摘要
氯代挥发性有机物(chlorinated volatile organic compounds, Cl-VOCs)的化学稳定性好、毒性高、半衰期长,其去除技术一直都是环境领域的一个重点.光、电催化技术因其催化效率高、工艺设备简单、反应条件温和以及经济环保等工艺优势,受到广泛的关注.本文在对Cl-VOCs的去除方法进行简要分析的基础上,重点综述了光催化降解和电催化脱氯技术去除Cl-VOCs的研究进展.首先对Cl-VOCs的光、电催化反应机制及其优缺点进行简要总结;其次,结合光、电催化反应过程以及Cl-VOCs自身结构特点与催化剂的关系等方面,总结了催化活性的影响因素以及催化剂的种类和特性,为后期Cl-VOCs的有效处理和资源化利用以及高性能的催化剂的合理设计提供参考和依据;最后,对Cl-VOCs光、电催化去除领域潜在的发展趋势进行了展望.
Chlorinated volatile organic compounds(Cl-VOCs), including chlorinated alkanes, chlorinated alkenes and chlorinated aromatic compounds and so on, is a typical kind of environmental pollutants. Due to their significant characteristics of high volatility and poor degradability, they can be transported over long distance and existed in the environmental medium for a long time. In addition, compared with ordinary VOCs, Cl-VOCs show a high toxicity and an obvious effect of mutagenesis,carcinogenesis and teratogenesis. Most of the Cl-VOCs have been listed as priority pollutants, and were monitored and controlled strictly. Therefore, the development of efficient purification and transformation technology for Cl-VOCs has attracted great attention all over the world.At present, a large number of Cl-VOCs purification and transformation technologies have been developed for different conditions and purposes, including recovery technologies(adsorption, absorption, membrane separation and condensation), destruction technologies(incineration, catalytic oxidation, photocatalytic degradation and biodegradation)and conversion technologies(dechlorination). For different types, concentrations and emission sources of Cl-VOCs, each technology shows different advantages and limitations. Among them, photocatalytic degradation and electrocatalytic dechlorination technologies have attracted extensive attention due to their advantages of highly catalytic efficiency,economic and environmental processes, and mild reaction conditions.Photocatalytic degradation mainly uses clean solar energy to stimulate the electronic transition of semiconductor materials, the excited electrons and generated holes reacted with adsorptive species on the material surface to form strong radicals. The Cl-VOCs molecules are attacked by the radicals and mineralized into inorganic molecules, like CO2, H2O and so on. Therefore, it is one of the most promising purification technologies for Cl-VOCs. The key of the development of photocatalytic degradation technology is
作者
甘国强
李新勇
Guoqiang Gan;Xinyong Li(Key Laboratory of Industrial Ecology and Environmental Engineering(Ministry of Education),School of Environmental Science and Technology,Dalian University of Technology,Dalian 116024,China)
出处
《科学通报》
EI
CAS
CSCD
北大核心
2020年第26期2804-2819,共16页
Chinese Science Bulletin
基金
国家重点研发计划(2016YFC0204204)
国家自然科学基金重大专项(21590813)
工业生态与环境工程教育部重点实验室开放基金(KLIEEE-15-02)资助。
关键词
氯代挥发性有机物
光催化降解
电催化脱氯
催化剂
反应机制
chlorinated volatile organic compounds
photocatalytic degradation
electrocatalytic dechlorination
catalysts
reaction mechanism
