We report measurements of the spreading rate of pairs of tracer particles in an intensely turbulent laboratory water flow. We compare our measurements of this turbulent relative dispersion with the longstanding work of Richardson and Batchelor, and find excellent agreement with Batchelor's predictions. The distance neighbour function, the probability density function of the relative dispersion, is measured and compared with existing models. We also investigate the recently proposed exit time analysis of relative dispersion
The distribution of relative velocities between particles provides invaluable information on the rat...
International audienceUsing a high-resolution primitive equation model of the western Mediterranean ...
We consider two-particle dispersion in a velocity field, where the relative two-point velocity scale...
We report measurements of the spreading rate of pairs of tracer particles in an intensely turbulent ...
Relative dispersion of a passive scalar plume was investigated in uniformly sheared, nearly homogene...
We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective an...
The dispersion of particles in turbulent flows, phenomena such as dispersion, diffusion, and sedimen...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
International audienceLagrangian tracking of particle pairs is of fundamental interest in a large nu...
Pair dispersion is studied to model scalar transport in many natural and industrial applications. Th...
International audienceAbstract The phenomenology of turbulent relative dispersion is revisited. A he...
Relative dispersion of tracers - i.e. very small, neutrally buoyant particles-, is particularly effi...
The separation of two nearby particles in a turbulent flow is fundamental in our everyday lives. Tur...
This work was concerned with an improved and more practical understanding of particle motion in a tu...
The distribution of relative velocities between particles provides invaluable information on the rat...
International audienceUsing a high-resolution primitive equation model of the western Mediterranean ...
We consider two-particle dispersion in a velocity field, where the relative two-point velocity scale...
We report measurements of the spreading rate of pairs of tracer particles in an intensely turbulent ...
Relative dispersion of a passive scalar plume was investigated in uniformly sheared, nearly homogene...
We study particle dispersion advected by a synthetic turbulent flow from a Lagrangian perspective an...
The dispersion of particles in turbulent flows, phenomena such as dispersion, diffusion, and sedimen...
We present a numerical study of two-particle dispersion from point sources in three-dimensional inco...
International audienceLagrangian tracking of particle pairs is of fundamental interest in a large nu...
Pair dispersion is studied to model scalar transport in many natural and industrial applications. Th...
International audienceAbstract The phenomenology of turbulent relative dispersion is revisited. A he...
Relative dispersion of tracers - i.e. very small, neutrally buoyant particles-, is particularly effi...
The separation of two nearby particles in a turbulent flow is fundamental in our everyday lives. Tur...
This work was concerned with an improved and more practical understanding of particle motion in a tu...
The distribution of relative velocities between particles provides invaluable information on the rat...
International audienceUsing a high-resolution primitive equation model of the western Mediterranean ...
We consider two-particle dispersion in a velocity field, where the relative two-point velocity scale...