Effect of rough wall on drag, lift, and torque on an ellipsoidal particle in a linear shear flow

Abstract

The present study provides a detailed description of the forces on an ellipsoidal particle in the vicinity of the rough wall. Three-dimensional numerical simulations are performed using a body-fitted mesh to estimate the drag, lift, and torque coefficients. A large number of simulations are conducted over a range of parameters, such as the shear Reynolds number ([Formula: see text]), orientation angle ([Formula: see text]), and wall-particle separation distance ([Formula: see text]), to get a comprehensive description of variation of the above coefficients. Using the simulation results, we develop the correlations for the drag and lift coefficients to describe the effect of rough wall, inclination angles, and particle Reynolds numbers on the hydrodynamic coefficients. The proposed correlations can be used for two-phase flow simulation using the Eulerian–Lagrangian framework.