Evidence of collision-induced resuspension of microscopic particles from a monolayer deposit
Evidence of collision-induced resuspension of microscopic particles from a monolayer deposit
Banari, A.; Henry, C.; Fank Eidt, R. H.; Pierre, L.; Klaus, Z.; Hampel, U.; Lecrivain, G.
The present Letter addresses the resuspension of microscopic glass particles from a monolayer bed into a turbulent gas flow. With an intermediate surface coverage, here set to about 10% of the field of view, we report two distinct detachment mechanisms. At relatively low flow velocities, few loosely adhering particles move on the wall to eventually collide with neighboring particles resulting in a clustered resuspension. At higher fluid velocities, mostly individual particles resuspend due to their interaction with the turbulent flow. The resuspension curve, showing the remaining particle fraction as a function of the flow velocity, exhibits a strong bimodal character.
Keywords: paticle resuspension; Inter-particle collisions; experimental test
-
Physical Review Fluids 6(2021)8, L082301
Online First (2021) DOI: 10.1103/PhysRevFluids.6.L082301
Cited 6 times in Scopus
Downloads
- Open Access Version from hal.inria.fr
- Fulltext from link.aps.org
- Secondary publication expected
Permalink: https://www.hzdr.de/publications/Publ-33034
Publ.-Id: 33034