Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells
This paper presents data obtained using an indigenous microbial community contained in anaerobic sediments (mud) collected from the shore of the Río de La Plata River (South America). After the sedimentary microbial fuel cells were assembled the evolution of current and power vs. time was studied. T...
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todo:paper_09608524_v126_n_p328_Sacco2023-10-03T15:53:55Z Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells Sacco, N.J. Figuerola, E.L.M. Pataccini, G. Bonetto, M.C. Erijman, L. Cortón, E. Biofilm Cyclic voltammetry DGGE Electrogenic bacteria Microbial fuel cell carbon article bacterium bioenergy biofilm chemistry denaturing gradient gel electrophoresis electricity electrode metabolism phylogeny standard time Bacteria Bioelectric Energy Sources Biofilms Carbon Denaturing Gradient Gel Electrophoresis Electricity Electrodes Phylogeny Time Factors This paper presents data obtained using an indigenous microbial community contained in anaerobic sediments (mud) collected from the shore of the Río de La Plata River (South America). After the sedimentary microbial fuel cells were assembled the evolution of current and power vs. time was studied. Two types of commercially available graphite materials were used as electrodes, which differ mainly in shape and size. In some experiments, an external carbon source (acetate) increased the power generation rate. The maximum power density observed in the aforementioned condition was 19.57 ± 0.35 and 8.72 ± 1.39 mW/m2 using rod and graphite disk electrodes, respectively. The better performance of the rod electrodes can be explained, at least in part, by an enhanced rate of mass transport by radial diffusion. DGGE fingerprints were used to study the electrogenic community growing over the electrodes. © 2011 Elsevier Ltd. All rights reserved. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09608524_v126_n_p328_Sacco |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
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R-134 |
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Biofilm Cyclic voltammetry DGGE Electrogenic bacteria Microbial fuel cell carbon article bacterium bioenergy biofilm chemistry denaturing gradient gel electrophoresis electricity electrode metabolism phylogeny standard time Bacteria Bioelectric Energy Sources Biofilms Carbon Denaturing Gradient Gel Electrophoresis Electricity Electrodes Phylogeny Time Factors |
spellingShingle |
Biofilm Cyclic voltammetry DGGE Electrogenic bacteria Microbial fuel cell carbon article bacterium bioenergy biofilm chemistry denaturing gradient gel electrophoresis electricity electrode metabolism phylogeny standard time Bacteria Bioelectric Energy Sources Biofilms Carbon Denaturing Gradient Gel Electrophoresis Electricity Electrodes Phylogeny Time Factors Sacco, N.J. Figuerola, E.L.M. Pataccini, G. Bonetto, M.C. Erijman, L. Cortón, E. Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
topic_facet |
Biofilm Cyclic voltammetry DGGE Electrogenic bacteria Microbial fuel cell carbon article bacterium bioenergy biofilm chemistry denaturing gradient gel electrophoresis electricity electrode metabolism phylogeny standard time Bacteria Bioelectric Energy Sources Biofilms Carbon Denaturing Gradient Gel Electrophoresis Electricity Electrodes Phylogeny Time Factors |
description |
This paper presents data obtained using an indigenous microbial community contained in anaerobic sediments (mud) collected from the shore of the Río de La Plata River (South America). After the sedimentary microbial fuel cells were assembled the evolution of current and power vs. time was studied. Two types of commercially available graphite materials were used as electrodes, which differ mainly in shape and size. In some experiments, an external carbon source (acetate) increased the power generation rate. The maximum power density observed in the aforementioned condition was 19.57 ± 0.35 and 8.72 ± 1.39 mW/m2 using rod and graphite disk electrodes, respectively. The better performance of the rod electrodes can be explained, at least in part, by an enhanced rate of mass transport by radial diffusion. DGGE fingerprints were used to study the electrogenic community growing over the electrodes. © 2011 Elsevier Ltd. All rights reserved. |
format |
JOUR |
author |
Sacco, N.J. Figuerola, E.L.M. Pataccini, G. Bonetto, M.C. Erijman, L. Cortón, E. |
author_facet |
Sacco, N.J. Figuerola, E.L.M. Pataccini, G. Bonetto, M.C. Erijman, L. Cortón, E. |
author_sort |
Sacco, N.J. |
title |
Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
title_short |
Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
title_full |
Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
title_fullStr |
Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
title_full_unstemmed |
Performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
title_sort |
performance of planar and cylindrical carbon electrodes at sedimentary microbial fuel cells |
url |
http://hdl.handle.net/20.500.12110/paper_09608524_v126_n_p328_Sacco |
work_keys_str_mv |
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