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碳酸盐物种在次氯酸(HOCl)氧化溴化物和分子氯(Cl)氧化反应中的均相酸催化作用

Role of Carbonate Species on General Acid Catalysis of Bromide Oxidation by Hypochlorous Acid (HOCl) and Oxidation by Molecular Chlorine (Cl).

机构信息

Department of Civil, Architectural and Environmental Engineering, University of Texas at Austin, 301 E. Dean Keaton Street, Stop C1786, Austin, Texas 78712-0284, United States.

Office of Research and Development, United States Environmental Protection Agency, Cincinnati, Ohio 45268, United States.

出版信息

Environ Sci Technol. 2020 Dec 15;54(24):16186-16194. doi: 10.1021/acs.est.0c04563. Epub 2020 Dec 2.

DOI:10.1021/acs.est.0c04563
PMID:33263389
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7891864/
Abstract

Kinetic models for disinfectant decay and disinfection byproduct (DBP) formation are necessary for predicting water quality from the treatment plant to the tap. A kinetic model for conditions relevant to chloramine disinfection of drinking water (pH 6-9 and carbonate-buffered) was developed to simulate incomplete bromide (Br) oxidation during short prechlorination periods because it is the first step in a complex system of reactions that leads to disinfectant loss and DBP formation. Hypochlorous acid and molecular chlorine were the free chlorine species relevant to Br oxidation, and Cl hydrolysis and formation reactions were necessary to accurately simulate Cl concentrations instead of assuming equilibrium. Previous work has shown that Br oxidation by HOCl and Cl formation are acid-catalyzed and Cl hydrolysis is base-catalyzed, but the impact of carbonate species had not been studied. This work showed that the carbonate species have an enhanced catalytic impact with rate constants up to 1000 times larger than would be estimated by the Brønsted relationship for similar acids, which causes the oxidation by HOCl rate constant () to nearly double and oxidation by Cl to occur above pH 7 in high-alkalinity waters.

摘要

为了预测从处理厂到水龙头的水质,需要建立用于消毒衰减和消毒副产物(DBP)形成的动力学模型。开发了一种与饮用水氯胺消毒相关的动力学模型(pH 值为 6-9 和碳酸盐缓冲),以模拟由于其是导致消毒剂损失和 DBP 形成的复杂反应系统的第一步,所以在短预氯化期间溴化物(Br)的不完全氧化。次氯酸 和分子氯 是与 Br 氧化相关的游离氯物种,并且需要 Cl 水解和形成反应 来准确模拟 Cl 浓度,而不是假设平衡。先前的工作表明,HOCl 对 Br 的氧化和 Cl 的形成是酸催化的,而 Cl 水解是碱催化的,但尚未研究碳酸盐物种的影响。这项工作表明,碳酸盐物种具有增强的催化作用,其速率常数比类似酸的 Brønsted 关系估计的要大 1000 倍,这导致 HOCl 的氧化速率常数()几乎翻倍,并且在高碱性水中,Cl 的氧化会在 pH 值高于 7 时发生。

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