反硝化
废水
化学
环境化学
生物利用度
环境科学
废物管理
环境工程
有机化学
氮气
生物信息学
生物
工程类
作者
Shao Yun Shan,Shicong Du,Asma Batool,Yichun Lu,K. Fung,Shuquan Huang,Yangxin Jin,Shengqin Liu,Qi Zhu,Yuhe He,Alicia Kyoungjin An,Patrick K. H. Lee,Jason Chun‐Ho Lam
标识
DOI:10.1021/acs.est.5c00950
摘要
). However, this process can be inhibited in the presence of aromatic substrates. Conventional advanced oxidation protocols involve the mineralization of aromatics, but the widespread adoption of such protocols is limited by high energy and chemical requirements. In this study, we present a novel electrochemical hydrogenation (ECH) protocol to transform bioinhibiting aromatics into bioavailable aliphatic products, thereby promoting biologically driven denitrification. A highly active carbon-supported ruthenium electrode was designed to convert various unsaturated, aromatic, and halogenated aromatic pollutants into aliphatic products, achieving conversion efficiencies of 66.0%-100%. After 5 day incubation, the saturated products enhanced the denitrification rate by up to 614.0%. The relative abundance of denitrifiers in the sequencing batch reactor landfill sludge increased, confirming that the aliphatic products from ECH treatment could enhance bioavailability. This work demonstrates the integration of electrochemical and biological catalysis, valorizing pollutants into biologically useful products that can improve denitrification, especially in existing high-organic-load wastewater treatment networks.
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