Physical coupling between inertial clustering and relative velocity in a polydisperse droplet field with background turbulence

Natural processes, ranging from blood transport to planetary formation, are strongly influenced by particle collisions induced by background turbulence. While inertial clustering and particle pair relative velocity are recognized as the main collision enhancement factors, their physical coupling is...

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Bibliographic Details
Published in:Europhysics letters 2023-04, Vol.142 (2), p.23002
Main Authors: Kumar, M. Shyam, Chakravarthy, S. R., Mathur, Manikandan
Format: Article
Language:English
Subjects:
Clustering
Collision rates
Coupling
Droplets
Fluid dynamics
Particle collisions
Planet formation
Turbulence
Turbulent flow
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Summary:Natural processes, ranging from blood transport to planetary formation, are strongly influenced by particle collisions induced by background turbulence. While inertial clustering and particle pair relative velocity are recognized as the main collision enhancement factors, their physical coupling is poorly understood. In this experimental study, we measure clustering and relative velocity in a polydisperse droplet field with background air turbulence, to directly demonstrate the physical coupling between these collision enhancement factors. This coupling is shown to cause an inverse relation between clustering and relative velocity in the mean-flow–dominated turbulent flow we study, thus suppressing the intuitive effect of an increase in droplet collision rate with background air turbulence. Turbulence modulation due to clustering, and the resultant reduction of caustic droplet pairs with large relative velocities, are found to be the key physical mechanisms, and should be a consideration in droplet collision rate estimates in warm rain initiation.
ISSN:0295-5075
1286-4854
DOI:10.1209/0295-5075/accbe7