Virus transmission by aerosol transport during short conversations

IF 2.8 Q2 MECHANICS
Rohit Singhal, S. Ravichandran, R. Govindarajan, Sourabh S. Diwan
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引用次数: 11

Abstract

Abstract The SARS-CoV-2 is transmitted not only through coughing, but also through breathing, speaking or singing. We perform direct numerical simulations of the turbulent transport of potentially infectious aerosols in short conversations, involving repetitive phrases separated by quiescent intervals. We estimate that buoyancy effects due to droplet evaporation are small, and neglect them. A two-way conversation is shown to significantly reduce the aerosol exposure compared with a relative monologue by one person and relative silence of the other. This is because of the ‘cancelling’ effect produced by the two interacting speech jets. Unequal conversation is shown to significantly increase the infection risk to the person who talks less. Interestingly, a small height difference is worse for infection spread, due to reduced interference between the speech jets, than two faces at the same level. For small axial separation, speech jets show large oscillations and reach the other person intermittently. We suggest a range of lateral separations between two people to minimize transmission risk. A realistic estimate of the infection probability is provided by including exposure through the eyes and mouth, in addition to the more common method of using inhaled virions alone. We expect that our results will provide useful inputs to epidemiological models and to disease management.
在简短对话中通过气溶胶传播病毒
摘要严重急性呼吸系统综合征冠状病毒2型不仅通过咳嗽传播,还通过呼吸、说话或唱歌传播。我们在简短的对话中对潜在传染性气溶胶的湍流传输进行了直接的数值模拟,包括由静止间隔分隔的重复短语。我们估计液滴蒸发引起的浮力效应很小,而忽略了它们。与一个人相对独白和另一个人相对沉默相比,双向对话可以显著减少气溶胶暴露。这是因为两个相互作用的语音喷流产生了“抵消”效应。不平等的谈话被证明会显著增加谈话较少的人感染的风险。有趣的是,与同一水平的两张脸相比,由于语音射流之间的干扰减少,较小的身高差异对感染传播的影响更大。对于小的轴向分离,语音射流显示出大的振荡,并间歇性地到达另一个人。我们建议两个人之间进行一系列横向隔离,以最大限度地降低传播风险。除了更常见的单独使用吸入病毒粒子的方法外,还通过包括通过眼睛和嘴巴的暴露来提供对感染概率的现实估计。我们期望我们的研究结果将为流行病学模型和疾病管理提供有用的投入。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.40
自引率
0.00%
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