Comparison of Halophenol, Halonitrophenol, and Halosalicylic Acid Formation vs 1-2 Carbon DBP Formation during Chlorination and Chloramination of Surface Waters.

IF 11.3 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

环境科学与技术 Pub Date : 2025-09-24 DOI:10.1021/acs.est.5c09818

Jiarui Han,Sungeun Lim,Vincent T DiPietri,Benjamin Najm,Xiangru Zhang,William A Mitch

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引用次数: 0

Abstract

Although haloaromatic disinfection byproducts (DBPs) are considered an important component of nonvolatile, high molecular weight DBPs, little research has compared haloaromatic DBP formation to the conventional 1-2 carbon DBPs during chlorination or chloramination of authentic surface waters. This study compared the concentrations of 15 halophenols, 5 halonitrophenols, and 8 halosalicylic acids to 28 1-2 carbon DBPs in samples collected in two rivers upstream and downstream of wastewater impacts, in a municipal wastewater effluent, and in five algal-impacted reservoirs treated with chlorine alone or chlorine for 1 h followed by chloramination. Halophenols and halosalicylic acids reached ∼10-600 ng/L within 2-12 h during chlorination. Halophenols degraded faster than halosalicylic acids thereafter, and ∼10-30 ng/L halosalicylic acids remained after 5 d. During chlorination/chloramination, both halophenols and halosalicylic acids remained near the levels formed during the first 1 h of chlorine contact. Halonitrophenols formed at ∼10-140 ng/L but were stable during chlorination and chlorination/chloramination. In contrast, 1-2 carbon DBPs formed at ∼50-820 μg/L, accumulating during chlorination but remaining at levels formed during the initial 1 h chlorine contact during chlorination/chloramination. The organic matter in the river samples was more potent at producing aromatic DBPs than the algal-impacted organic matter. Although the trends in halosalicylic acid concentrations during chlorination were consistent with previous observations of overall cytotoxicity, these specific haloaromatic DBPs contributed substantially less to cytotoxicity than the 1-2 carbon DBPs.

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地表水氯化和氯胺化过程中卤代酚、卤代硝基酚和卤代水杨酸生成与1-2碳DBP生成的比较

虽然卤代芳香族消毒副产物（DBPs）被认为是非挥发性高分子量DBPs的重要组成部分，但很少有研究将卤代芳香族DBP与在真实地表水氯化或氯胺化过程中形成的传统1-2碳DBPs进行比较。本研究比较了15种卤代酚、5种卤代硝基酚和8种卤代水杨酸对28种1-2碳DBPs的浓度，这些样品分别采集于废水影响上下游的两条河流、一个城市污水出水和五个受藻类影响的水库中，分别用氯单独处理或氯处理1小时后进行氯胺化处理。在氯化过程中，卤代酚和卤代水杨酸在2-12小时内达到~ 10-600 ng/L。此后，卤代酚的降解速度比卤代水杨酸快，5天后仍能保持~ 10-30 ng/L的卤代水杨酸。在氯化/氯胺化过程中，卤代酚和卤代水杨酸都保持在与氯接触前1小时形成的水平附近。在~ 10-140 ng/L时，卤代硝基苯酚形成，但在氯化和氯化/氯胺化过程中是稳定的。相比之下，1-2个碳dbp在~ 50-820 μg/L的浓度下形成，在氯化过程中积累，但在氯化/氯胺化过程中最初1小时氯接触时形成的水平保持不变。河流样品中的有机物比受藻类影响的有机物更能产生芳香dbp。虽然氯化过程中卤代水杨酸浓度的变化趋势与之前观察到的总体细胞毒性一致，但这些特定的卤代芳香dbp对细胞毒性的贡献远小于1-2碳dbp。

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来源期刊

环境科学与技术环境科学-工程：环境

CiteScore

17.50

自引率

9.60%

发文量

12359

审稿时长

2.8 months

期刊介绍： Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences. Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.