This review is motivated by the fast progress in our understanding of the physics of particle-
laden turbulence in the last decade, partly due to the tremendous advances of measurement …

Particle laden flows are of relevant interest in many industrial and natural systems. When the
carrier flow is turbulent, a striking feature is the tendency of particles denser than the fluid to …

Dense particle suspensions are widely encountered in many applications and in
environmental flows. While many previous studies investigate their rheological properties in …

Numerical simulations are extensively used to investigate the motion of suspended particles
in a fluid and their influence on the dynamics of the overall flow. Contexts range from the …

Euler–Lagrange methods are popular approaches for simulating particle-laden flows. While
such approaches have been rigorously verified in the dilute limit (where particles do not …

Particulate flows have mainly been studied under the simplifying assumption of a one-way
coupling regime where the disperse phase does not modify the carrier fluid. A more …

The gravity-driven motion of rigid particles in a viscous fluid is relevant in many natural and
industrial processes, yet this has mainly been investigated for spherical particles. We …

A fictitious domain method is used to perform fully resolved numerical simulations of particle-
laden turbulent flow in a horizontal channel. The effects of large particles of diameter 0.05 …

The paper describes a particle-resolved simulation method for turbulent flow laden with finite
size particles. The method is based on the multiple-relaxation-time lattice Boltzmann …

In this work, we revisit implementation issues in the lattice Boltzmann method (LBM)
concerning moving rigid solid particles suspended a viscous fluid. Three aspects relevant to …