评估腐烂大米通过微生物燃料电池发电生物处理甲醛的效果

IF 3 4区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
M. N. M. Ibrahim, C. Guerrero-Barajas, M. O. Idris, A. A. Alsaedi, S. S. Abdullahi, A. El-Marghany, I. Warad
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引用次数: 0

摘要

微生物燃料电池(MFC)目前面临的挑战之一是微生物物种的有机底物不稳定,导致电子生成能力差。本研究利用腐烂大米作为 MFC 的有机基质,促进微生物物种的活性,消除有机污染物甲醛,提高发电量。只有少数研究在 MFC 中使用大米废弃物作为有机基质,而且这些研究仅适用于有害金属的去除。这项研究在单室 MFC 中进行,为期 30 天。每天监测 MFC 产生的电压,每隔一段时间监测甲醛的去除情况。运行结束后,对电极进行生物检测,以确定微生物物种的影响。运行 30 天后,甲醛的生物修复效率达到 71%。第 20 天记录到的系统最大电压为 394 mV。这项研究展示了腐烂大米在细胞中氧化的反应过程。此外,还详细介绍了甲醛清除和电子产生的降解机制。研究表明,腐烂大米是一种适合 MFC 中微生物物种的有机底物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evaluating the effectiveness of rotten rice to bioremediate formaldehyde with power generation through a microbial fuel cell

Evaluating the effectiveness of rotten rice to bioremediate formaldehyde with power generation through a microbial fuel cell

One of the current challenges confronting the microbial fuel cell (MFC) is the unstable organic substrate for microbial species, which results in poor electron generation. This work utilized the rotten rice as an organic substrate in the MFC to promote microbial species activity, eliminate the organic pollutant formaldehyde, and increase power generation capacity. Only a few research used rice waste as an organic substrate in MFC, and they were solely applicable to hazardous metal removal. The study was conducted in a single-chambered MFC over a 30-day period. The voltage generation of the MFC was monitored daily, while formaldehyde removal was monitored at regular intervals. After the operation, the electrodes were biologically examined to determine the influence of the microbial species. The bioremediation efficiency of formaldehyde was 71% which was achieved in 30 operational days. The maximum voltage from the system was recorded on day 20 and was found to be 394 mV. This study presented the reaction process of rotten rice oxidation in the cell. Furthermore, the formaldehyde removal and electron generation degradation mechanisms are detailed. The study suggests that the rotten rice is a suitable organic substrate for the microbial species in MFC.

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来源期刊
CiteScore
5.60
自引率
6.50%
发文量
806
审稿时长
10.8 months
期刊介绍: International Journal of Environmental Science and Technology (IJEST) is an international scholarly refereed research journal which aims to promote the theory and practice of environmental science and technology, innovation, engineering and management. A broad outline of the journal''s scope includes: peer reviewed original research articles, case and technical reports, reviews and analyses papers, short communications and notes to the editor, in interdisciplinary information on the practice and status of research in environmental science and technology, both natural and man made. The main aspects of research areas include, but are not exclusive to; environmental chemistry and biology, environments pollution control and abatement technology, transport and fate of pollutants in the environment, concentrations and dispersion of wastes in air, water, and soil, point and non-point sources pollution, heavy metals and organic compounds in the environment, atmospheric pollutants and trace gases, solid and hazardous waste management; soil biodegradation and bioremediation of contaminated sites; environmental impact assessment, industrial ecology, ecological and human risk assessment; improved energy management and auditing efficiency and environmental standards and criteria.
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