Performance of microbial fuel cell in different anode and cathode electrode sizes

机译：微生物燃料电池在不同阳极和阴极尺寸下的性能

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Power generation in microbial fuel cell (MFC) at different cathode electrode surface area was examined in two-chambered system with sodium acetate as carbon sources. When the anode surface area of 66 cm2 was used, the maximum power density increased by 44% when the cathode surface areas were increased from 66 cm2 to 336 cm2 and decreased by 21% when the cathode surface area was reduced to 14 cm2, primarily as a result of the variation of cathode potential. The power increased from 2.56 W/m3 to 3.29 W/m3 with the cathode increasing from 14 cm2 to 336 cm2 when the anode surface area of 14 cm2 was used. But a decreased power output of 2.40 W/m3 was observed when the relative electrode area of cathode and anode was 5AAn=Acat, the main reason may be the decreased in both anode and cathode potential. The low CE was in the range from 10 % to 15 % was obtained.

机译：在以乙酸钠为碳源的两腔系统中，检查了不同阴极电极表面积下微生物燃料电池（MFC）的发电情况。当使用阳极表面积为66 cm ^{2 时，当阴极表面积从66 cm ^{2 增加到336 cm 2 ，当阴极表面积减小到14 cm ^{2 时下降21％，这主要是由于阴极电势的变化所致。功率从2.56 W / m ^{3 增加到3.29 W / m ^{3 ，阴极从14 cm ^{2 增加到336 cm ^{当阳极表面积为14 cm ^{2 时为2 。但是当阴极和阳极的相对电极面积为5AAn = Acat时，观察到功率输出降低了2.40 W / m ^{3 ，主要原因可能是阳极和阴极电势均降低了。获得的低CE在10％至15％的范围内。}}}}}}}}}

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《2011 International Conference on Remote Sensing, Environment and Transportation Engineering》|2011年|p.7707-7710|共4页
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Li Lianhua; Kong Xiaoying; Sun Yongming; Yuan Zhenhong; Li Ying;
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中图分类环境遥感;
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electrode surface area; microbial fuel cell; power generation;

机译：电极表面积;微生物燃料电池;发电;

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Performance of microbial fuel cell in different anode and cathode electrode sizes

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