In multiphase particulate systems, the turbulence of the continuous phase (gas or liquid) is
modulated due to interactions between the continuous phase and the suspended particles …

This review article examines the last decade of studies investigating solid, molten, and liquid
particle interactions with one another and with walls in heterogeneous multiphase flows …

It has been recognized that, generally, large particles enhance the turbulence intensity,
while small particles attenuate the turbulence intensity. However, there has been no …

The effects of the particle collision model in a direct-forcing fictitious domain method on the
fluid and particle statistics of a fully developed turbulent channel flow laden with finite-size …

Understanding the two-way interactions between finite-size solid particles and a wall-
bounded turbulent flow is crucial in a variety of natural and engineering applications …

The interpolated bounce-back schemes and the immersed boundary method are the two
most popular algorithms in treating a no-slip boundary on curved surfaces in the lattice …

This study presents an efficient and parallel fully resolved direct numerical simulation (FR-
DNS) of settling suspensions on multiple CPU cores based on the boundary-thickening …

The interactions between finite-size spheroidal particles and upward turbulent flows in a
vertical channel are numerically simulated with a direct-forcing fictitious domain method at …

Interface-resolved direct numerical simulations of downward particle-laden turbulent
channel flows are performed by using a direct-forcing fictitious domain method. The effects …

The exact regularized point particle method is used to characterize the turbulence
modulation in two-way momentum-coupled direct numerical simulations of a turbulent pipe …