氯
电合成
盐水
水处理
分离(统计)
环境化学
化学
环境科学
环境工程
盐度
计算机科学
海洋学
地质学
有机化学
电化学
电极
物理化学
机器学习
作者
Jianan Gao,Qingquan Ma,Yihan Zhang,Shan Xue,Guangyu Guo,Bingcai Pan,Han‐Qing Yu,Wen Zhang
标识
DOI:10.1021/acs.est.5c02676
摘要
) from seawater and natural and industrial brines emerges as a transformative approach for wastewater valorization while achieving water purification. However, the effective separation of chlorine from complex saline mixtures and the mitigation of environmental impacts from chlorine derivatives are two critical challenges to tackle. Here, we report a scalable electrosynthesis platform capable of producing and separating chlorine directly at a single three-phase interface, achieving up to 97% selectivity and nearly 100% separation efficiency. Employing a three-stacked modular electrolyzer, we successfully generated sodium hypochlorite solutions at concentrations of 0.53 and 5.1 wt % from real reverse osmosis retentate and seawater. The treated brine discharge met the stringent environmental standards for chlorine-based contaminants. Compared to ion exchange and electrodialysis, this upcycling and separation process has the potential to advance decentralized chlor-alkali production and nonpotable water generation. Additionally, it can be seamlessly integrated with direct or indirect electrochemical impure water splitting, eliminating low-value oxygen production, reducing the need for alkali additives, and addressing safety concerns such as hydrogen/oxygen crossover.
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