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负载型纳米TiO2光催化降解水中微量二氯乙烷
引用本文:姜焕伟,王郁,董美玉,胥峥,李涵. 负载型纳米TiO2光催化降解水中微量二氯乙烷[J]. 医学教育探索, 2003, 0(3): 281-283298
作者姓名:姜焕伟  王郁  董美玉  胥峥  李涵
作者单位:[1]华东理工大学资源与环境工程学院,上海200237 [2]华东理工大学分析测试中心
基金项目:国家自然科学基金资助项目(29877007)
摘    要:利用负载型纳米TiO2作为光催化剂对水中微量二氯乙烷进行紫外光催化降解处理。研究表明二氯乙烷光催化降解属表观一级反应动力学过程。不同的二氯乙烷初始浓度、光强和催化剂用量等因素对二氯乙烷的光催化降解具有不同的效果。初始浓度在4.821—22.838mg/L范围内,随着初始浓度的增大,二氯乙烷光催化降解的反应速率常数持续增大;光强的平方根与反应速率常数呈直线相关;随催化剂用量的增加,反应速率常数呈增大趋势。

关 键 词:负载型纳米TiO2光催化剂 光催化降解 二氯乙烷 动力学

Photo-catalytic Degradation of Soluble Dichloroethane in Water with Fixed Nanometer Titanium Dioxide
JIANG Huan wei,WANG Yu,DONG Mei yu,XU Zheng,LI Han. Photo-catalytic Degradation of Soluble Dichloroethane in Water with Fixed Nanometer Titanium Dioxide[J]. Researches in Medical Education, 2003, 0(3): 281-283298
Authors:JIANG Huan wei  WANG Yu  DONG Mei yu  XU Zheng  LI Han
Abstract:Photo catalytic degradation experiments of soluble dichloroethane in water were conducted using fixed nanometer TiO 2 as photo catalyst under ultraviolet light. The results reveal that the degradation process is a pseudo first order reaction kinatically. The kinetic equations and parameters show that the degradation efficiencies of dichloroethane in water are influenced by the initial concentrations of dichloroethane, amounts of photo catalyst and illumination intensities. The rate constant of photo catalytic degradation of dichloroethane increases with the increasing of the initial concentration, the illumination intensities, and the doses of photo catalyst.
Keywords:fixed nanometer TiO 2 photo catalyst  photo catalytic degradation  dichloroethane  kinetics
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