Add to ORKGWe present results from a direct numerical simulation of the passive transport of solid particles by a fully developed turbulent channel flow with a Reynolds number of 180 based on the friction velocity and the channel half-width. Three particle sets are studied, ranging in diameter from 0.5 to 1.4 viscous wall units and in aerodynamic time constant from 0.6 to 56 centreline Kolmogorov time scales. We use particle number density histograms and fractal dimensions to show that the level of order in the particle spatial distribution peaks near a Stokes number of unity based on the Kolmogorov time scale. We then quantify the relationship between this spatial distribution and the instantaneous flow topology. The results indicate that the previou...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
We present the results of direct numerical simulations (DNS) of turbulent flows seeded with millions...
International audienceParticle laden flows are of a great interest in many industrial and natural sy...
The distribution of inertial particles in turbulent flows is strongly non-homogeneous and is driven ...
Preferential concentration describes the tendency of heavy particles to accumulate in certain region...
Spatial distributions of heavy particles suspended in an incompressible isotropic and homogeneous tu...
Using one-way coupled direct numerical simulations of inertial particles in homogeneous isotropic tu...
It is well-known that heavy particles in homogeneous isotropic turbulence tend to collect in certain...
International audienceVoronoï diagrams are used to analyze one-way coupling direct numerical simulat...
In many situations ranging from geophysics to chemical engineering, turbulent drag moves particle cl...
The preferential concentration of inertial particles in a turbulent velocity field occurs when the p...
We present the results of a Direct Numerical Simulation of a particle-laden spatially developing tur...
We analyse numerically the motion of small inertial particles, subject to gravity, in two simple vel...
The distribution of inertial particles in turbulent flows is highly non-uniform and is driven by the...
We performed Eulerian–Lagrangian direct numerical simulation of particle-laden channel flow at a fri...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
We present the results of direct numerical simulations (DNS) of turbulent flows seeded with millions...
International audienceParticle laden flows are of a great interest in many industrial and natural sy...
The distribution of inertial particles in turbulent flows is strongly non-homogeneous and is driven ...
Preferential concentration describes the tendency of heavy particles to accumulate in certain region...
Spatial distributions of heavy particles suspended in an incompressible isotropic and homogeneous tu...
Using one-way coupled direct numerical simulations of inertial particles in homogeneous isotropic tu...
It is well-known that heavy particles in homogeneous isotropic turbulence tend to collect in certain...
International audienceVoronoï diagrams are used to analyze one-way coupling direct numerical simulat...
In many situations ranging from geophysics to chemical engineering, turbulent drag moves particle cl...
The preferential concentration of inertial particles in a turbulent velocity field occurs when the p...
We present the results of a Direct Numerical Simulation of a particle-laden spatially developing tur...
We analyse numerically the motion of small inertial particles, subject to gravity, in two simple vel...
The distribution of inertial particles in turbulent flows is highly non-uniform and is driven by the...
We performed Eulerian–Lagrangian direct numerical simulation of particle-laden channel flow at a fri...
Suspensions of solid particles in a viscous fluid are ubiquitous in natural and engineering setti...
We present the results of direct numerical simulations (DNS) of turbulent flows seeded with millions...
International audienceParticle laden flows are of a great interest in many industrial and natural sy...