The motion of respiratory droplets produced by coughing

Wang, Hongping; Li, Zhaobin; Zhang, Xinlei; Zhu, Lixing; Liu, Yi; Wang, Shizhao

doi:10.1063/5.0033849

Cited by 75 publications

(40 citation statements)

References 52 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In this study, we performed two experiments in different oxygen delivery modes and modalities. Based on the particle visualization study, we found that visible droplets reached 60–80 cm while speaking and 1 m while coughing in a sitting position; the findings are similar to those in a recent study (13). In addition, these findings support results in a systematic meta-analysis, which showed that a physical distance of 1 m or more is optimum to reduce person-to-person virus transmission and to keep healthcare workers from contracting the SARS-CoV-2 infection (14).…”

Section: Discussionsupporting

confidence: 89%

Effects of surgical masks on droplet and aerosol dispersion under various oxygen delivery modalities

Takazono

Yamamoto

Okamoto³

et al. 2021

Preprint

View full text Add to dashboard Cite

RationaleAerosol dispersion under various oxygen delivery modalities, including high flow nasal cannula, is a critical concern for healthcare workers who treat acute hypoxemic respiratory failure during the coronavirus disease 2019 pandemic. Effects of surgical masks on droplet and aerosol dispersion under oxygen delivery modalities are not yet clarified.ObjectivesTo visualize and quantify dispersion particles under various oxygen delivery modalities and examine the protective effect of surgical masks on particle dispersion.MethodsThree and five healthy men were enrolled for video recording and quantification of particles, respectively. Various oxygen delivery modalities including high flow nasal cannula were used in this study. Particle dispersions during rest breathing, speaking, and coughing were recorded and automatically counted in each condition and were evaluated with or without surgical masks.Measurements and Main ResultsCoughing led to the maximum amount and distance of particle dispersion, regardless of modalities. Droplet dispersion was not visually increased by oxygen delivery modalities compared to breathing at room air. With surgical masks over the nasal cannula or high-flow nasal cannula, droplet dispersion was barely visible. Oxygen modalities did not increase the particle dispersion counts regardless of breathing pattens. Wearing surgical masks significantly decreased particle dispersion in all modalities while speaking and coughing, regardless of particle sizes, and reduction rates were approximately 95 and 80-90 % for larger (> 5 μm) and smaller (> 0.5 μm) particles, respectively.ConclusionsSurgical mask over high flow nasal canula may be safely used for acute hypoxemic respiratory failure including coronavirus disease 2019 patients.Subject Category List4.13 Ventilation: Non-Invasive/Long-Term/Weaning*This article has an online data supplement, which is accessible from this issue’s table of content online at www.atsjournals.org.

show abstract

Section: Discussionsupporting

confidence: 89%

Effects of surgical masks on droplet and aerosol dispersion under various oxygen delivery modalities

Takazono

Yamamoto

Okamoto³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…In addition, an evaporation model 39 is implemented to model the mass and the diameter ( D ) change of droplets as follows:

where D is the droplet diameter, M L is the molecular weight of water (0.018 kg/mole),

is the average diffusion coefficient for vapor molecules in the saturated film around the droplet,

998

is the density of water,

J/(mol K) is the gas constant, T f is the temperature in the saturated film around the droplet, Re is Reynolds' number, Sc is Schmidt's number, and

is the difference between the vapor pressure near the droplet and that in the ambient atmosphere. According to a recent study, 40 this model can estimate well the evaporation of cough-generated droplets in motion. These parameters are dependent on the environment temperature T and relative humidity ( RH ), which are chosen as

20

C and

in this study, representing a winter indoor environment approximately.…”

mentioning

confidence: 97%

Effects of slope and speed of escalator on the dispersion of cough-generated droplets from a passenger

Zhang

et al. 2021

Physics of Fluids

Self Cite

View full text Add to dashboard Cite

During the pandemic of COVID-19, the public is encouraged to take stairs or escalators instead of elevators. However, the dispersion of respiratory droplets in these places, featured by slopes and human motion, is not well understood yet. It is consequently unclear whether the commonly recommended social-distancing guidelines are still appropriate in these scenarios. In this work, we analyze the dispersion of cough-generated droplets from a passenger riding an escalator with numerical simulations, focusing on the effects of the slope and speed of the escalator on the droplet dispersion. In the simulations, a one-way coupled Eulerian–Lagrangian approach is adopted, with the air-flow solved using the Reynolds-averaged Navier–Stokes method and the droplets modeled as passive Lagrangian particles. It is found that the slope alters the vertical concentration of the droplets in the passenger's wake significantly. The deflection of cough-generated jet and the wake flow behind the passenger drive the cough-generated droplets upwards when descending an escalator and downwards when ascending, resulting in both higher suspension height and larger spreading range of the viral droplets on a descending escalator than on an ascending one. These findings suggest that the present social-distancing guidelines may be inadequate on descending escalators and need further investigation.

show abstract

“…The oval shape deformation of the droplet cloud can be explained as a result of different advancing and settling velocities of droplets of different sizes. 21 At t = 2.0 s, the cloud drops approximately to the waist height and deforms into an elongated shape that expands horizontally for both cases. Significant differences between the two cases are observed starting from this instant.…”

mentioning

confidence: 91%

Effects of space sizes on the dispersion of cough-generated droplets from a walking person

Wang

Zhang

et al. 2020

Physics of Fluids

Self Cite

View full text Add to dashboard Cite

The dispersion of viral droplets plays a key role in the transmission of COVID-19. In this work, we analyze the dispersion of cough-generated droplets in the wake of a walking person for different space sizes. The air flow is simulated by solving the Reynolds-averaged Navier–Stokes equations, and the droplets are modeled as passive Lagrangian particles. Simulation results show that the cloud of droplets locates around and below the waist height of the manikin after 2 s from coughing, which indicates that kids walking behind an infectious patient are exposed to higher transmission risk than adults. More importantly, two distinct droplet dispersion modes occupying significantly different contamination regions are discovered. A slight change of space size is found being able to trigger the transition of dispersion modes even though the flow patterns are still similar. This shows the importance of accurately simulating the air flow in predicting the dispersion of viral droplets and implies the necessity to set different safe-distancing guidelines for different environments.

show abstract

The motion of respiratory droplets produced by coughing

Cited by 75 publications

References 52 publications

Effects of surgical masks on droplet and aerosol dispersion under various oxygen delivery modalities

Effects of surgical masks on droplet and aerosol dispersion under various oxygen delivery modalities

Effects of slope and speed of escalator on the dispersion of cough-generated droplets from a passenger

Effects of space sizes on the dispersion of cough-generated droplets from a walking person

Contact Info

Product

Resources

About