Journal of Advances in Engineering Sciences

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Enhancing Electricity Generation in MFC by Increasing Surface of Proton Transmission and Aeration


Affiliations
1 Department of Chemical Engineering, MIT Academy of Engineering Alandi, Pune, India
     

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Microbial fuel cell is a device which converts chemical energy of a substrate directly into electricity by biological action of micro-organism in absence of air. Three chambered Microbial Fuel Cell tested under batch mode with an aeration provided to cathode chamber and little amount of HCl added to cathode chamber. Two cathode chamber dipped in single anode chamber increases the voltage and power density output at stable stage from 0.42-0.51V and 23.6-30.9mW/m2. When air was forced to cathode chamber (with small amount of HCl added in cathode chamber liquid) voltage and power density output modify from 0.51-.54V and 30.9-32.7mW/ m2. At the end of experiment, the COD of waste water were measured. Enhancement in electricity generation by enlarging membrane surface and aeration were shown from the result.

Keywords

Microbial Fuel Cell, Aeration, Biological Action.
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  • Enhancing Electricity Generation in MFC by Increasing Surface of Proton Transmission and Aeration

Abstract Views: 193  |  PDF Views: 1

Authors

Pravin Chavan
Department of Chemical Engineering, MIT Academy of Engineering Alandi, Pune, India
Manish Pawar
Department of Chemical Engineering, MIT Academy of Engineering Alandi, Pune, India
Vinod Pakhale
Department of Chemical Engineering, MIT Academy of Engineering Alandi, Pune, India

Abstract


Microbial fuel cell is a device which converts chemical energy of a substrate directly into electricity by biological action of micro-organism in absence of air. Three chambered Microbial Fuel Cell tested under batch mode with an aeration provided to cathode chamber and little amount of HCl added to cathode chamber. Two cathode chamber dipped in single anode chamber increases the voltage and power density output at stable stage from 0.42-0.51V and 23.6-30.9mW/m2. When air was forced to cathode chamber (with small amount of HCl added in cathode chamber liquid) voltage and power density output modify from 0.51-.54V and 30.9-32.7mW/ m2. At the end of experiment, the COD of waste water were measured. Enhancement in electricity generation by enlarging membrane surface and aeration were shown from the result.

Keywords


Microbial Fuel Cell, Aeration, Biological Action.