We use interface-resolved simulations to study near-wall turbulence modulation by small inertial particles, much denser than the fluid, in dilute/semi-dilute conditions. We considered three bulk solid mass fractions, and, with only the latter two showing turbulence modulation. The increase of the drag is strong at, but mild in the densest case. Two distinct regimes of turbulence modulation emerge: for smaller mass fractions, the turbulence statistics are weakly affected and the near-wall particle accumulation increases the drag so the flow appears as a single-phase flow at slightly higher Reynolds number. Conversely, at higher mass fractions, the particles modulate the turbulent dynamics over the entire flow, and the interphase coupling bec...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
The current work investigates how turbulence affects the mass transfer rate between inertial particl...
International audienceDispersed two phase flows are relevant to many fields, as they occur in both n...
We use interface-resolved simulations to study near-wall turbulence modulation by small inertial par...
This investigation considers the effect of the Stokes number on the near-wall particle dynamics of t...
The modulation of turbulence by the laden particles in swirling flows is studied via direct numerica...
Despite decades of investigations, there is still no consensus on whether inertial particles augment...
International audienceTurbulence modulation by inertial-range-size, neutrally-buoyant particles is i...
International audienceParticle-resolved numerical simulations based on the Force Coupling Method are...
The simplest numerical framework to study turbulent particle dispersion assumes that particles can b...
The role of particles heavier than the fluid (glass spheres in water) in a turbulent open channel fl...
We report experimental results on the dynamics of heavy particles of the size of the Kolmogorov scal...
Dense suspensions are usually investigated in the laminar limit where inertial effects are insignifi...
We present an overview of a numerical study on the small-scale dynamics and the large-scale dispersi...
Turbulent fluctuations induce the common phenomenon known as clustering in the spatial arrangement o...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
The current work investigates how turbulence affects the mass transfer rate between inertial particl...
International audienceDispersed two phase flows are relevant to many fields, as they occur in both n...
We use interface-resolved simulations to study near-wall turbulence modulation by small inertial par...
This investigation considers the effect of the Stokes number on the near-wall particle dynamics of t...
The modulation of turbulence by the laden particles in swirling flows is studied via direct numerica...
Despite decades of investigations, there is still no consensus on whether inertial particles augment...
International audienceTurbulence modulation by inertial-range-size, neutrally-buoyant particles is i...
International audienceParticle-resolved numerical simulations based on the Force Coupling Method are...
The simplest numerical framework to study turbulent particle dispersion assumes that particles can b...
The role of particles heavier than the fluid (glass spheres in water) in a turbulent open channel fl...
We report experimental results on the dynamics of heavy particles of the size of the Kolmogorov scal...
Dense suspensions are usually investigated in the laminar limit where inertial effects are insignifi...
We present an overview of a numerical study on the small-scale dynamics and the large-scale dispersi...
Turbulent fluctuations induce the common phenomenon known as clustering in the spatial arrangement o...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
The current work investigates how turbulence affects the mass transfer rate between inertial particl...
International audienceDispersed two phase flows are relevant to many fields, as they occur in both n...