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A new upgraded biogas production process: Coupling microbial electrolysis cell and anaerobic digestion in single-chamber, barrel-shape stainless steel reactor

机译：升级后的新型沼气生产工艺：在单腔桶形不锈钢反应器中耦合微生物电解池和厌氧消化

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Production of upgraded biogas is required to remove as much carbon dioxide as possible. It was found that by coupling microbial electrolysis cell (MEC) and anaerobic digestion (AD) in a single-chamber, barrel-shape stainless steel reactor, compared with common anaerobic digestion (control), CH4 content in excess of 98% was achieved and CH4 yield was increased 2.3 times. Meanwhile, the COD removal rate was tripled and carbon recovery was increased by 56.2%. In this new process, unwanted CO2 was in situ converted into CH4 on anode by the dominant microbes, hydrogenotrophic electromethanogens (e.g. Methanospirillum). These microbes could utilize hydrogen gas generated at the inner surface of stainless steel reactor, which itself served as cathode of MEC through small voltage addition (1.0 V). The overall energy efficiency was 66.7%. (C) 2014 Elsevier B.V. All rights reserved.

机译：需要生产升级的沼气以除去尽可能多的二氧化碳。发现在单腔桶形不锈钢反应器中通过将微生物电解池（MEC）与厌氧消化（AD）耦合，与普通厌氧消化（对照）相比，CH4含量可达到98％以上，并且CH4产率提高了2.3倍。同时，COD去除率提高了两倍，碳回收率提高了56.2％。在这一新过程中，主要的微生物，即氢营养型电甲烷原菌（例如，Methanospirillum）在阳极上将多余的CO2原位转化为CH4。这些微生物可以利用在不锈钢反应器内表面产生的氢气，该反应器本身通过少量加电压（1.0 V）充当MEC的阴极。整体能源效率为66.7％。（C）2014 Elsevier B.V.保留所有权利。

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Bo Tao; Zhu Xiaoyu; Zhang Lixia; Tao Yong; He Xiaohong; Li Daping; Yan Zhiying;
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入库时间 2022-08-20 20:24:31

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1. A new upgraded biogas production process: Coupling microbial electrolysis cell and anaerobic digestion in single-chamber, barrel-shape stainless steel reactor [J] . Tao Bo, Xiaoyu Zhu, Lixia Zhang, Electrochemistry communications . 2014,第Null期

机译：升级后的新型沼气生产工艺：将微生物电解池与厌氧消化耦合在单腔桶形不锈钢反应器中
2. Bioelectrochemical enhancement of hydrogen and methane production from the anaerobic digestion of sewage sludge in single-chamber membrane-free microbial electrolysis cells [J] . Xuesong Guo, Junxin Liu, Benyi Xiao International journal of hydrogen energy . 2013,第3期

机译：厌氧消化单腔无膜微生物电解池中污水污泥的生物电化学法提高氢气和甲烷的产生
3. Effect of endogenous hydrogen utilization on improved methane production in an integrated microbial electrolysis cell and anaerobic digestion: Employing catalyzed stainless steel mesh cathode [J] . Kiros Hagos, Chang Liu, Xiaohua Lu 中国化学工程学报（英文版） . 2018,第003期

机译：内源氢利用对集成微生物电解池和厌氧消化中甲烷产量提高的影响：采用催化不锈钢网状阴极
4. Anaerobic Co-Digestion Changes Microbial Community and Synergistically Increases Biogas Production in Municipal Digesters [C] . Navaneethan Navaratnam, Peter Topczewski, James Maki, WEFTEC 2012;Water Environment Federation annual technical exhibition and conference . 2012

机译：厌氧共消化改变了微生物群落，并协同增加了市政消化池的沼气产量
5. Anaerobic Digestion Enhancement: Impact on the Volatile Solids Reduction and Biogas Production Within Municipal Anaerobic Digestion Systems via Routine Bioaugmentation with a Biocatalytic Microbial and Enzyme Consortium [D] . Lee, Jonathan. 2020

机译：厌氧消化增强：通过用生物催化微生物和酶联盟的常规生物沉积对城市厌氧消化系统挥发性固体减少和沼气产生的影响
6. Comparative evaluation of biogas production from dairy manure and co‐digestion with maize silage by CSTR and new anaerobic hybrid reactor [O] . Ayhan Varol, Aysenur Ugurlu 2017

机译：CSTR和新型厌氧混合反应器对乳牛粪生产沼气和与玉米青贮共消化的沼气的比较评估
7. Hydrodynamics Analysis for an Upflow Integrated Anaerobic Digestion Reactor with Microbial Electrolysis under Different Hydraulic Retention Times: Effect of Bioelectrode Spatial Distribution on Functional Communities Involved in Methane Production and Organic Removal [O] . -1

机译：不同液压保留时间下微生物电解的上流集成厌氧消化反应器的流体动力学分析：生物电极空间分布对甲烷生产和有机脱水功能社区的影响

A new upgraded biogas production process: Coupling microbial electrolysis cell and anaerobic digestion in single-chamber, barrel-shape stainless steel reactor

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