Abstract
We have performed highly accurate numerical simulations to investigate prolonged dispersion of novel coronavirus-laden droplets in classroom air. Approximately 10,900 virus-laden droplets were released into the air by a teacher coughing and tracked for 90 min by numerical simulations. The teacher was standing in front of multiple students in a classroom. To estimate viral transmission to the students, we considered the features of the novel coronavirus, such as the virus half-life. The simulation results revealed that there was a high risk of prolonged airborne transmission of virus-laden droplets when the outlet flow of the classroom ventilation was low (i.e., 4.3 and 8.6 cm/s). The rates of remaining airborne virus-laden droplets produced by the teacher coughing were 40% and 15% after 45 and 90 min, respectively. The results revealed that students can avoid exposure to the virus-laden droplets by keeping a large distance from the teacher (5.5 m), which is more than two times farther than the currently suggested social distancing rules. The results of this study provide guidelines to set a new protection plan in the classroom to prevent airborne transmission of virus-laden droplets to students.
Highlights
At present, life shows no sign of returning to normal from the novel coronavirus (COVID-19) pandemic, and the number of new daily infections is about to reach its peak around the world
The aim of this study is to investigate prolonged airborne dispersion of novel coronavirus-laden droplets in detail using numerical simulations
We have investigated airborne dispersion of novel coronavirus-laden droplets by numerical simulations
Summary
Life shows no sign of returning to normal from the novel coronavirus (COVID-19) pandemic, and the number of new daily infections is about to reach its peak around the world. Asadi et al (2019, 2020a, 2020b) measured the droplet emission rate during human speech and discussed the diffusion risk. Bahl et al (2020) observed the virus-laden droplets expelled during coughing and sneezing with a high-speed camera. They demonstrated that the virus-laden droplets expelled during human speech can significantly disperse, and they discussed the possibility of infection spread due to asymptomatic patients. The basic mechanisms of inhalation of airborne particles and particle deposition in the respiratory airway were summarized in a review article by Inthavong (2020)
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