Sedimentation of granular columns in the viscous and weakly inertial regimes

Abstract: We investigate the dynamics of granular columns of point particles that interact via long-range hydrodynamic interactions and fall under the action of gravity. We investigate the influence of inertia using the Green's function for the Oseen equation. The initial conditions (density and aspect ratio) are systematically varied. Our results suggest that universal self-similar laws may be sufficient to characterize the temporal and structural evolution of the granular columns. A characteristic time above which an … Show more

“…Our simulations are based on a point-particle model, the robustness of which has been previously discussed in the context of the sedimentation of granular columns [43]. First, we randomly initialize the positions of N = 2M particles in a square (2D case) or cubic (3D case) box of characteristic length L 0 given by r (i) 0 , with i = (1, .…”

Optical Enantioseparation of Racemic Emulsions of Chiral Microparticles

“…Our simulations are based on a point-particle model, the robustness of which has been previously discussed in the context of the sedimentation of granular columns [43]. First, we randomly initialize the positions of N = 2M particles in a square (2D case) or cubic (3D case) box of characteristic length L 0 given by r (i) 0 , with i = (1, .…”

Optical Enantioseparation of Racemic Emulsions of Chiral Microparticles

Introduction

Effects of long-range particle–particle hydrodynamic interaction on the settling of aerosol particle clouds