Model-based Evaluation of the Effect of Temperature on Electric Power Generation in Microbial Fuel Cells

Q3 Environmental Science Journal of Water and Environment Technology Pub Date : 2021-01-01 DOI:10.2965/JWET.20-142

Aiichiro Fujinaga, Y. Yamaguchi, N. Kishimoto, S. Taniguchi

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引用次数: 1

Abstract

To assess the effect of temperature on the electric power generation of a microbial fuel cell (MFC), a series of experiments was conducted across a 5–55°C temperature range. We found that the currents generated were not proportional to the temperature, with the currents at 15 and 45°C higher than those at other temperatures. In order to determine the reason for this, a mathematical model, using a diffusion layer in an MFC, was developed, and analysis of this model suggested that the MFC temperature characteristics were caused by aerobic and anaerobic reactions being lower at 15 and 45°C. Our calculations indicated that the consumption of organic compounds predominantly occurred at specific temperatures and that diffusion of the compounds affected the current. These calculations made it possible to estimate the influence of aerobic and anaerobic reactions on power generation in the MFC within a prescribed temperature range. This work suggests that, using this model, competi tive reactions in electrogenic bacteria could be controlled by setting the correct temperature.

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温度对微生物燃料电池发电影响的模型评价

为了评估温度对微生物燃料电池(MFC)发电的影响，在5-55°C的温度范围内进行了一系列实验。我们发现产生的电流与温度不成正比，在15°C和45°C时的电流比其他温度下的电流高。为了确定这一现象的原因，我们利用MFC中的扩散层建立了一个数学模型，对该模型的分析表明，MFC的温度特性是由15°C和45°C时的好氧和厌氧反应较低引起的。我们的计算表明，有机化合物的消耗主要发生在特定温度下，化合物的扩散影响电流。这些计算使得在规定的温度范围内估计好氧和厌氧反应对MFC发电的影响成为可能。这项工作表明，使用该模型，电致细菌中的竞争反应可以通过设置正确的温度来控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Water and Environment Technology Environmental Science-Water Science and Technology

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

43 weeks

期刊介绍： The Journal of Water and Environment Technology is an Open Access, fully peer-reviewed international journal for all aspects of the science, technology and management of water and the environment. The journal’s articles are clearly placed in a broader context to be relevant and interesting to our global audience of researchers, engineers, water technologists, and policy makers. JWET is the official journal of the Japan Society on Water Environment (JSWE) published in English, and welcomes submissions that take basic, applied or modeling approaches to the interesting issues facing the field. Topics can include, but are not limited to: water environment, soil and groundwater, drinking water, biological treatment, physicochemical treatment, sludge and solid waste, toxicity, public health and risk assessment, test and analytical methods, environmental education and other issues. JWET also welcomes seminal studies that help lay the foundations for future research in the field. JWET is committed to an ethical, fair and rapid peer-review process. It is published six times per year. It has two article types: Original Articles and Review Articles.