采用玻璃棉膜的单室微生物燃料电池（MFC）中厌氧废水处理生物电生产过程的生化评估

Biochemical evaluation of bioelectricity production process from anaerobic wastewater treatment in a single chambered microbial fuel cell (MFC) employing glass wool membrane.

作者信息

Venkata Mohan S, Veer Raghavulu S, Sarma P N

机构信息

Bioengineering and Environmental Centre, Indian Institute of Chemical Technology, Hyderabad 500007, India.

出版信息

Biosens Bioelectron. 2008 Apr 15;23(9):1326-32. doi: 10.1016/j.bios.2007.11.016. Epub 2007 Dec 3.

DOI:10.1016/j.bios.2007.11.016

PMID:18248978

Abstract

Biochemical functioning of single chambered microbial fuel cell (MFC) using glass wool as proton exchange membrane (PEM) operated with selectively enriched acidogenic mixed culture was evaluated in terms of bioelectricity production and wastewater treatment. Performance of MFC was studied at two different organic/substrate loading rates (OLR) (2.64 and 3.54 kg COD/m(3)) and operating pH 6 and 7 using non-coated plain graphite electrodes (mediatorless anode; air cathode). Applied OLR in association with operating pH showed marked influence on the power output and substrate degradation efficiency. Higher current density was observed at acidophilic conditions [pH 6; 98.13 mA/m(2) (2.64 kg COD/m(3)-day; 100 Omega) and 111.29 mA/m(2) (3.54 kg COD/m(3)-day; 100 Omega)] rather than neutral conditions [pH 7; 100.52 mA/m(2) (2.64 kg COD/m(3)-day; 100 Omega) and 98.13 mA/m(2) (3.54 kg COD/m(3)-day; 100 Omega)]. On the contrary, effective substrate degradation was observed at neutral pH. MFC performance was evaluated employing polarization curve, impedance analysis, cell potential, Coulombic efficiency and bioprocess monitoring. Sustainable power yield was calculated at stable cell potential.

摘要

以玻璃棉作为质子交换膜（PEM）、采用选择性富集产酸混合培养物运行的单室微生物燃料电池（MFC）的生化功能，通过生物电产生和废水处理进行了评估。使用未涂覆的普通石墨电极（无介质阳极；空气阴极），在两种不同的有机/底物负荷率（OLR）（2.64和3.54 kg COD/m³）以及操作pH值为6和7的条件下研究了MFC的性能。所应用的OLR与操作pH值相结合，对功率输出和底物降解效率产生了显著影响。在嗜酸条件下[pH 6；98.13 mA/m²（2.64 kg COD/m³·天；100Ω）和111.29 mA/m²（3.54 kg COD/m³·天；100Ω）]观察到的电流密度高于中性条件下[pH 7；100.52 mA/m²（2.64 kg COD/m³·天；100Ω）和98.13 mA/m²（3.54 kg COD/m³·天；100Ω）]。相反，在中性pH值下观察到了有效的底物降解。通过极化曲线、阻抗分析、电池电位、库仑效率和生物过程监测对MFC性能进行了评估。在稳定的电池电位下计算了可持续的功率产量。

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采用玻璃棉膜的单室微生物燃料电池（MFC）中厌氧废水处理生物电生产过程的生化评估

Biochemical evaluation of bioelectricity production process from anaerobic wastewater treatment in a single chambered microbial fuel cell (MFC) employing glass wool membrane.

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