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From microbial fuel cell (MFC) to microbial electrochemical snorkel (MES): maximizing chemical oxygen demand (COD) removal from wastewater

机译：从微生物燃料电池（MFC）到微生物电化学通气管（MES）：最大程度地去除废水中的化学需氧量（COD）

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The paper introduces the concept of the microbial electrochemical snorkel (MES), a simplified design of a “short-circuited” microbial fuel cell (MFC). The MES cannot provide current but it is optimized for wastewater treatment. An electrochemically active biofilm (EAB) was grown on graphite felt under constant polarization in an urban wastewater. Controlling the electrode potential and inoculating the bioreactor with a suspension of an established EAB improved the performance and the reproducibility of the anodes. Anodes, colonized by an EAB were tested for the chemical oxygen demand (COD) removal from urban wastewater using a variety of bio-electrochemical processes (microbial electrolysis, MFC, MES). The MES technology, as well as a short-circuited MFC, led to a COD removal 57% higher than a 1000 Ω-connected MFC, confirming the potential for wastewater treatment.

机译：本文介绍了微生物电化学通气管（MES）的概念，它是“短路”微生物燃料电池（MFC）的简化设计。 MES无法提供电流，但已针对废水处理进行了优化。在不断极化的城市污水中，在石墨毡上生长了电化学活性生物膜（EAB）。控制电极电势并用已建立的EAB悬浮液接种生物反应器可以改善阳极的性能和可重复性。使用各种生物电化学过程（微生物电解，MFC，MES）测试了由EAB殖民的阳极从城市废水中去除化学需氧量（COD）的能力。 MES技术以及短路的MFC导致的COD去除率比连接1000Ω的MFC高57％，证实了废水处理的潜力。

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Erable Benjamin; Etcheverry Luc; Bergel Alain;
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年度 2011
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正文语种 {"code":"en","name":"English","id":9}
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1. From microbial fuel cell (MFC) to microbial electrochemical snorkel (MES): maximizing chemical oxygen demand (COD) removal from wastewater [J] . Benjamin Erable, Luc Etcheverry, Alain Bergel Biofouling . 2011,第3a4期

机译：从微生物燃料电池（MFC）到微生物电化学通气管（MES）：最大程度地去除废水中的化学需氧量（COD）
2. Removal of chemical oxygen demand (COD) and heavy metals by catalytic ozonation-microbial fuel cell and Acidithiobacillus ferrooxidans leaching in flotation wastewater (FW) [J] . Bian Zhenzhong, Feng Yali, Li Haoran, Water Science and Technology . 2019,第11a12期

机译：通过催化臭氧 - 微生物燃料电池和酸酐浸出在浮选废水（FW）中浸出的化学需氧量（COD）和重金属去除
3. Power generation and organics removal from wastewater using activated carbon nanofiber (AGNF) microbial fuel cells (MFCs) [J] . Udayarka Karra, Seetha S. Manickam, Jeffrey R. McCutcheon, International journal of hydrogen energy . 2013,第3期

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4. The Influence of the Electrode Anode Sizes of the Microbial Fuel Cell (MFC) on the Electrical Property and COD Removal with the Electroplating Wastewater to be the Cathode [C] . WANG Yan, JIANG Ying, GUO Dong-pu, EMEM 2010;International conference of environment materials and environment management . 2010

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5. Novel electrochemical material applications and exoelectrogenic bacteria isolation from microbial fuel cells (MFCs) [D] . Zuo, Yi 2008

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6. A Terrestrial Single Chamber Microbial Fuel Cell-based Biosensor for Biochemical Oxygen Demand of Synthetic Rice Washed Wastewater [O] . Washington Logroño, Alex Guambo, Mario Pérez, 2016

机译：一种基于陆地单室微生物燃料电池的生物传感器用于合成稻谷洗涤废水的生化需氧量
7. Removal of chemical oxygen demand (COD) and heavy metals by catalytic ozonation–microbial fuel cell and Acidithiobacillus ferrooxidans leaching in flotation wastewater (FW) [O] . Zhenzhong Bian, Yali Feng, Haoran Li, 2019

机译：通过催化臭氧 - 微生物燃料电池和酸酐浸出在浮选废水（FW）中浸出的化学需氧量（COD）和重金属去除
8. Conjugated Oligoelectrolytes Increase Current Response and Organic Containment Removal in Wastewater Microbial Fuel Cells [R] . Garner, LE, Thomas, A W, Sumner, J J, 2012

机译：共轭低聚电解质增加废水微生物燃料电池的电流响应和有机物容器去除

From microbial fuel cell (MFC) to microbial electrochemical snorkel (MES): maximizing chemical oxygen demand (COD) removal from wastewater

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