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Bioelectrohydrogenesis and inhibition of methanogenic activity in microbial electrolysis cells - A review

机译：微生物电解池中的生物电水合和产甲烷活性的抑制-综述

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Microbial electrolysis cells (MECs) are a promising technology for biological hydrogen production. Compared to abiotic water electrolysis, a much lower electrical voltage (~ 0.2 V) is required for hydrogen production in MECs. It is also an attractive waste treatment technology as a variety of biodegradable substances can be used as the process feedstock. Underpinning this technology is a recently discovered bioelectrochemical pathway known as “bioelectrohydrogenesis”. However, little is known about the mechanism of this pathway, and numerous hurdles are yet to be addressed to maximize hydrogen yield and purity. Here, we review various aspects including reactor configurations, microorganisms, substrates, electrode materials, and inhibitors of methanogenesis in order to improve hydrogen generation in MECs.

机译：微生物电解池（MEC）是一种用于生物制氢的有前途的技术。与非生物水电解相比，MEC中产生氢气所需的电压要低得多（〜0.2 V）。这也是一种有吸引力的废物处理技术，因为各种可生物降解的物质都可以用作工艺原料。该技术的基础是最近发现的生物电化学途径，称为“生物电水合”。然而，关于这种途径的机理知之甚少，并且有许多障碍需要解决以使氢的产率和纯度最大化。在这里，我们综述了各个方面，包括反应器配置，微生物，底物，电极材料和甲烷生成抑制剂，以改善MEC中的氢生成。

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Karthikeyan, R.; Cheng, K.Y.; Selvam, A.; Bose, A.; Wong, J.W.C.;
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年度 2017
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正文语种 eng
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1. Bioelectrohydrogenesis and inhibition of methanogenic activity in microbial electrolysis cells - A review [J] . Biotechnology Advances: An International Review Journal . 2017,第6期

机译：微生物电解细胞中甲状腺活性的生物电解 - 评论
2. Evaluation of methanogenic microbial electrolysis cells under closed/open circuit operations [J] . Luo Liwen, Xu Suyun, Jin Yueqing, Environmental Technology . 2018,第5a8期

机译：闭路/开路操作下产甲烷微生物电解池的评估
3. Hydrogen consumption and methanogenic community evolution in anodophilic biofilms in single chamber microbial electrolysis cells under different startup modes [J] . Liu Wenzong, Piao Yongjian, Zhang Fugui, Environmental Science: Water Research & Technology . 2018,第11期

机译：不同启动方式下单室微生物电解槽中厌氧性生物膜的耗氢量和产甲烷菌群落的演变
4. Inhibition of Ammonium Concentration on the Methanogenic Activity of Anaerobic Granular Sludge from Activated Sludge-Biofilm Anaerobic Hybrid Bio-Reactor [C] . Yue Xiu-ping, Wu Jing, Jiang Qiu-jing, 5th International Conference on Bioinformatics and Biomedical Engineering . 2011

机译：铵浓度对活性污泥-生物膜厌氧混合生物反应器厌氧颗粒污泥甲烷化活性的抑制作用
5. Methane production and methanogenic communities in microbial electrolysis cells, anodic potential influence on microbial fuel cells, and a method to entrap microbes on an electrode [D] . Wagner, Rachel Cain 2012

机译：微生物电解池中甲烷的产生和产甲烷菌群落，阳极势对微生物燃料电池的影响以及将微生物截留在电极上的方法
6. Enrichment of Microbial Electrolysis Cell Biocathodes from Sediment Microbial Fuel Cell Bioanodes [O] . John M. Pisciotta, Zehra Zaybak, Douglas F. Call, 2012

机译：沉积物微生物燃料电池生物阳极中微生物电解池生物阴极的富集
7. Methanobacterium Dominates Biocathodic Archaeal Communities in Methanogenic Microbial Electrolysis Cells [O] . Michael Siegert 2016

机译：甲烷杆菌在产甲烷微生物电解细胞中支配生物阴性古菌群落
8. Microbial Challenge Testing of Single Liquid Cathode Feed Water Electrolysis Cells for the International Space Station (ISS) Oxygen Generator Assembly (OGA) [R] . Roy, R. J., Wilson, M. E., Diderich, G. S., 2011

机译：用于国际空间站（Iss）氧气发生器组件（OGa）的单液体阴极给水电解槽的微生物挑战测试

Bioelectrohydrogenesis and inhibition of methanogenic activity in microbial electrolysis cells - A review

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