Prevention of Power Overshoot and Reduction of Cathodic Overpotential by Increasing Cathode Flow Rate in Microbial Fuel Cells used Stainless Steel Scrubber Electrode

微生物燃料电池 阴极 过电位 材料科学 功率密度 石墨 超调(微波通信) 阴极保护 开路电压 体积流量 洗涤器 化学 复合材料 电极 阳极 电压 功率(物理) 电气工程 电化学 有机化学 机械 工程类 热力学 物理 物理化学
作者
Taeyoung Kim,Sukwon Kang,In Seop Chang,Hyun‐Woo Kim,Je Hoon Sung,Yee Paek,Young Hwa Kim,Jae Kyung Jang
出处
期刊:Journal of Korean Society of Environmental Engineers [Korean Society of Environmental Engineering]
卷期号:39 (10): 591-598 被引量:10
标识
DOI:10.4491/ksee.2017.39.10.591
摘要

Power overshoot phenomenon was observed in microbial fuel cells (MFCs) used non-catalyzed graphite felt as cathode. Voltage loss in MFCs was mainly caused by cathode potential loss. Cheap stainless steel scrubber, which has high conductivity, and Pt/C coated graphite felt as cathode were used for overcoming power overshoot and reducing the cathode potential loss in MFCs. The MFCs used stainless steel scrubber showed no power overshoot even slow catholyte flow rate and produced 29% enhanced maximum current density (23.9 A/m3) than MFCs used non-catalyzed graphite felt while the power overshoot phenomenon was existed in Pt/C coated MFCs. Increasing catholyte flow rate resulted in disappearing power overshoot of MFCs used non-catalyzed graphite felt. In addition, maximum power density and current density of both MFCs used non-catalyzed graphite felt and stainless steel scrubber increased by 2-3.5 times. Cathode potential losses in all region of activation loss, ohmic loss, and mass transport loss were reduced according to increase of catholyte flow rate. Therefore, stainless steel scrubber has advantages that are economical materials as electrode and prevents power overshoot, leading to enhance electricity generation. In addition, increasing catholyte flux is one of great solution when power overshoot caused by cathodic overpotential is observed in MFCs. Key words: Microbial Fuel Cell, Stainless Steel Scrubber, Power Overshoot, Overpotential, Cathode Flow Rate
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