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Microbial electrolysis contribution to anaerobic digestion of waste activated sludge, leading to accelerated methane production

descriptionPublicationkeyboard_double_arrow_right Article , Journal 01 Jun 2016 Denmark Publisher:Elsevier BVJournal:Renewable Energy, volume 91, pages 334-339 (issn: 0960-1481,

Authors: Ling Wang; Wenzong Liu; Aijie Wang; Aijie Wang; Chunxue Yang; Cristiano Varrone; Weiwei Cai; +1 Authors

doi: 10.1016/j.renene.2016.01.082

Microbial electrolysis contribution to anaerobic digestion of waste activated sludge, leading to accelerated methane production

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Abstract

Abstract Methane production rate (MPR) in waste activated sludge (WAS) digestion processes is typically limited by the initial steps of complex organic matter degradation, leading to a limited MPR due to sludge fermentation speed of solid particles. In this study, a novel microbial electrolysis AD reactor (ME-AD) was used to accelerate methane production for energy recovery from WAS. Carbon bioconversion was accelerated by ME producing H2 at the cathode. MPR was enhanced to 91.8 gCH4/m3 reactor/d in the microbial electrolysis ME-AD reactor, thus improving the rate by 3 times compared to control conditions (30.6 gCH4/m3 reactor/d in AD). The methane production yield reached 116.2 mg/g VSS in the ME-AD reactor. According to balance calculation on electron transfer and methane yield, the increased methane production was mostly dependent on electron contribution through the ME system. Thus, the use of the novel ME-AD reactor allowed to significantly enhance carbon degradation and methane production from WAS.

Country

Denmark

Related Organizations

State Key Laboratory of Urban Water Resources and Water Environment
China (People's Republic of)
Chinese Academy of Sciences
China (People's Republic of)
Research Center for Eco-Environmental Sciences
China (People's Republic of)
Chinese Academy of Sciences
China (People's Republic of)
Harbin Institute of Technology
China (People's Republic of)

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Keywords

Renewable Energy, Sustainability and the Environment, Methanogenesis, Energy recovery, Bio-electron, Microbial electrolysis AD reactor, Waste activated sludge

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