首页|OPTIMIZATION OF SALT BRIDGE AND ELECTRODE SIZE FOR ENHANCED BIOELECTRICITY PRODUCTION IN MICROBIAL FUEL CELL DEVELOPED USING SLAUGHTER HOUSE WASTE RUMENFLUID
OPTIMIZATION OF SALT BRIDGE AND ELECTRODE SIZE FOR ENHANCED BIOELECTRICITY PRODUCTION IN MICROBIAL FUEL CELL DEVELOPED USING SLAUGHTER HOUSE WASTE RUMENFLUID
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NSTL
In the present study, production of bioelectricity in microbial fuel cell developed with slaughter house waste rumen fluid was enhanced by optimization of agarose salt bridge and electrode size. Agarose salt bridge was optimized by different percentage of agarose from l%-3% with different sodium chloride concentration from l%-3%. Graphite plates of different sizes (LXBXH) 4x4x0.3cm, 5x5x0.3cm, 6x6x.0.3cm, 7x7x0.3cm and 6x6x3cm were used. 1% agarose salt bridge with 3% sodium chloride produced maximumvoltage and current, 560mV and 2.60mA respectively. Graphite plate of 6x6x3cm gave the maximum voltage of 620mV and 4.8mA after 7 days, when compared to other sizes of graphite plates.
BioelectricitySlaughter house wasteMicrobial fuel cell
S. MEIGNANALAKSHMI、B. HARITHA、S. RATHNAPRABHA
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Department of Animal Biotechnology, Madras Veterinary College, TANUVAS, Chennai, T.N., India
Viral Vaccine Research and Control Centre, TANUVAS, Chennai, T.N., India
2021
Asian Journal of Microbiology, Biotechnology and Environmental Science
NSTL
