In-situ remediation of contaminated groundwater by bioelectrochemical system: A review

IF 4.1 2区 环境科学与生态学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY International Biodeterioration & Biodegradation Pub Date : 2024-09-13 DOI:10.1016/j.ibiod.2024.105914
Weiya Wang , Jun Dong , Haifeng Zhao
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Abstract

Groundwater pollution is an important problem threatening the ecological environment and people's health, so it's very necessary to remedy the polluted groundwater. For the past few years, bioelectrochemical systems (BESs) have been widely used to remedy various polluted environments such as gas, water and solid. This is mainly attributed to following characteristics of BESs: (ⅰ) electrode can act as measureless electron acceptor/donor; (ⅱ) electrode surface can support the growth of microorganisms; (ⅲ) the electric field can stimulate naturally occurring microbial degradation activity; and (ⅳ) little or even no energy consumption. These properties enable BESs to degrade pollutants in an environmentally sustainable manner and improve the possibility of complete removal of pollutants. Therefore, this makes a lot of researchers choose to apply BESs to remediate polluted groundwater in situ. In order to fully understand BESs, this paper summarized from different aspects. Primarily, the remediation mechanism and main forms of BESs were described. Then, the application and research progress of BESs for the single and mixed pollutants removal in groundwater were reviewed. The principal variables affecting degradation performance were presented, including electrode potential, initial pollutant concentration, pH, carbon source and other process parameters and environmental conditions. Further, strategies to enhance the remediation performance of BESs were also discussed from the aspects of optimizing the system configuration, inoculating pre-enhanced microorganisms, adding redox medium and surfactant. Finally, the potential research direction of removing groundwater pollutants by BESs was proposed.

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利用生物电化学系统就地修复受污染的地下水:综述
地下水污染是威胁生态环境和人类健康的重要问题,因此治理被污染的地下水非常必要。近年来,生物电化学系统(BES)已被广泛应用于治理各种污染环境,如气体、水和固体。这主要归功于生物电化学系统的以下特点:(ⅰ)电极可充当无量纲电子受体/供体;(ⅱ)电极表面可支持微生物生长;(ⅲ)电场可刺激自然产生的微生物降解活动;以及(ⅳ)能耗低甚至无能耗。这些特性使 BES 能够以环境可持续的方式降解污染物,并提高彻底清除污染物的可能性。因此,很多研究人员选择应用 BES 就地修复受污染的地下水。为了全面了解 BES,本文从多个方面进行了总结。首先,介绍了 BES 的修复机制和主要形式。然后,综述了 BESs 在去除地下水中单一和混合污染物方面的应用和研究进展。介绍了影响降解性能的主要变量,包括电极电位、初始污染物浓度、pH 值、碳源以及其他工艺参数和环境条件。此外,还从优化系统配置、接种预增强微生物、添加氧化还原介质和表面活性剂等方面讨论了提高 BES 修复性能的策略。最后,提出了利用 BES 清除地下水污染物的潜在研究方向。
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来源期刊
CiteScore
9.60
自引率
10.40%
发文量
107
审稿时长
21 days
期刊介绍: International Biodeterioration and Biodegradation publishes original research papers and reviews on the biological causes of deterioration or degradation.
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