Bioelectrochemical conversion of waste to energy using microbial fuel cell technology
Bioelectrochemical conversion of waste to energy using microbial fuel cell technology
Numerous traditional methods are available for the conversion of waste to energy (WTE) such as incineration, anaerobic digestion, pyrolysis, gasification. Most of them suffer from low efficiency and high energy requirements. Microbial fuel cell (MFC) technology is an excellent alternative for the generation of renewable and sustainable energy and has the potential to help alleviate the current global energy crisis. The total wastewater generated in India is almost 250% of the total treatment capacity, and the Government is, therefore, looking for a sustainable solution for the treatment of waste. Indian population consumes around 700 billion cubic meters of water annually, and this figure will rise to 950 and 1422 billion m3 by 2025 and 2050 respectively. Although treatment of wastewater is a serious concern, the energy recovery potential of wastewater has not yet been fully developed. A survey has been conducted through this study, and it was estimated that MFC technology has the potential to generate around 23.3 and 40 Tera Watt (TW) power by 2025 and 2050 by treating wastewater generated throughout India (urban areas) if utilized properly. This review article presents a various aspect of MFC technology for a proper understanding by the readers. This will be a unique study wherein the energy recovery potential of the wastewater produced in the Indian subcontinent has been estimated through MFC technology. A number of factors affecting the performance of MFC such as electron losses, reactor configuration, and varying concentration must be taken into account to augment output energy. The article summarizes an extensive literature survey of some selected papers published in the last decade.
Electron transfer, Energy recovery, Kinetics, MFCs, Power density, Thermodynamics
141-158
Khan, Mohammad Zain
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Khan, Nishat
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Sultana, Saima
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Joshi, Rajkumar
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Ahmed, Sirajuddin
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Yu, Eileen
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Scott, Keith
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Ahmad, Anees
6200a858-4a3a-48f6-bf75-914a465f52b1
Khan, Mohammad Zain
6b96e823-7483-4688-87a7-8dc82a6e69b0
1 June 2017
Khan, Mohammad Zain
94549b26-7db9-4ad9-a146-645a4192e1ab
Khan, Nishat
c125d327-3344-46db-ab8c-eec45d6da6d9
Sultana, Saima
5ea7b4b4-23bb-4291-abae-64a06b4a55b6
Joshi, Rajkumar
8c9dbb7d-5f85-497f-8f28-7bd7f6386aa2
Ahmed, Sirajuddin
c86060cc-3161-4032-9b83-70b6e82b3ea8
Yu, Eileen
28e47863-4b50-4821-b80b-71fb5a2edef2
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913
Ahmad, Anees
6200a858-4a3a-48f6-bf75-914a465f52b1
Khan, Mohammad Zain
6b96e823-7483-4688-87a7-8dc82a6e69b0
Khan, Mohammad Zain, Khan, Nishat, Sultana, Saima, Joshi, Rajkumar, Ahmed, Sirajuddin, Yu, Eileen, Scott, Keith, Ahmad, Anees and Khan, Mohammad Zain
(2017)
Bioelectrochemical conversion of waste to energy using microbial fuel cell technology.
Process Biochemistry, 57, .
(doi:10.1016/j.procbio.2017.04.001).
Abstract
Numerous traditional methods are available for the conversion of waste to energy (WTE) such as incineration, anaerobic digestion, pyrolysis, gasification. Most of them suffer from low efficiency and high energy requirements. Microbial fuel cell (MFC) technology is an excellent alternative for the generation of renewable and sustainable energy and has the potential to help alleviate the current global energy crisis. The total wastewater generated in India is almost 250% of the total treatment capacity, and the Government is, therefore, looking for a sustainable solution for the treatment of waste. Indian population consumes around 700 billion cubic meters of water annually, and this figure will rise to 950 and 1422 billion m3 by 2025 and 2050 respectively. Although treatment of wastewater is a serious concern, the energy recovery potential of wastewater has not yet been fully developed. A survey has been conducted through this study, and it was estimated that MFC technology has the potential to generate around 23.3 and 40 Tera Watt (TW) power by 2025 and 2050 by treating wastewater generated throughout India (urban areas) if utilized properly. This review article presents a various aspect of MFC technology for a proper understanding by the readers. This will be a unique study wherein the energy recovery potential of the wastewater produced in the Indian subcontinent has been estimated through MFC technology. A number of factors affecting the performance of MFC such as electron losses, reactor configuration, and varying concentration must be taken into account to augment output energy. The article summarizes an extensive literature survey of some selected papers published in the last decade.
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Published date: 1 June 2017
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© 2017 Elsevier Ltd
Keywords:
Electron transfer, Energy recovery, Kinetics, MFCs, Power density, Thermodynamics
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Local EPrints ID: 498867
URI: http://eprints.soton.ac.uk/id/eprint/498867
ISSN: 1359-5113
PURE UUID: 35882252-087f-40f4-904e-2c0fe7089e1b
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Date deposited: 04 Mar 2025 17:48
Last modified: 05 Mar 2025 03:18
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Author:
Mohammad Zain Khan
Author:
Nishat Khan
Author:
Saima Sultana
Author:
Rajkumar Joshi
Author:
Sirajuddin Ahmed
Author:
Eileen Yu
Author:
Keith Scott
Author:
Anees Ahmad
Author:
Mohammad Zain Khan
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