Anolyte recirculation effects in buffered and unbuffered single-chamber air-cathode microbial fuel cells

被引:27
|
作者
Zhang, Liang [1 ,2 ]
Zhu, Xun [1 ,2 ]
Kashima, Hiroyuki [3 ]
Li, Jun [1 ,2 ]
Ye, Ding-ding [1 ,2 ]
Liao, Qiang [1 ,2 ]
Regan, John M. [3 ]
机构
[1] Chongqing Univ, Key Lab Low Grade Energy Utilizat Technol & Syst, Minist Educ, Chongqing 40003, Peoples R China
[2] Chongqing Univ, Inst Engn Thermophys, Chongqing 400030, Peoples R China
[3] Penn State Univ, Dept Civil & Environm Engn, University Pk, PA 16802 USA
来源
BIORESOURCE TECHNOLOGY | 2015年 / 179卷
关键词
Microbial fuel cell; Bufferless; Anolyte recirculation; Proton transfer; Oxygen transfer; DOMESTIC WASTE-WATER; PROTON-EXCHANGE MEMBRANE; ELECTRICITY-GENERATION; POWER-GENERATION; BIOELECTROCHEMICAL SYSTEMS; PERFORMANCE; BIOFILM; TRANSPORT; REDUCTION; COMMUNITY;
D O I
10.1016/j.biortech.2014.11.106
中图分类号
S2 [农业工程];
学科分类号
0828 ;
摘要
Two identical microbial fuel cells (MFCs) with a floating air-cathode were operated under either buffered (MFC-B) or bufferless (MFC-BL) conditions to investigate anolyte recirculation effects on enhancing proton transfer. With an external resistance of 50 X and recirculation rate of 1.0 ml/min, MFC-BL had a 27% lower voltage (9.7% lower maximal power density) but a 64% higher Coulombic efficiency (CE) than MFC-B. MFC-B had a decreased voltage output, batch time, and CE with increasing recirculation rate resulting from more oxygen transfer into the anode. However, increasing the recirculation rate within a low range significantly enhanced proton transfer in MFC-BL, resulting in a higher voltage output, a longer batch time, and a higher CE. A further increase in recirculation rate decreased the batch time and CE of MFC-BL due to excess oxygen transfer into anode outweighing the proton-transfer benefits. The unbuffered MFC had an optimal recirculation rate of 0.35 ml/min. (C) 2014 Elsevier Ltd. All rights reserved.
引用
收藏
页码:26 / 34
页数:9
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