Host-to-host airborne transmission as a multiphase flow problem for science-based social distance guidelines

The COVID-19 pandemic has strikingly demonstrated how important it is to develop fundamental knowledge related to the generation, transport and inhalation of pathogen-laden droplets and their subsequent possible fate as airborne particles, or aerosols, in the context of human to human transmission....

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Published in	International journal of multiphase flow Vol. 132; p. 103439
Main Authors	Balachandar, S., Zaleski, S., Soldati, A., Ahmadi, G., Bourouiba, L.
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.11.2020 Elsevier
Subjects	Aerosol inhalation Airborne transmission Analysis of PDEs Biomechanics Chaotic Dynamics Chemical and Process Engineering Classical Physics Computer Science Condensed Matter Coughing Distributed, Parallel, and Cluster Computing Droplet evaporation Droplet nuclei Engineering Sciences Filtration efficiency of mask Fluid Dynamics Fluids mechanics Mathematics Mechanics Modeling and Simulation Nonlinear Sciences Numerical Analysis Physics Reactive fluid environment Sneezing Soft Condensed Matter Sneezing Filtration efficiency of mask Droplet evaporation Coughing Airborne transmission Aerosol inhalation Droplet nuclei
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Abstract	The COVID-19 pandemic has strikingly demonstrated how important it is to develop fundamental knowledge related to the generation, transport and inhalation of pathogen-laden droplets and their subsequent possible fate as airborne particles, or aerosols, in the context of human to human transmission. It is also increasingly clear that airborne transmission is an important contributor to rapid spreading of the disease. In this paper, we discuss the processes of droplet generation by exhalation, their potential transformation into airborne particles by evaporation, transport over long distances by the exhaled puff and by ambient air turbulence, and their final inhalation by the receiving host as interconnected multiphase flow processes. A simple model for the time evolution of droplet/aerosol concentration is presented based on a theoretical analysis of the relevant physical processes. The modeling framework along with detailed experiments and simulations can be used to study a wide variety of scenarios involving breathing, talking, coughing and sneezing and in a number of environmental conditions, as humid or dry atmosphere, confined or open environment. Although a number of questions remain open on the physics of evaporation and coupling with persistence of the virus, it is clear that with a more reliable understanding of the underlying flow physics of virus transmission one can set the foundation for an improved methodology in designing case-specific social distancing and infection control guidelines.
AbstractList	The COVID-19 pandemic has strikingly demonstrated how important it is to develop fundamental knowledge related to the generation, transport and inhalation of pathogen-laden droplets and their subsequent possible fate as airborne particles, or aerosols, in the context of human to human transmission. It is also increasingly clear that airborne transmission is an important contributor to rapid spreading of the disease. In this paper, we discuss the processes of droplet generation by exhalation, their potential transformation into airborne particles by evaporation, transport over long distances by the exhaled puff and by ambient air turbulence, and their final inhalation by the receiving host as interconnected multiphase flow processes. A simple model for the time evolution of droplet/aerosol concentration is presented based on a theoretical analysis of the relevant physical processes. The modeling framework along with detailed experiments and simulations can be used to study a wide variety of scenarios involving breathing, talking, coughing and sneezing and in a number of environmental conditions, as humid or dry atmosphere, confined or open environment. Although a number of questions remain open on the physics of evaporation and coupling with persistence of the virus, it is clear that with a more reliable understanding of the underlying flow physics of virus transmission one can set the foundation for an improved methodology in designing case-specific social distancing and infection control guidelines.
ArticleNumber	103439
Author	Balachandar, S. Ahmadi, G. Bourouiba, L. Soldati, A. Zaleski, S.
Author_xml	– sequence: 1 givenname: S. surname: Balachandar fullname: Balachandar, S. email: bala1s@ufl.edu organization: University of Florida, Gainesville, FL, USA – sequence: 2 givenname: S. surname: Zaleski fullname: Zaleski, S. email: stephane.zaleski@sorbonne-universite.fr organization: Sorbonne Université, Institut Jean Le Rond d’Alembert, Paris, France – sequence: 3 givenname: A. surname: Soldati fullname: Soldati, A. email: alfredo.soldati@tuwien.ac.at organization: TU Wien, Vienna, Austria – sequence: 4 givenname: G. surname: Ahmadi fullname: Ahmadi, G. email: ahmadi@clarkson.edu organization: Clarkson University, Potsdam, NY, USA – sequence: 5 givenname: L. surname: Bourouiba fullname: Bourouiba, L. email: lbouro@mit.edu organization: Massachusetts Institute of Technology, Cambridge, MA, USA
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Keywords	Sneezing Filtration efficiency of mask Droplet evaporation Coughing Airborne transmission Aerosol inhalation Droplet nuclei
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Snippet	The COVID-19 pandemic has strikingly demonstrated how important it is to develop fundamental knowledge related to the generation, transport and inhalation of...
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SubjectTerms	Aerosol inhalation Airborne transmission Analysis of PDEs Biomechanics Chaotic Dynamics Chemical and Process Engineering Classical Physics Computer Science Condensed Matter Coughing Distributed, Parallel, and Cluster Computing Droplet evaporation Droplet nuclei Engineering Sciences Filtration efficiency of mask Fluid Dynamics Fluids mechanics Mathematics Mechanics Modeling and Simulation Nonlinear Sciences Numerical Analysis Physics Reactive fluid environment Sneezing Soft Condensed Matter
Title	Host-to-host airborne transmission as a multiphase flow problem for science-based social distance guidelines
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