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Volumn 61, Issue , 2014, Pages 587-592
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Improved current and power density with a micro-scale microbial fuel cell due to a small characteristic length
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Author keywords
Mass transfer; Micro scale microbial fuel cell; Power density; Scaling effect
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Indexed keywords
MASS TRANSFER;
BIO-ELECTROCHEMICAL;
CATABOLIC REACTION;
CHARACTERISTIC LENGTH;
COULOMBIC EFFICIENCY;
PERFORMANCE METRICS;
POWER DENSITIES;
SCALING EFFECTS;
VOLUMETRIC POWER DENSITY;
MICROBIAL FUEL CELLS;
ARTICLE;
CONTROLLED STUDY;
CURRENT DENSITY;
DENSITY;
ELECTRON TRANSPORT;
FLOW RATE;
GEOBACTERACEAE;
IMAGE ANALYSIS;
MATHEMATICAL COMPUTING;
MICROBIAL FUEL CELL;
MOLECULAR IMAGING;
NONHUMAN;
PHYSICAL PARAMETERS;
POWER DENSITY;
POWER SUPPLY;
PROCESS MODEL;
SCALE UP;
SCANNING ELECTRON MICROSCOPY;
SURFACE AREA TO VOLUME RATIO;
VOLUMETRY;
BIOENERGY;
ELECTRICITY;
ELECTRONICS;
EQUIPMENT DESIGN;
GEOBACTER;
MICROBIOLOGY;
PHYSIOLOGY;
BIOELECTRIC ENERGY SOURCES;
ELECTRICITY;
EQUIPMENT DESIGN;
GEOBACTER;
MINIATURIZATION;
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EID: 84902689803
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2014.05.037 Document Type: Article |
Times cited : (65)
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References (34)
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