Dynamics of Evaporating Aerosols in the Vicinity of Vortical Flows
ORAL
Abstract
The dispersion and evaporation of droplets are fundamental processes in aerosol science and are
essential in many atmospheric, environmental, and medical flows, including the spread of
pathogens. Almost any relative air movement about an object is expected to create vortical flow
structures in its wake, depending on its geometry and flow conditions. Therefore, a new
mathematical analysis was carried out, studying the dynamics and dispersion of aerosols under the
influence of approaching vortical flow structures. Our theoretical analysis reveals non-intuitive
interactions between the vortical structure, particle relaxation time, gravity, and mass transfer rates.
The existence of optimal conditions for maximum settling distances is suggested, where the aerosol
entrainment reaches up to an order of magnitude larger than the vortex core length scales.
Phenomena that are not directly linked to vortical flows were isolated and thus the fundamental
influence of the carrier flow over the aerosol entrainment is investigated.
essential in many atmospheric, environmental, and medical flows, including the spread of
pathogens. Almost any relative air movement about an object is expected to create vortical flow
structures in its wake, depending on its geometry and flow conditions. Therefore, a new
mathematical analysis was carried out, studying the dynamics and dispersion of aerosols under the
influence of approaching vortical flow structures. Our theoretical analysis reveals non-intuitive
interactions between the vortical structure, particle relaxation time, gravity, and mass transfer rates.
The existence of optimal conditions for maximum settling distances is suggested, where the aerosol
entrainment reaches up to an order of magnitude larger than the vortex core length scales.
Phenomena that are not directly linked to vortical flows were isolated and thus the fundamental
influence of the carrier flow over the aerosol entrainment is investigated.
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Publication: Y. Dagan, "Settling of Exhaled Respiratory Droplets in the Vicinity of Vortex Flows", Atomization and Sprays
Presenters
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Or Avni
Faculty of Aerospace Engineering, Technion - Israel Institute of Technology
Authors
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Or Avni
Faculty of Aerospace Engineering, Technion - Israel Institute of Technology
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Yuval Dagan
Faculty of Aerospace Engineering, Technion - Israel Institute of Technology