电-过氧化物酮工艺在水和废水处理中的性能综述

IF 5.7 3区环境科学与生态学 Q1 WATER RESOURCES

Applied Water Science Pub Date : 2025-08-31 DOI:10.1007/s13201-025-02596-x

Mohadeseh Gholamzadeh, Ali Naghizadeh, Farzaneh Gholizadeh, Elham Derakhshani

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引用次数: 0

摘要

电-过氧酮工艺作为一种先进的氧化技术，因其在污水处理和污染物去除方面的有效性而受到越来越多的关注。该工艺将电化学氧化与电解原位生成过氧化氢相结合，显著提高了污染物的降解能力。本研究的目的是对2014 - 2024年期间与电-过酮工艺相关的研究进行系统回顾。为此，在Scopus、PubMed、ScienceDirect和Web of Science等知名数据库中进行了全面的搜索。考察的关键参数包括污染物类型、最佳pH值、初始污染物浓度、最佳反应时间、阴极和阳极类型、流速和电流密度，并对这些参数进行了详细分析。在279篇被筛选的文章中，有72篇符合纳入标准。在这些研究中，电-过氧酮法对污染物的去除率超过50%，有的甚至达到100%。这些结果强调了该过程在消除污染物方面的高功效，并强调了其增强现有废水处理方法的潜力。本文为从事水和废水处理的研究人员和工程师提供了宝贵的资源，为未来的研究途径铺平了道路。图形抽象

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Performance of the electro-peroxone process in water and wastewater treatment: a comprehensive review

The electro-peroxone process, as an advanced oxidation technology, has gained increasing attention for its effectiveness in wastewater treatment and pollutant removal. This process combines electrochemical oxidation with the in situ generation of hydrogen peroxide through electrolysis, which significantly enhances the degradation of contaminants. The objective of this study is to conduct a systematic review of research related to the electro-peroxone process during the period from 2014 to 2024. To this end, a comprehensive search was performed in reputable databases including Scopus, PubMed, ScienceDirect, and Web of Science. Key parameters examined include the type of pollutant, optimal pH, initial pollutant concentration, optimal reaction time, type of cathode and anode, flow rate, and current density, all analyzed in detail. Out of 279 screened articles, 72 met the inclusion criteria. In these studies, the removal efficiency of pollutants through the electro-peroxone process was reported to exceed 50%, with some cases achieving up to 100% removal. These results underscore the high efficacy of this process in eliminating pollutants and highlight its potential to enhance existing wastewater treatment methods. This article serves as a valuable resource for researchers and engineers working in water and wastewater treatment, paving the way for future research avenues.