水中萘普生的紫外光降解机制及其产物毒性研究 |
摘要点击 2997 全文点击 1160 投稿时间:2012-08-24 修订日期:2012-09-21 |
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中文关键词 萘普生 光降解 机制 发光菌 毒性 |
英文关键词 naproxen photodegradation mechanism Vibrio fischeri toxicity |
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中文摘要 |
以120 W汞灯为紫外光光源,通过活性氧物种(ROS)的淬灭实验和溶解氧(DO)浓度实验和发光菌毒性实验,对水中萘普生(NPX)的降解机制、反应动力学及其产物毒性进行了研究. 结果表明,NPX的紫外光降解过程包括了直接光解和ROS参与的自敏化光解两个过程,同时·OH、1 O2、O2·-的自敏化光解贡献率分别为0.1%、80.2%、35.7%; 溶解氧浓度实验表明,溶解氧对萘普生的降解具有抑制作用,而且浓度越大,抑制效果越明显; 发光菌毒性实验表明,萘普生光降解生成了具有较萘普生更高风险的中间产物. 本研究中萘普生的所有光解实验过程均符合准一级动力学方程. |
英文摘要 |
This paper studies the degradation mechanism, the reaction kinetics and the toxicity of photolysis products of naproxen in waters under UV irradiation (120 W mercury lamp) by quenching experiments of reactive oxygen species (ROS), oxygen concentration experiment and toxicity evaluation using Vibrio fischeri bacteria. The results demonstrated that NPX could be degraded effectively by UV irradiation and the photolysis pathways was the sum of the degradation by direct photolysis and self-sensitization via ROS, and the contribution rates of self-sensitized photodegradation were 0.1%, 80.2%, 35.7% via·OH, 1 O2, O2·-, respectively. The effect of oxygen concentration illustrated that dissolved oxygen had an inhibitory effect on the direct photodegradation of NPX, and the higher the oxygen content, the more obvious the inhibitory effect. The toxicity evaluation illustrated the formation of some intermediate products that were more toxic than NPX during the photodegradation of NPX. The process of NPX degradation in all cases could be fitted by the pseudo first-order kinetics model. |
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