紫外线/氯消毒过程中氯贝酸的降解：动力学、活性物种贡献及途径

Degradation of clofibric acid in UV/chlorine disinfection process: kinetics, reactive species contribution and pathways.

作者信息

Tang Yuqing, Shi Xueting, Liu Yongze, Feng Li, Zhang Liqiu

机构信息

Beijing Key Lab for Source Control Technology of Water Pollution, College of Environmental Science and Engineering, Beijing Forestry University, Beijing 100083, People's Republic of China.

出版信息

R Soc Open Sci. 2018 Feb 7;5(2):171372. doi: 10.1098/rsos.171372. eCollection 2018 Feb.

DOI:10.1098/rsos.171372

PMID:29515853

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5830742/

Abstract

As a potential endocrine disruptor, clofibric acid (CA) was investigated in this study for its degradation kinetics and pathways in UV/chlorine process. The results showed that CA in both UV photolysis and UV/chlorine processes could be degraded via pseudo-first-order kinetics, while it almost could not be degraded in the dark chlorination process. The observed rate constant () in UV photolysis was 0.0078 min and increased to 0.0107 min combining with 0.1 mM chlorine. The increased to 0.0447 min with further increasing the chlorine dosage from 0.1 to 1.0 mM, and reached a plateau at higher dosage (greater than 1.0 mM). The higher was obtained at acid solution rather than basic solution. Moreover, the calculated contributions of radical species to indicated that the HO• contributed significantly to CA degradation in acidic conditions, while the reactive chlorine species and UV direct photolysis dominated in neutral and basic solution. The degradation of CA was slightly inhibited in the presence of [Formula: see text] (1 ∼ 50 mM), barely affected by the presence of Cl (1 ∼ 200 mM) and greatly suppressed by humic acid (0 ∼ 5 mg l). Thirteen main degradation intermediates and three degradation pathways of CA were identified during UV/chlorine process.

摘要

作为一种潜在的内分泌干扰物，本研究考察了氯贝酸（CA）在紫外/氯工艺中的降解动力学和途径。结果表明，CA在紫外光解和紫外/氯工艺中均可通过准一级动力学降解，而在黑暗氯化过程中几乎不降解。紫外光解中观察到的速率常数（）为0.0078 min，与0.1 mM氯结合时增加到0.0107 min。随着氯剂量从0.1 mM进一步增加到1.0 mM，增加到0.0447 min，并在更高剂量（大于1.0 mM）时达到平台期。在酸性溶液中比在碱性溶液中获得更高的。此外，自由基物种对的计算贡献表明，HO•在酸性条件下对CA降解有显著贡献，而活性氯物种和紫外直接光解在中性和碱性溶液中占主导地位。在[公式：见正文]（1～50 mM）存在下，CA的降解略有抑制，在Cl（1～200 mM）存在下几乎不受影响，在腐殖酸（0～5 mg·l）存在下受到极大抑制。在紫外/氯工艺中鉴定出CA的13种主要降解中间体和3条降解途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6f10/5830742/38f7c51eedcc/rsos171372-g1.jpg

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紫外线/氯消毒过程中氯贝酸的降解：动力学、活性物种贡献及途径

Degradation of clofibric acid in UV/chlorine disinfection process: kinetics, reactive species contribution and pathways.

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