Fan Y , Sharbrough E and Liu H , Quantification of the internal resistance distribution of microbial fuel cells . Environ Sci Technol 42 : 8101 – 8107 ( 2008 ).
Beckmann S , Welte C , Li X , Oo YM , Kroeninger L , Heo Y et al ., Novel phenazine crystals enable direct electron transfer to methanogens in anaerobic digestion by redox potential modulation . Energy Environ Sci 9 : 644 – 655 ( 2016 ).
Yin Q , Zhu X , Zhan G , Bo T , Yang Y , Tao Y et al ., Enhanced methane production in an anaerobic digestion and microbial electrolysis cell coupled system with co‐cultivation of Geobacter and Methanosarcina . J Environ Sci (China) 42 : 210 – 214 ( 2016 ).
Dang Y , Holmes DE , Zhao Z , Woodard TL , Zhang Y , Sun D et al ., Enhancing anaerobic digestion of complex organic waste with carbon‐based conductive materials . Bioresource Technol 220 : 516 – 522 ( 2016 ).
Sun R , Zhou A , Jia J , Liang Q , Liu Q , Xing D et al ., Characterization of methane production and microbial community shifts during waste activated sludge degradation in microbial electrolysis cells . Bioresource Technol 175 : 68 – 74 ( 2015 ).
Wu D , Xing D , Mei X , Liu B , Guo C and Ren N , Electricity generation by Shewanella sp. HN‐41 in microbial fuel cells . Int J Hydrogen Energy 38 : 15568 – 15573 ( 2013 ).
Bond DR , Holmes DE , Tender LM and Lovley DR , Electrode‐reducing microorganisms that harvest energy from marine sediments . Science 295 : 483 – 485 ( 2002 ).
Park T‐J , Ding W , Cheng S , Brar MS , Ma APY , Tun HM et al ., Microbial community in microbial fuel cell (MFC) medium and effluent enriched with purple photosynthetic bacterium ( Rhodopseudomonas sp.) . AMB Express 4 : 1 –8 ( 2014 ).
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
저자가 공개 리포지터리에 출판본, post-print, 또는 pre-print를 셀프 아카이빙 하여 자유로운 이용이 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.