紫外联用高级氧化技术处理饮用水应用进展

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英文篇名：Research Progress of Ultraviolet Combined Advanced Oxidation Technology for Drinking Water Treatment 作者：朱欢欢 ; 孙韶华 ; 冯桂学 ; 赵清华 ; 周安然 ; 贾瑞宝 英文作者：ZHU Huanhuan;SUN Shaohua;FENG Ghuixue;ZHAO Qinghua;ZHOU Anran;JIA Ruibao;School of Water Conservancy and Environment, University of Jinan;Shandong Province City Water Supply and Drainage Water Quality Monitoring Center;School of Municipal & Environmental Engineering, Shandong Jianzhu University; 关键词：饮用水深度处理 ; 紫外(UV) ; 高级氧化 ; 新兴污染物 ; 难降解有机物 英文关键词：advanced treatment of drinking water;;UV;;advanced oxidation;;emerging pollutants;;refractory organics 中文刊名：SCLJ 英文刊名：Technology of Water Treatment 机构：济南大学水利与环境学院;山东省城市供排水水质监测中心;山东建筑大学市政与环境工程学院; 出版日期：2019-03-13 10:33 出版单位：水处理技术 年：2019 期：v.45;No.326 基金：国家水体污染控制与治理科技重大专项(2015ZX07406005);; 山东省泰山学者建设工程专项(ts201712084);; 泉城“5150”引才倍增计划 语种：中文; 页：SCLJ201903001 页数：8 CN：03 ISSN：33-1127/P 分类号：7-13+19

摘要

叙述了紫外-过氧化氢、紫外-芬顿、紫外-过氧化氢-臭氧、紫外-硫酸盐、紫外-氯、紫外-二氧化钛等紫外联用高级氧化技术在饮用水处理领域中的国内外科学研究及工程应用现状,比较了各组合技术的作用原理、处理特性及优缺点。为避免高级氧化工艺存在的缺陷,如氧化剂、催化剂消耗量大、易受水质影响、运行费用高、存在二次污染等,应针对价格低廉、稳定高效的新型氧化剂、催化剂及催化剂载体进行专项研发,降低该技术的应用成本;加强基于实际水体有机难降解污染物的降解动力学及传质机理研究,设计开发适于不同水质条件的紫外联用高级氧化一体化集成工艺的系统化光反应器,推进紫外联用的高级氧化技术实现实际工程化应用。
        The present situation of scientific research along with engineering application of ultraviolet(UV) combined advanced oxidation technologies including UV-hydrogen peroxide, UV-Fenton, UV-hydrogen peroxide-ozone, UV-sulfate, UV-chlorine, and UV-titanium dioxide in drinking water treatment field at home and abroad were described. The action principle, treatment characteristics as well as strengths and weaknesses of each technology were compared. In order to avoid the defects of advanced oxidation processes, such as high oxidant/catalyst consumption, vulnerability to water quality,costly running expense, secondary pollution and so on, special research and development on a new type of oxidant, catalyst and catalyst carrier which are cheap, stable and efficient should be carried out to reduce the application cost of the technology. Strengthening the study on degradation kinetics and mass transfer mechanism of organic refractory pollutants in real water, and designing and developing systematic photoreactors of UV integrated advanced oxidation process for different water quality conditions are urgently needed to promote the achievement of practical engineering application of UV combined advanced oxidation technology.

引文

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