Feasibility assessment of electrochemical chlorination for direct potable reuse

IF 6.6 Q1 ENGINEERING, ENVIRONMENTAL Journal of hazardous materials letters Pub Date : 2024-07-31 DOI:10.1016/j.hazl.2024.100117
Kaichao Yang , Ibrahim M. Abu-Reesh , Zhen He
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Abstract

Electrochemical chlorination is promising for direct potable reuse (DPR) with zero-chemical-input and was investigated in this study for its application potential in reverse osmosis (RO)-based and non-RO-based DPR processes. Treatment of the simulated reclaimed water from non-RO-based trains showed satisfactory chlorine evolution compared to that from the RO-based trains. Under an applied current of 100 mA, a desired free chlorine concentration of 2 mg Cl2 L−1 was obtained within a short reaction time of 3.5 s. Consistent chlorine evolution performance was achieved in continuous experiments for 500 cycles, and the effluent pH was within the range of potable water guidelines (6.5 – 8.5). Electrochemical chlorination showed competitive disinfection performance compared to conventional chemical chlorination (7 log inactivation of E. coli within 60 s) at a low energy demand of ∼ 0.05 kWh m−3. The results of this preliminary investigation encourage the further exploration of electrochemical chlorination for DPR through the use of noble-metal-free anodes, utilization of renewable energy sources, removing persistent organic contaminants, and examining the synergy with RO-based DPR.

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电化学氯化法用于直接饮用水回用的可行性评估
电化学氯化法有望实现零化学投入的直接饮用水回用(DPR),本研究对其在反渗透(RO)法和非反渗透(RO)法直接饮用水回用工艺中的应用潜力进行了调查。与反渗透工艺相比,非反渗透工艺的模拟再生水处理效果令人满意。在施加 100 mA 电流的情况下,可在 3.5 秒的短反应时间内获得 2 mg Cl2 L-1 的理想游离氯浓度。在连续 500 个循环的实验中,氯的进化性能稳定,出水 pH 值在饮用水标准(6.5 - 8.5)范围内。与传统的化学氯化法相比,电化学氯化法的消毒效果很有竞争力(60 秒内灭活大肠杆菌 7 个对数值),而且能耗低,仅为 0.05 kWh m-3。这项初步调查的结果鼓励人们通过使用不含惰性金属的阳极、利用可再生能源、去除持久性有机污染物以及研究与基于反渗透技术的 DPR 的协同作用,进一步探索电化学氯化技术在 DPR 中的应用。
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来源期刊
Journal of hazardous materials letters
Journal of hazardous materials letters Pollution, Health, Toxicology and Mutagenesis, Environmental Chemistry, Waste Management and Disposal, Environmental Engineering
CiteScore
10.30
自引率
0.00%
发文量
0
审稿时长
20 days
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