Research Journal of Engineering and Technology

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Optimal Production of Bioelectricity using Clostridium sporogenes NCIM 5125


Affiliations
1 Department of Biotechnology, Madha Engineering College, Chennai, India
2 Department of Chemical Engineering, SSN College of Engineering, Chennai, India
     

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A sequential anode-cathode double-chamber microbial fuel cell (MFC) was constructed for the production of electricity using a novel microorganism, Clostridium sporogenes NCIM 5125 which is profoundly known to be a part of MFC studies. The growth of the microorganism was supported by energy derived from the electron transfer process itself and results in stable, long term power production. The electricity generation was optimized by analyzing the growth of the microbe at different parameters using mediated and non-mediated MFC. The results suggested that it is feasible to generate more electricity amounting to 5.6 mA at 160th h with the adopted C. sporogenes using mediated MFC.

Keywords

Microbial Fuel Cell, Proton Exchange Membrane, Clostridium sporogenes.
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  • Optimal Production of Bioelectricity using Clostridium sporogenes NCIM 5125

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Authors

M. Seenuvasan
Department of Biotechnology, Madha Engineering College, Chennai, India
J. Sebastin
Department of Biotechnology, Madha Engineering College, Chennai, India
K. Ananthi
Department of Biotechnology, Madha Engineering College, Chennai, India
S.C. Gayathri
Department of Biotechnology, Madha Engineering College, Chennai, India
A. Krithika Siva
Department of Biotechnology, Madha Engineering College, Chennai, India
M. Anil Kumar
Department of Biotechnology, Madha Engineering College, Chennai, India
K. Sathish Kumar
Department of Chemical Engineering, SSN College of Engineering, Chennai, India

Abstract


A sequential anode-cathode double-chamber microbial fuel cell (MFC) was constructed for the production of electricity using a novel microorganism, Clostridium sporogenes NCIM 5125 which is profoundly known to be a part of MFC studies. The growth of the microorganism was supported by energy derived from the electron transfer process itself and results in stable, long term power production. The electricity generation was optimized by analyzing the growth of the microbe at different parameters using mediated and non-mediated MFC. The results suggested that it is feasible to generate more electricity amounting to 5.6 mA at 160th h with the adopted C. sporogenes using mediated MFC.

Keywords


Microbial Fuel Cell, Proton Exchange Membrane, Clostridium sporogenes.

References