Numerical simulation of collision dynamics for finite size particles in turbulent suspension
Résumé
Particulate flows are present in many applications
and the effect of particle size is still not well understood. The
present paper describes three cases of sustained homogeneous tur-
bulence interacting with particles. Simulations correspond to three
particle-fluid density ratios and 3% volume fraction in zero grav-
ity field. Fully resolved particle simulations are based on fictitious
domain and penalty method.
The local dissipation around particles is studied according to
the density ratio. Spatial description of the averaged dissipation
is provided. Collision statistics are also investigated. The inter
collision time and the angle of collision are compared to the kinetic
theory. The effect of the inter particle film drainage is highlighted
by simulating the same configurations with and without lubrication
model.
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