用于可再生能源发电的微生物燃料电池(mfc)组件的历史和生态发展综述

IF 2.7 4区 工程技术 Q3 ELECTROCHEMISTRY
Necla Altin, R. G. Akay
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引用次数: 0

摘要

本文综述了微生物燃料电池作为一种可再生能源。mfc是一种利用厌氧条件下的产电细菌群落将化学能转化为电能的生物电化学系统。这些系统由于具有降低整体能耗、零碳排放和高能量密度的潜力而备受关注。可再生能源的迅速发展增加了生物能源,特别是mfc,成为未来最重要的能源之一的潜力。除了能源生产外,mfc还显示出生物修复和有效去除各种污染物的潜力。虽然MFC技术目前在实验室层面的应用有限,但预计在不久的将来会增加商业用途,并在可再生能源和环境可持续性领域提供巨大的潜力。本文重点介绍了复合燃料电池中使用组分的历史和生态发展,详细介绍了它们的演变及其在可再生能源生产中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Components used in microbial fuel cells (MFCs) for renewable energy generation: A review of their historical and ecological development
This review article addresses microbial fuel cells (MFCs) as a renewable energy source. MFCs are bioelectrochemical systems that use exoelectrogenic bacterial communities under anaerobic conditions to convert chemical energy into electrical energy. These systems are attracting attention due to their potential to reduce overall energy consumption, produce zero carbon emissions, and exhibit high energy density. The rapid development of renewable energy sources has increased the potential for bioenergy, particularly MFCs, to become one of the most important energy sources of the future. In addition to energy production, MFCs show potential for bioremediation and efficient removal of various pollutants. While MFC technology currently has limited application at the laboratory level, it is expected to increase in commercial use in the near future and offers great potential in the areas of renewable energy and environmental sustainability. This review article focuses on the historical and ecological development of the components used in MFCs, examining in detail their evolution and use in MFCs for renewable energy production.
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来源期刊
CiteScore
4.90
自引率
4.00%
发文量
69
期刊介绍: The Journal of Electrochemical Energy Conversion and Storage focuses on processes, components, devices and systems that store and convert electrical and chemical energy. This journal publishes peer-reviewed archival scholarly articles, research papers, technical briefs, review articles, perspective articles, and special volumes. Specific areas of interest include electrochemical engineering, electrocatalysis, novel materials, analysis and design of components, devices, and systems, balance of plant, novel numerical and analytical simulations, advanced materials characterization, innovative material synthesis and manufacturing methods, thermal management, reliability, durability, and damage tolerance.
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