Sustainable energy production from food waste using microbial fuel cell (MFC)

Internationally the demand for electricity is high. To reduce the use of fossil foil and to provide alternative renewable energy generations, Microbial Fuel Cell (MFC) Technology can be conveniently adopted. MFC Technology support the generation for electricity from sewage when it is getting treated...

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Hauptverfasser:	Sathyamoorthy, G. L., Sushmitha, A. Sam
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Biochemical fuel cells Biological activity Chemical energy Electricity Electrodes Foils Food Food waste Fuel cells Microorganisms Mud Potassium chloride Renewable energy Sewage treatment plants Sludge Stainless steels Wastewater treatment
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creator	Sathyamoorthy, G. L. Sushmitha, A. Sam
description	Internationally the demand for electricity is high. To reduce the use of fossil foil and to provide alternative renewable energy generations, Microbial Fuel Cell (MFC) Technology can be conveniently adopted. MFC Technology support the generation for electricity from sewage when it is getting treated with any one of the biological unit processes. The decomposable available in the sewage converts chemical energy to rechargeable energy and thereby treats the wastewater to the desirable limit. In the present research, food waste and sludge from actively working sewage treatment plant has been used in a dual chambered MFC reactor for electricity generation. Electrodes like stainless-steel mesh with carbon cloth as anode, stainless steel mesh as cathode and salt bridge made of potassium chloride have been used. The experimental study revealed that highest power density was observed for Effluent mud (21.36W/m3) followed by mixed waste (16.44 W/m3) and then to food waste (14.01W/m3) by using the cost-effective MFC electrodes and components. Also, in the present research work, it was found that the food waste mixed with Effluent mud could be used as good material for the sustainable power generation when compared to treatment the sludge and food waste separately.
doi_str_mv	10.1063/5.0108134
format	Conference Proceeding
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L. ; Sushmitha, A. Sam</creator><contributor>Sukanyadevi R ; Aranganayagam Kr ; Geethakarthi A ; Sreeharan B. N.</contributor><creatorcontrib>Sathyamoorthy, G. L. ; Sushmitha, A. Sam ; Sukanyadevi R ; Aranganayagam Kr ; Geethakarthi A ; Sreeharan B. N.</creatorcontrib><description>Internationally the demand for electricity is high. To reduce the use of fossil foil and to provide alternative renewable energy generations, Microbial Fuel Cell (MFC) Technology can be conveniently adopted. MFC Technology support the generation for electricity from sewage when it is getting treated with any one of the biological unit processes. The decomposable available in the sewage converts chemical energy to rechargeable energy and thereby treats the wastewater to the desirable limit. In the present research, food waste and sludge from actively working sewage treatment plant has been used in a dual chambered MFC reactor for electricity generation. Electrodes like stainless-steel mesh with carbon cloth as anode, stainless steel mesh as cathode and salt bridge made of potassium chloride have been used. The experimental study revealed that highest power density was observed for Effluent mud (21.36W/m3) followed by mixed waste (16.44 W/m3) and then to food waste (14.01W/m3) by using the cost-effective MFC electrodes and components. 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Sam</creatorcontrib><title>Sustainable energy production from food waste using microbial fuel cell (MFC)</title><title>AIP conference proceedings</title><description>Internationally the demand for electricity is high. To reduce the use of fossil foil and to provide alternative renewable energy generations, Microbial Fuel Cell (MFC) Technology can be conveniently adopted. MFC Technology support the generation for electricity from sewage when it is getting treated with any one of the biological unit processes. The decomposable available in the sewage converts chemical energy to rechargeable energy and thereby treats the wastewater to the desirable limit. In the present research, food waste and sludge from actively working sewage treatment plant has been used in a dual chambered MFC reactor for electricity generation. Electrodes like stainless-steel mesh with carbon cloth as anode, stainless steel mesh as cathode and salt bridge made of potassium chloride have been used. 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To reduce the use of fossil foil and to provide alternative renewable energy generations, Microbial Fuel Cell (MFC) Technology can be conveniently adopted. MFC Technology support the generation for electricity from sewage when it is getting treated with any one of the biological unit processes. The decomposable available in the sewage converts chemical energy to rechargeable energy and thereby treats the wastewater to the desirable limit. In the present research, food waste and sludge from actively working sewage treatment plant has been used in a dual chambered MFC reactor for electricity generation. Electrodes like stainless-steel mesh with carbon cloth as anode, stainless steel mesh as cathode and salt bridge made of potassium chloride have been used. The experimental study revealed that highest power density was observed for Effluent mud (21.36W/m3) followed by mixed waste (16.44 W/m3) and then to food waste (14.01W/m3) by using the cost-effective MFC electrodes and components. 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subjects	Biochemical fuel cells Biological activity Chemical energy Electricity Electrodes Foils Food Food waste Fuel cells Microorganisms Mud Potassium chloride Renewable energy Sewage treatment plants Sludge Stainless steels Wastewater treatment
title	Sustainable energy production from food waste using microbial fuel cell (MFC)
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