Microbial fuel cell with high content solid wastes as substrates： a review

With the increasing concern about the serious global energy crisis and high energy consumption during high content solid wastes （HCSWs） treatment, microbial fuel cell （MFC） has been recognized as a promising resource utilization approach for HCSW stabilization with simultaneous electrical energy rec...

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Veröffentlicht in:	Frontiers of environmental science & engineering 2017-04, Vol.11 (2), p.25-41, Article 13
Hauptverfasser:	Zhao, Qingliang, Yu, Hang, Zhang, Weixian, Kabutey, Felix Tetteh, Jiang, Junqiu, Zhang, Yunshu, Wang, Kun, Ding, Jing
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Sprache:	eng
Schlagworte:	Ambient temperature Biochemical fuel cells Bioremediation Biosensor Earth and Environmental Science Electricity Electricity generation Energy consumption Energy conversion Energy recovery Environment Fuel cells Fuel technology High content solid wastes Microbial fuel cell Microorganisms Performance degradation Performance enhancement Resource utilization Review Article Solid wastes Stabilization Substrate Substrates
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container_title	Frontiers of environmental science & engineering
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creator	Zhao, Qingliang Yu, Hang Zhang, Weixian Kabutey, Felix Tetteh Jiang, Junqiu Zhang, Yunshu Wang, Kun Ding, Jing
description	With the increasing concern about the serious global energy crisis and high energy consumption during high content solid wastes （HCSWs） treatment, microbial fuel cell （MFC） has been recognized as a promising resource utilization approach for HCSW stabilization with simultaneous electrical energy recovery. In contrast to the conventional HCSW stabilization processes, MFC has its unique advantages such as direct bio-energy conversion in a single step and mild reaction conditions （viz., ambient temperature, normal pressure, and neutral pH）. This review mainly introduces some important aspects of electricity generation from HCSW and its stabilization in MFC, focusing on：（1） MFCs with different fundamentals and configurations designed and constructed to produce electricity from HCSW; （2） performance of wastes degradation and electricity generation; （3） prospect and deficiency posed by MFCs with HCSWas substrates. To date, the major drawback of MFCs fueled by HCSW is the lower power output than those using simple substrates. HCSW hydrolysis and decomposition would be a major tool to improve the performance of MFCs. The optimization of parameters is needed to push the progress of MFCs with HCSW as fuel.
doi_str_mv	10.1007/s11783-017-0918-6
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subjects	Ambient temperature Biochemical fuel cells Bioremediation Biosensor Earth and Environmental Science Electricity Electricity generation Energy consumption Energy conversion Energy recovery Environment Fuel cells Fuel technology High content solid wastes Microbial fuel cell Microorganisms Performance degradation Performance enhancement Resource utilization Review Article Solid wastes Stabilization Substrate Substrates
title	Microbial fuel cell with high content solid wastes as substrates： a review
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