相对湿度对水滴中过氧化氢生成的影响。

Effect of relative humidity on hydrogen peroxide production in water droplets.

作者信息

Dulay Maria T, Huerta-Aguilar Carlos Alberto, Chamberlayne Christian F, Zare Richard N, Davidse Adriaan, Vukovic Sinisa

机构信息

Department of Chemistry, Stanford University, Stanford, CA 94305, USA.

PO Box 93167 Headon PO Burlington, ON L7M 4A3, Canada.

出版信息

QRB Discov. 2021 Jul 27;2:e8. doi: 10.1017/qrd.2021.6. eCollection 2021.

DOI:10.1017/qrd.2021.6

PMID:37529674

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10392617/

Abstract

Mist is generated by ultrasonic cavitation of water (Fisher Biograde, pH 5.5-6.5) at room temperature (20-25 °C) in open air with nearly constant temperature (22-25 °C) but varying relative humidity (RH; 24-52%) over the course of many months. Water droplets in the mist are initially about 7 μm in diameter at about 50% RH. They are collected, and the concentration of hydrogen peroxide (HO) is measured using commercial peroxide test strips and by bromothymol blue oxidation. The quantification method is based on the Fenton chemistry of dye degradation to determine the oxidation capacity of water samples that have been treated by ultrasonication. It is found that the hydrogen peroxide concentration varies nearly linearly with RH over the range studied, reaching a low of 2 parts per million (ppm) at 24% RH and a high of 6 ppm at 52% RH. Some possible public health implications concerning the transmission of respiratory viral infections are suggested for this threefold change in HO concentration with RH.

摘要

雾气是通过在室温（20 - 25°C）下，于近恒温（22 - 25°C）但相对湿度（RH；24 - 52%）在数月间变化的露天环境中，对水（Fisher Biograde，pH 5.5 - 6.5）进行超声空化而产生的。在约50%相对湿度下，雾气中的水滴初始直径约为7微米。收集这些水滴，并使用商用过氧化物测试条以及通过溴百里酚蓝氧化法来测量过氧化氢（HO）的浓度。该定量方法基于染料降解的芬顿化学原理，以确定经超声处理的水样的氧化能力。研究发现，在所研究的范围内，过氧化氢浓度随相对湿度几乎呈线性变化，在24%相对湿度时低至百万分之二（ppm），在52%相对湿度时高至6 ppm。针对HO浓度随相对湿度呈三倍变化的情况，提出了一些关于呼吸道病毒感染传播的可能的公共卫生影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ae0c/10392617/dedb2eaf6d17/S2633289221000065_figAb.jpg

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相对湿度对水滴中过氧化氢生成的影响。

Effect of relative humidity on hydrogen peroxide production in water droplets.

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