A Physicist View of COVID-19 Airborne Infection through Convective Airflow in Indoor Spaces

L. Anchordoqui, E. Chudnovsky
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引用次数: 24

Abstract

General Idea: Naturally produced droplets from humans (such as those produced by breathing, talking, sneezing, and coughing) include several types of cells (e.g., epithelial cells and cells of the immune system), physiological electrolytes contained in mucous and saliva (e.g. Na+, K+, Cl-), as well as, potentially, several infectious agents (e.g. bacteria, fungi, and viruses). In response to the novel coronavirus SARS-CoV-2 epidemic, which has become a major public health issue worldwide, we provide a concise overview of airborne germ transmission as seen from a physics perspective. We also study whether coronavirus aerosols can travel far from the immediate neighbourhood and get airborne with the convective currents developed within confined spaces. Methodology: Methods of fluid dynamics are utilized to analyse the behavior of various-size airborne droplets containing the virus. Study Findings: We show that existing vortices in the air can make a location far away from the source of the virus be more dangerous than a nearby (e.g., 6 feet away) location. Practical Implications: Our study reveals that it seems reasonable to adopt additional infection-control measures to the recommended 6 feet social distancing. We provide a recommendation that could help to slow down the spread of the virus.
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COVID-19通过室内对流气流传播的物理学观点
总体思路:人类自然产生的飞沫(如呼吸、说话、打喷嚏和咳嗽产生的飞沫)包括几种类型的细胞(如上皮细胞和免疫系统细胞)、粘液和唾液中含有的生理电解质(如Na+、K+、Cl-),以及潜在的几种传染性病原体(如细菌、真菌和病毒)。针对新型冠状病毒SARS-CoV-2流行已成为全球重大公共卫生问题,我们从物理学的角度对空气中细菌传播进行了简要概述。我们还研究了冠状病毒气溶胶是否可以远离邻近地区,并随着密闭空间内形成的对流气流传播。方法:利用流体动力学方法分析含有病毒的不同大小的空气飞沫的行为。研究结果:我们表明,空气中现有的涡流可以使远离病毒源的位置比附近(例如6英尺外)的位置更危险。实际意义:我们的研究表明,在建议的6英尺社交距离之外,采取额外的感染控制措施似乎是合理的。我们提供了一个建议,可以帮助减缓病毒的传播。
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