碳化和活化廉价半焦填充电极以增强微生物燃料电池的发电能力。
Carbonization and activation of inexpensive semicoke-packed electrodes to enhance power generation of microbial fuel cells.
机构信息
State Key Joint Laboratory of Environment Simulation and Pollution Control, THU-VEOLIA Environment Joint Research Center for Advanced Environmental Technology, School of Environment, Tsinghua University, Beijing, 100084, P.R. China.
出版信息
ChemSusChem. 2012 Jun;5(6):1065-70. doi: 10.1002/cssc.201100718. Epub 2012 May 25.
A simple and low-cost modification method was developed to improve the power generation performance of inexpensive semicoke electrode in microbial fuel cells (MFCs). After carbonization and activation with water vapor at 800-850 °C, the MFC with the activated coke (modified semicoke) anode produced a maximum power density of 74 Wm(-3) , 17 Wm(-3) , and 681 mWm(-2) (normalized to anodic liquid volume, total reactor volume, and projected membrane surface area, respectively), which was 124 % higher than MFCs using a semicoke anode (33 Wm(-3) , 8 Wm(-3) , and 304 mWm(-2) ). When they were used as biocathode materials, activated coke produced a maximum power density of 177 Wm(-3) , 41 Wm(-3) , and 1628 mWm(-2) (normalized to cathodic liquid volume, total reactor volume, and projected membrane surface area, respectively), which was 211 % higher than that achieved by MFCs using a semicoke cathode (57 Wm(-3) , 13 Wm(-3) , and 524 mWm(-2) ). A substantial increase was also noted in the conductivity, C/O mass ratio, and specific area for activated coke, which reduced the ohmic resistance, increased biomass density, and promoted electron transfer between bacteria and electrode surface. The activated coke anode also produced a higher Coulombic efficiency and chemical oxygen demand removal rate than the semicoke anode.
开发了一种简单且低成本的改性方法,以提高微生物燃料电池(MFC)中廉价半焦电极的发电性能。在 800-850°C 下用水蒸气碳化和活化后,以活化焦(改性半焦)为阳极的 MFC 的最大功率密度为 74 Wm(-3)、17 Wm(-3)和 681 mWm(-2)(分别归一化为阳极液体积、总反应器体积和投影膜表面积),比使用半焦阳极的 MFC 高 124%(33 Wm(-3)、8 Wm(-3)和 304 mWm(-2))。当它们用作生物阴极材料时,活化焦的最大功率密度为 177 Wm(-3)、41 Wm(-3)和 1628 mWm(-2)(分别归一化为阴极液体积、总反应器体积和投影膜表面积),比使用半焦阴极的 MFC 高 211%(57 Wm(-3)、13 Wm(-3)和 524 mWm(-2))。活化焦的电导率、C/O 质量比和比表面积也有显著提高,从而降低了欧姆电阻,增加了生物量密度,并促进了细菌和电极表面之间的电子转移。与半焦阳极相比,活化焦阳极还产生了更高的库仑效率和化学需氧量去除率。
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