We study numerically the comparison between Lagrangian experiments on turbulent particle dispersion in 2-D turbulent flows performed, on the one hand, on the basis of direct numerical simulations (DNS) and, on the other hand, using kinematic simulations (KS). Eulerian space-time structure of both DNS and KS dynamics are not comparable, mostly due to the absence of strong coherent vortices and advection processes in the KS fields. The comparison allows to refine past studies about the contribution of nonhomogeneous space-time 2-D Eulerian structure on the turbulent absolute and relative particle dispersion processes. We particularly focus our discussion on the Richardson’s regime for relative dispersion.Peer Reviewe
Large eddy simulation of inertial particle dispersion in a turbulent flow over a backward-facing ste...
Berlemont, a desjonqueres, p gouesbet, gA Lagrangian approach is used to describe particle dispersio...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
Abstract. We study numerically the comparison between Lagrangian experiments on turbulent particle d...
International audienceWe study numerically the comparison between Lagrangian experiments on turbulen...
A wide range of relative two-particle dispersion statistics from the Lagrangian Kinematic Simulation...
We consider two-particle dispersion in a velocity field, where the relative two-point velocity scale...
Transport of mass, heat and momentum in turbulent flows by far exceeds that in stable laminar fluid ...
We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective an...
Using the experimental data of Paret and Tabeling [Phys. Rev. Lett. 79, 4162 (1997)] we consider in ...
Pair dispersion is studied to model scalar transport in many natural and industrial applications. Th...
The influence of the spatio-temporal structure of turbulence on the dispersions of fluid elements an...
International audienceLagrangian tracking of particle pairs is of fundamental interest in a large nu...
<p>The motion of tracer particles is kinematically simulated around three elementary flow patterns; ...
We investigate the relative dispersion for two types of stochastic flows—Brownian flow (Kraichnan mo...
Large eddy simulation of inertial particle dispersion in a turbulent flow over a backward-facing ste...
Berlemont, a desjonqueres, p gouesbet, gA Lagrangian approach is used to describe particle dispersio...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
Abstract. We study numerically the comparison between Lagrangian experiments on turbulent particle d...
International audienceWe study numerically the comparison between Lagrangian experiments on turbulen...
A wide range of relative two-particle dispersion statistics from the Lagrangian Kinematic Simulation...
We consider two-particle dispersion in a velocity field, where the relative two-point velocity scale...
Transport of mass, heat and momentum in turbulent flows by far exceeds that in stable laminar fluid ...
We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective an...
Using the experimental data of Paret and Tabeling [Phys. Rev. Lett. 79, 4162 (1997)] we consider in ...
Pair dispersion is studied to model scalar transport in many natural and industrial applications. Th...
The influence of the spatio-temporal structure of turbulence on the dispersions of fluid elements an...
International audienceLagrangian tracking of particle pairs is of fundamental interest in a large nu...
<p>The motion of tracer particles is kinematically simulated around three elementary flow patterns; ...
We investigate the relative dispersion for two types of stochastic flows—Brownian flow (Kraichnan mo...
Large eddy simulation of inertial particle dispersion in a turbulent flow over a backward-facing ste...
Berlemont, a desjonqueres, p gouesbet, gA Lagrangian approach is used to describe particle dispersio...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...