International audienceAbstract The phenomenology of turbulent relative dispersion is revisited. A heuristic scenario is proposed, in which pairs of tracers undergo a succession of independent ballistic separations during time intervals whose lengths fluctuate. This approach suggests that the logarithm of the distance between tracers self-averages and performs a continuous-time random walk. This leads to specific predictions for the probability distribution of separations, which differ from those obtained using scale-dependent eddy-diffusivity models (e.g. in the framework of Richardson’s approach). These predictions are tested against high-resolution simulations and shed new light on the explosive separation between tracers
PACS. 47.27Qb { Turbulent diusion. PACS. 47.27Gs { Isotropic turbulence; homogeneous turbulence. PAC...
Since the pioneering work of Richardson in 1926, later refined by Batchelor and Obukhov in 1950, it ...
We examine an idealised model of turbulent dispersion which was introduced by Zimmerman and Chatwin....
International audienceSince the pioneering work of Richardson in 1926, later refined by Batchelor an...
International audienceLagrangian tracking of particle pairs is of fundamental interest in a large nu...
We present a detailed investigation of the particle pair separation process in homogeneous isotropic...
The turbulent transport of particles is an important phenomena which appears in many natural and ind...
International audienceWe report measurements of the spreading rate of pairs of tracer particles in a...
Pair dispersion is studied to model scalar transport in many natural and industrial applications. Th...
This dissertation focuses on the behavior of $\langle |\br|^2\rangle$ in a turbulent flow, where $\b...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
We study the statistics of pair dispersion in two-dimensional turbulence. Direct numerical simulatio...
Results from Direct Numerical Simulations of particle relative dispersion in three dimensional homog...
The relative dispersion of pairs of inertial particles in incompressible, homogeneous, and isotropic...
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...
Since the pioneering work of Richardson in 1926, later refined by Batchelor and Obukhov in 1950, it ...
We examine an idealised model of turbulent dispersion which was introduced by Zimmerman and Chatwin....
International audienceSince the pioneering work of Richardson in 1926, later refined by Batchelor an...
International audienceLagrangian tracking of particle pairs is of fundamental interest in a large nu...
We present a detailed investigation of the particle pair separation process in homogeneous isotropic...
The turbulent transport of particles is an important phenomena which appears in many natural and ind...
International audienceWe report measurements of the spreading rate of pairs of tracer particles in a...
Pair dispersion is studied to model scalar transport in many natural and industrial applications. Th...
This dissertation focuses on the behavior of $\langle |\br|^2\rangle$ in a turbulent flow, where $\b...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
We study the statistics of pair dispersion in two-dimensional turbulence. Direct numerical simulatio...
Results from Direct Numerical Simulations of particle relative dispersion in three dimensional homog...
The relative dispersion of pairs of inertial particles in incompressible, homogeneous, and isotropic...
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...
Since the pioneering work of Richardson in 1926, later refined by Batchelor and Obukhov in 1950, it ...
We examine an idealised model of turbulent dispersion which was introduced by Zimmerman and Chatwin....