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W2898813776 abstract "In general, refractory organics were hardly used as co-substrate in bioelectrochemical system. This study established a coupled bioelectrochemical system composed of a biofilm electrode reactor and a microbial fuel cell for using the azo dye X-3B as part of co-substrate. The two units degraded the azo dye X-3B stepwise while using it as part of co-substrate. Our results indicated that the removal efficiency of X-3B increased 28.5% using the coupled system compared with a control system. Moreover, the addition of the co-substrate glucose, which was necessary for MFC electricity generation, was reduced on the premise of stable removal efficiency in the coupled system to prevent resource waste due to using X-3B as part of co-substrate. The intermediate products of X-3B degradation were further explored using gas chromatography–mass spectrometry and a X-3B degradation pathway was proposed at the same time. Microbial communities were analyzed, illustrating that the mechanism of X-3B degradation was dependent on bioelectrochemistry rather than on microbial degradation." @default.
W2898813776 created "2018-11-09" @default.
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W2898813776 creator A5044482135 @default.
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W2898813776 creator A5090366405 @default.
W2898813776 date "2019-02-01" @default.
W2898813776 modified "2023-10-08" @default.
W2898813776 title "Azo dye as part of co-substrate in a biofilm electrode reactor–microbial fuel cell coupled system and an analysis of the relevant microorganisms" @default.
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W2898813776 doi "https://doi.org/10.1016/j.chemosphere.2018.10.203" @default.
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