期刊
BIORESOURCE TECHNOLOGY
卷 393, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.biortech.2023.129996
关键词
Sludge domestication; Electron transfer capacity; Propionate accumulation; Methanogenesis
This study investigates the addition of sludge to AD-MEC to improve system performance and explore microbial interactions after electric field domestication. The results show that the addition of sludge increases methane production and enhances the sludge's continuous methanogenic capacity. Further analysis reveals that the sludge in the AD-MEC system has enhanced extracellular electron transfer capacity and forms a microbial community with synergistic acid degradation and methanogenesis capabilities.
Anaerobic digestion combined with microbial electrolysis cell (AD-MEC) could maintain stable reactor operation and alleviating the anaerobic digestion (AD) propionate accumulation. In this study, the addition of sludge to AD-MEC was examined as a way to enhance system performance and explore the microbial interaction mechanism after electric field domestication. The results showed that under 1000 and 4000 mg/L propionate, the methane production of the sludge from AD-MEC increased by 34.29 % and 9.70 %, respectively, as compared to the AD sludge. Gompertz fitting analysis showed that sludge after electric field domestication enhancing its continuous methanogenic capacity. Further analysis showed that sludge extracellular electron transfer capacity was enhanced in AD-MEC and that its domesticated granular sludge formed a microbial community function with acid-degrading synergistic methanogenesis. The results of the study may provide theoretical support and optimization strategies for the application of AD-MEC system.
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