光催化氧化-吸附协同去除水中有机砷的研究进展。

IF 2.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Hadiya Ablat, Xamsiya Nurmamat, Jianrong Tian, Zhixi Zhao
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引用次数: 0

摘要

光催化氧化-吸附协同处理有机砷污染物是一种前景广阔的废水处理技术,它不仅能通过光催化降解有机砷污染物,还能通过吸附去除生成的无机砷。本文比较了二氧化钛、鹅卵石、氧化锌和氧化铜上光催化氧化-吸附协同处理单甲基胂酸、二甲基胂酸、苯基胂酸、对胂苯胺酸和 3-硝基-4-羟基苯基胂酸等有机砷污染物的结果。研究考察了有机砷分子的形态、pH 值、共存离子的影响以及天然有机物的作用。研究了光催化氧化吸附协同处理机理,比较了羟基自由基氧化机理、羟基自由基与超氧阴离子自由基协同氧化机理以及羟基自由基与空穴协同氧化机理。最后,展望了金属氧化物光催化材料的未来发展前景,以及开发稳健高效的有机砷去除技术的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Progress of photocatalytic oxidation-adsorption synergistic removal of organic arsenic in water.

Photocatalytic oxidation-adsorption synergistic treatment of organic arsenic pollutants is a promising wastewater treatment technology, which not only degrades organic arsenic pollutants by photocatalytic degradation but also removes the generated inorganic arsenic by adsorption. This paper compares the results of photocatalytic oxidation-adsorption co-treatment of organic arsenic pollutants such as monomethylarsonic acid, dimethylarsinic acid, phenylarsonic acid, p-arsanilic acid, and 3-nitro-4-hydroxyphenylarsonic acid on titanium dioxide, goethite, zinc oxide, and copper oxide. It examines the influence of the morphology of organic arsenic molecules, pH, coexisting ions, and the role of natural organic matter. The photocatalytic oxidation-adsorption co-treatment mechanism is investigated, comparing the hydroxyl radical oxidation mechanism, the hydroxyl radical and superoxide anion radical cooxidation mechanism, and the hydroxyl radical and hole cooxidation mechanism. Finally, the future prospects of metal oxide photocatalytic materials and the development of robust and efficient technologies for removing organic arsenic are envisioned.

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来源期刊
Water Environment Research
Water Environment Research 环境科学-工程:环境
CiteScore
6.30
自引率
0.00%
发文量
138
审稿时长
11 months
期刊介绍: Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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