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萘普生在氯消毒过程中的去除、转化与风险评价
引用本文:樊鑫鑫,杜尔登,李佳琦,赵丽丽,王聿琳,彭明国.萘普生在氯消毒过程中的去除、转化与风险评价[J].环境科学,2018,39(4):1645-1653.
作者姓名:樊鑫鑫  杜尔登  李佳琦  赵丽丽  王聿琳  彭明国
作者单位:常州大学环境与安全工程学院, 常州 213164,常州大学环境与安全工程学院, 常州 213164,常州大学环境与安全工程学院, 常州 213164,常州大学环境与安全工程学院, 常州 213164,常州大学环境与安全工程学院, 常州 213164,常州大学环境与安全工程学院, 常州 213164
基金项目:国家水体污染控制与治理科技重大专项(2012ZX07301-001);江苏省产学研前瞻性联合研究项目(BY2016029-09);国家环境保护土壤环境管理与污染控制重点实验室开放基金项目
摘    要:药用活性化合物(PhACs)在氯消毒过程中生成消毒副产物的问题引起了广泛关注.以典型PhACs物质萘普生(NAP)为研究对象,考察各因素对游离氯与NAP反应的影响,探究NAP氯化机制并进行风险评估.结果表明,NAP氯化反应遵循一级反应动力学,NAP在氯化过程中的降解率和反应速率常数随着NAP初始浓度和氨根离子投加量的增加而降低,随着游离氯初始浓度的增加而增大,酸性条件下更有利于NAP的氯化反应.基于HPLC-MS/MS分析鉴定出5种含氯降解中间产物,并提出氯化NAP反应机制.ESCOAR风险预测和发光菌毒性分析表明氯化NAP过程中生成了毒性更高的中间产物,对饮用水安全可能构成潜在威胁.

关 键 词:萘普生(NAP)  氯化  降解机制  中间产物  风险评价
收稿时间:2017/7/6 0:00:00
修稿时间:2017/10/20 0:00:00

Chlorination of Naproxen: Removal, Transformation and Risk Assessment
FAN Xin-xin,DU Er-deng,LI Jia-qi,ZHAO Li-li,WANG Yu-lin and PENG Ming-guo.Chlorination of Naproxen: Removal, Transformation and Risk Assessment[J].Chinese Journal of Environmental Science,2018,39(4):1645-1653.
Authors:FAN Xin-xin  DU Er-deng  LI Jia-qi  ZHAO Li-li  WANG Yu-lin and PENG Ming-guo
Institution:School of Environmental & Safety Engineering, Changzhou University, Changzhou 213164, China,School of Environmental & Safety Engineering, Changzhou University, Changzhou 213164, China,School of Environmental & Safety Engineering, Changzhou University, Changzhou 213164, China,School of Environmental & Safety Engineering, Changzhou University, Changzhou 213164, China,School of Environmental & Safety Engineering, Changzhou University, Changzhou 213164, China and School of Environmental & Safety Engineering, Changzhou University, Changzhou 213164, China
Abstract:The by-products produced during chlorination of pharmaceutically active compounds (PhACs) have created widespread public concern. Chlorination of a typical PhAC, naproxen (NAP), was studied. NAP chlorination parameters, intermediates identification, chlorination mechanism, and risk assessment during chlorination process have also been discussed. The results showed that NAP chlorination could fit well with the fist-order kinetics. The rate of removal and rate constants of NAP chlorination decreased with increasing initial NAP concentration and ammonium dosage, while these values increased with increasing initial free chlorine concentration. Acidic condition of the solution could significantly promote NAP chlorination. Five intermediates were identified by HPLC-MS/MS, and the mechanism of NAP chlorination was also put forward. Vibrio fischeri toxicity analysis and ESCOAR prediction indicated that higher toxicity intermediates were produced during NAP chlorination, which pose a potential threat to drinking water safety.
Keywords:naproxen (NAP)  chlorination  degradation mechanism  intermediate product  risk assessment
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