Fluids (Apr 2024)

Understanding the Influence of the Buoyancy Sign on Buoyancy-Driven Particle Clouds

  • Ali O. Alnahit,
  • Nigel Berkeley Kaye,
  • Abdul A. Khan

DOI
https://doi.org/10.3390/fluids9050101
Journal volume & issue
Vol. 9, no. 5
p. 101

Abstract

Read online

A numerical model was developed to investigate the behavior of round buoyancy-driven particle clouds in a quiescent ambient. The model was validated by comparing model simulations with prior experimental and numerical results and then applied the model to examine the difference between releases of positively and negatively buoyant particles. The particle cloud model used the entrainment assumption while approximating the flow field induced by the cloud as a Hill’s spherical vortex. The motion of individual particles was resolved using a particle tracking equation that considered the forces acting on them and the induced velocity field. The simulation results showed that clouds with the same initial buoyancy magnitude and particle Reynolds number behaved differently depending on whether the particles were more dense or less dense than the ambient fluid. This was found even for very low initial buoyancy releases, suggesting that the sign of the buoyancy is always important and that, therefore, the Boussinesq assumption is never fully appropriate for such flows.

Keywords