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 …

As multiscale structures are inherent in multiphase flows, constitutive models employed in
conjunction with transport equations for momentum, species, and energy are scale …

We present an efficient solver for massively-parallel direct numerical simulations of
incompressible turbulent flows. The method uses a second-order, finite-volume pressure …

We present a direct comparison between interface-resolved and one-way-coupled point-
particle direct numerical simulations (DNS) of gravity-free turbulent channel flow laden with …

Magnetic resonance imaging (MRI) experiments have been performed in conjunction with
direct numerical simulations (DNS) to study neutrally buoyant particle-laden pipe flows. The …

We study suspensions of oblate rigid particles in a viscous fluid for different values of the
particle volume fractions. Direct numerical simulations have been performed using a direct …

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 …

We extend upon the known flow transitions in neutrally buoyant particle-laden Taylor–
Couette flows by accessing higher suspension Reynolds numbers is non-trivially …

Controlling heat and mass transfer in particulate suspensions has many applications in fuel
combustion, food industry, pollution control and life science. We perform direct numerical …

We investigate the influence of dispersed solid spherical particles on the largest scales of
the turbulent Arnold-Beltrami-Childress (ABC) flow. The ABC flow is an ideal instance of a …