The Richardson-scaling law states that the mean square separation of a fluid particle pair grows according to twithin the inertial range and at intermediate times. The theories predicting this scaling regime assume that the pair separation is within the inertial range and that the dispersion is local, which means that only eddies at the scale of the separation contribute. These assumptions ignore the structural organization of the turbulent flow into large-scale shear layers, where the intense small-scale motions are bounded by the large-scale energetic motions. Therefore, the large scales contribute to the velocity difference across the small-scale structures. It is shown that, indeed, the pair dispersion inside these layers is highly non-...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
In this paper we investigate kinematic simulation (KS) consistency with the theory of Richardson [Pr...
Understanding the small-scale structure of incompressible turbulence and its implications for the no...
The Richardson scaling law states that the mean square separation of a fluid particle pair grows acc...
International audienceSince the pioneering work of Richardson in 1926, later refined by Batchelor an...
Since the pioneering work of Richardson in 1926, later refined by Batchelor and Obukhov in 1950, it ...
We report the first experimental study of the dispersion of pairs of passive particles, performed in...
A re-appraisal of the Richardson's 1926 dataset [Richardson, L. F. Proc. Roy. Soc. Lond. A 100, 709-...
The separation of two nearby particles in a turbulent flow is fundamental in our everyday lives. Tur...
We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective an...
PACS. 47.27Qb { Turbulent diusion. PACS. 47.27Gs { Isotropic turbulence; homogeneous turbulence. PAC...
Numerical simulations are used to determine the influence of the non-local and local interactions on...
Numerical simulations are used to determine the influence of the nonlocal and local interactions on ...
The effect of Eulerian intermittency on the Lagrangian statistics of relative dispersion in fully de...
The effect of Eulerian intermittency on the Lagrangian statistics of relative dispersion in fully de...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
In this paper we investigate kinematic simulation (KS) consistency with the theory of Richardson [Pr...
Understanding the small-scale structure of incompressible turbulence and its implications for the no...
The Richardson scaling law states that the mean square separation of a fluid particle pair grows acc...
International audienceSince the pioneering work of Richardson in 1926, later refined by Batchelor an...
Since the pioneering work of Richardson in 1926, later refined by Batchelor and Obukhov in 1950, it ...
We report the first experimental study of the dispersion of pairs of passive particles, performed in...
A re-appraisal of the Richardson's 1926 dataset [Richardson, L. F. Proc. Roy. Soc. Lond. A 100, 709-...
The separation of two nearby particles in a turbulent flow is fundamental in our everyday lives. Tur...
We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective an...
PACS. 47.27Qb { Turbulent diusion. PACS. 47.27Gs { Isotropic turbulence; homogeneous turbulence. PAC...
Numerical simulations are used to determine the influence of the non-local and local interactions on...
Numerical simulations are used to determine the influence of the nonlocal and local interactions on ...
The effect of Eulerian intermittency on the Lagrangian statistics of relative dispersion in fully de...
The effect of Eulerian intermittency on the Lagrangian statistics of relative dispersion in fully de...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
In this paper we investigate kinematic simulation (KS) consistency with the theory of Richardson [Pr...
Understanding the small-scale structure of incompressible turbulence and its implications for the no...