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同步时间分辨无机卤胺测量能够分析消毒剂的降解动力学和副产物形成情况。

Simultaneous time-resolved inorganic haloamine measurements enable analysis of disinfectant degradation kinetics and by-product formation.

作者信息

Brodfuehrer Samuel H, Blomdahl Daniel C, Wahman David G, Speitel Gerald E, Misztal Pawel K, Katz Lynn E

机构信息

Maseeh Department of Civil, Architectural and Environmental Engineering, University of Texas at Austin, Austin, TX, USA.

These authors contributed equally: Samuel H. Brodfuehrer, Daniel C. Blomdahl.

出版信息

Nat Water. 2024 Apr 23;2:434-442. doi: 10.1038/s44221-024-00227-4.

DOI:10.1038/s44221-024-00227-4
PMID:38993391
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11235187/
Abstract

We demonstrate the application of proton transfer time-of-flight mass spectrometry (PTR-TOF-MS) in monitoring the kinetics of disinfectant decay in water with a sensitivity one to three orders of magnitude greater than other analytical methods. Chemical disinfection inactivates pathogens during water treatment and prevents regrowth as water is conveyed in distribution system pipes, but it also causes formation of toxic disinfection by-products. Analytical limits have hindered kinetic models, which aid in ensuring water quality and protecting public health by predicting disinfection by-products formation. PTR-TOF-MS, designed for measuring gas phase concentrations of organic compounds, was able to simultaneously monitor aqueous concentrations of five inorganic haloamines relevant to chloramine disinfection under drinking water relevant concentrations. This novel application to aqueous analytes opens a new range of applications for PTR-TOF-MS.

摘要

我们展示了质子转移飞行时间质谱(PTR - TOF - MS)在监测水中消毒剂衰减动力学方面的应用,其灵敏度比其他分析方法高1至3个数量级。化学消毒在水处理过程中使病原体失活,并在水通过配水系统管道输送时防止其再生长,但它也会导致有毒消毒副产物的形成。分析限制阻碍了动力学模型的发展,而动力学模型有助于通过预测消毒副产物的形成来确保水质和保护公众健康。PTR - TOF - MS专为测量有机化合物的气相浓度而设计,能够在与饮用水相关的浓度下同时监测与氯胺消毒相关的五种无机卤代胺的水溶液浓度。这种对水性分析物的新应用为PTR - TOF - MS开辟了一系列新的应用领域。

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