Likelihood of survival of coronavirus in a respiratory droplet deposited on a solid surface
We predict and analyze the drying time of respiratory droplets from a COVID-19 infected subject, which is a crucial time to infect another subject. The drying of the droplet is predicted by diffusion-limited evaporation model for a sessile droplet placed on a partially-wetted surface with a pinned c...
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| Published in | arXiv.org |
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| Main Authors | , |
| Format | Paper Journal Article |
| Language | English |
| Published |
Ithaca
Cornell University Library, arXiv.org
09.05.2020
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| Online Access | Get full text |
| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.2005.10897 |
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| Abstract | We predict and analyze the drying time of respiratory droplets from a COVID-19 infected subject, which is a crucial time to infect another subject. The drying of the droplet is predicted by diffusion-limited evaporation model for a sessile droplet placed on a partially-wetted surface with a pinned contact line. The variation of droplet volume, contact angle, ambient temperature, and humidity are considered. We analyze the chances of the survival of the viruses present in the droplet, based on the lifetime of the droplets in several conditions, and find that the chances of survival of the virus are strongly affected by each of these parameters. The magnitude of shear stress inside the droplet computed using the model is not large enough to obliterate the virus. We also explore the relationship between the drying time of a droplet and the growth rate of the spread of COVID-19 for five different cities, and find that they are weakly correlated. |
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| AbstractList | We predict and analyze the drying time of respiratory droplets from a
COVID-19 infected subject, which is a crucial time to infect another subject.
The drying of the droplet is predicted by diffusion-limited evaporation model
for a sessile droplet placed on a partially-wetted surface with a pinned
contact line. The variation of droplet volume, contact angle, ambient
temperature, and humidity are considered. We analyze the chances of the
survival of the viruses present in the droplet, based on the lifetime of the
droplets in several conditions, and find that the chances of survival of the
virus are strongly affected by each of these parameters. The magnitude of shear
stress inside the droplet computed using the model is not large enough to
obliterate the virus. We also explore the relationship between the drying time
of a droplet and the growth rate of the spread of COVID-19 for five different
cities, and find that they are weakly correlated. We predict and analyze the drying time of respiratory droplets from a COVID-19 infected subject, which is a crucial time to infect another subject. The drying of the droplet is predicted by diffusion-limited evaporation model for a sessile droplet placed on a partially-wetted surface with a pinned contact line. The variation of droplet volume, contact angle, ambient temperature, and humidity are considered. We analyze the chances of the survival of the viruses present in the droplet, based on the lifetime of the droplets in several conditions, and find that the chances of survival of the virus are strongly affected by each of these parameters. The magnitude of shear stress inside the droplet computed using the model is not large enough to obliterate the virus. We also explore the relationship between the drying time of a droplet and the growth rate of the spread of COVID-19 for five different cities, and find that they are weakly correlated. |
| Author | Bhardwaj, Rajneesh Agrawal, Amit |
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| BackLink | https://doi.org/10.1063/5.0012009$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.2005.10897$$DView paper in arXiv |
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| Snippet | We predict and analyze the drying time of respiratory droplets from a COVID-19 infected subject, which is a crucial time to infect another subject. The drying... We predict and analyze the drying time of respiratory droplets from a COVID-19 infected subject, which is a crucial time to infect another subject. The drying... |
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| SubjectTerms | Ambient temperature Contact angle Coronaviruses COVID-19 Droplets Drying Physics - Fluid Dynamics Physics - Physics and Society Physics - Soft Condensed Matter Shear stress Solid surfaces Survival Viral diseases Viruses |
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| Title | Likelihood of survival of coronavirus in a respiratory droplet deposited on a solid surface |
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