Roles of zero-valent iron in anaerobic digestion: Mechanisms, advances and perspectives

With the rapid growth of population and urbanization, more and more bio-wastes have been produced. Considering organics contained in bio-wastes, to recover resource from bio-wastes is of great significance, which can not only achieve the resource recycle, but also protect the environment. Anaerobic...

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Veröffentlicht in:The Science of the total environment 2022-12, Vol.852, p.158420-158420, Article 158420
Hauptverfasser: He, Zhang-Wei, Zou, Zheng-Shuo, Ren, Yong-Xiang, Tang, Cong-Cong, Zhou, Ai-Juan, Liu, Wenzong, Wang, Ling, Li, Zhihua, Wang, Aijie
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Sprache:eng
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Zusammenfassung:With the rapid growth of population and urbanization, more and more bio-wastes have been produced. Considering organics contained in bio-wastes, to recover resource from bio-wastes is of great significance, which can not only achieve the resource recycle, but also protect the environment. Anaerobic digestion (AD) has been proved as one of the most promising strategies to recover bio-energy from bio-wastes, as well as to realize the reduction of bio-wastes. However, the conventional interspecies electron transfer is sensitive to environmental shocks, such as high ammonia, organic pollutants, metal ions, etc., which lead to instability or failure of AD. The recent findings have proved that the introduction of zero-valent iron (ZVI) in AD system can significantly enhance methane production from bio-wastes. This review systematically highlighted the recent advances on the roles of ZVI in AD, including underlying mechanisms of ZVI on AD, performance enhancement of AD contributed by ZVI, and impact factors of AD regulated by ZVI. Furthermore, current limitations and outlooks have been analyzed and concluded. The roles of ZVI on underlying mechanisms in AD include regulating reaction conditions, electron transfer mode and function of microbial communities. The addition of ZVI in AD can not only enhance bio-energy recovery and toxic contaminants removal from bio-wastes, but also have the potential to buffer adverse effect caused by inhibitors. Moreover, the electron transfer modes induced by ZVI include both interspecies hydrogen transfer and direct interspecies electron transfer pathways. How to comprehensively evaluate the effects of ZVI on AD and further improve the roles of ZVI in AD is urgently needed for practical application of ZVI in AD. This review aims to provide some references for the introduction of ZVI in AD for enhancing bio-energy recovery from bio-wastes. [Display omitted] •Roles of ZVI in AD of bio-wastes were systematically reviewed and analyzed.•The electron transfer modes induced by ZVI in AD included IHT and DIET.•ZVI in AD can enhance both bio-energy recovery and toxic contaminants removal.•Both improper additive dosage and particle size of ZVI can cause adverse effects.•The limitations and perspectives of ZVI in AD have been discussed and concluded.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.158420