Suo Yang scite author profile

The lack of quantitative risk assessment of airborne transmission of COVID-19 under practical settings leads to large uncertainties and inconsistencies in our preventive measures. Combining in situ measurements and computational fluid dynamics simulations, we quantify the exhaled particles from normal respiratory behaviors and their transport under elevator, small classroom, and supermarket settings to evaluate the risk of inhaling potentially virus-containing particles. Our results show that the design of ventilation is critical for reducing the risk of particle encounters. Inappropriate design can significantly limit the efficiency of particle removal, create local hot spots with orders of magnitude higher risks, and enhance particle deposition causing surface contamination. Additionally, our measurements reveal the presence of a substantial fraction of faceted particles from normal breathing and its strong correlation with breathing depth.

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High-pressure laminar flame speeds and kinetic modeling of carbon monoxide/hydrogen combustion

Sun

Yang

Jomaas

et al. 2007

Proceedings of the Combustion Institute

290

179

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ADRC With Adaptive Extended State Observer and its Application to Air–Fuel Ratio Control in Gasoline Engines

Xue

Bai

Yang

et al. 2015

IEEE Trans. Ind. Electron.

347

166

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Shock tube measurements of ignition delay times for the butanol isomers

Stranic

Chase

Harmon

et al. 2012

Combustion and Flame

123

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Suo Yang

Risk assessment of airborne transmission of COVID-19 by asymptomatic individuals under different practical settings

High-pressure laminar flame speeds and kinetic modeling of carbon monoxide/hydrogen combustion

ADRC With Adaptive Extended State Observer and its Application to Air–Fuel Ratio Control in Gasoline Engines

Shock tube measurements of ignition delay times for the butanol isomers

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