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新型脉冲光与二价铁协同产生碳酸氢根自由基强化降解双酚 A:参数优化与降解途径。

New combination of pulsed light and iron (II) for carbonate radical production to enhanced degradation of bisphenol A: Parameter optimization and degradation pathway.

机构信息

Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran; Environment Research Center, Research Institute for Primordial Prevention of Non-Communicable Disease, Isfahan University of Medical Sciences, Isfahan, Iran.

Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran; Environment Research Center, Research Institute for Primordial Prevention of Non-Communicable Disease, Isfahan University of Medical Sciences, Isfahan, Iran.

出版信息

J Environ Manage. 2022 Nov 15;322:116059. doi: 10.1016/j.jenvman.2022.116059. Epub 2022 Aug 30.

DOI:10.1016/j.jenvman.2022.116059
PMID:36055096
Abstract

Bisphenol A(BPA) is a common industrial chemical with significant adverse impacts on Environment and human health. The present work evaluates the efficacy of pulsed light (PL) and Fe ions in activation of sodium percarbonate (SPC) to produce hydroxyl (OH) and carbonate (CO) radicals for efficient degradation of BPA. The effects of operational parameters such as solution pH, SPC and Fe dose as well as the mixture composition were analyzed and the decomposition pathway of BPA proposed. The BPA was successfully degraded at the initial concentration of 15.0 mg/L and optimized conditions by the PL/Fe/SPC process (99.67 ± 0.29%). A rapid reduction in the degradation of BPA was observed with increasing pH due to OH radicals quenching and also the precipitation of Fe. Under the optimized conditions, degradation of BPA by PL/Fe/SPC process was five-times faster than the individual process. The quenching experiments revealed that radical and non-radical pathways on BPA degradation was accomplished with OH, CO, O, and O while OH and CO radicals (as a dominant radicals) have the contributions of 80.23% and 8.30%, respectively. Based on the detected byproducts, ring cleavage can be considered as the main transformation mechanism of BPA by the PL/Fe/SPC process.

摘要

双酚 A(BPA)是一种常见的工业化学物质,对环境和人类健康有重大的不良影响。本工作评估了脉冲光(PL)和 Fe 离子在激活过碳酸钠(SPC)以产生羟基(OH)和碳酸根(CO)自由基方面的功效,以实现 BPA 的有效降解。分析了操作参数的影响,例如溶液 pH、SPC 和 Fe 剂量以及混合物组成,并提出了 BPA 的分解途径。PL/Fe/SPC 工艺(99.67±0.29%)可在初始浓度为 15.0mg/L 的条件下成功降解 BPA。由于 OH 自由基猝灭和 Fe 的沉淀,随着 pH 的增加,BPA 的降解迅速减少。在优化条件下,PL/Fe/SPC 工艺对 BPA 的降解速度比单独的工艺快五倍。猝灭实验表明,BPA 的降解通过 OH、CO、O 和 O 完成了自由基和非自由基途径,而 OH 和 CO 自由基(作为主要自由基)的贡献分别为 80.23%和 8.30%。根据检测到的副产物,可以认为 PL/Fe/SPC 工艺是 BPA 的主要转化机制。

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