We study the effect of different forcing functions and of the local gradient Richardson number Rig on the vertical transport of Lagrangian tracers in stably stratified turbulence under the Boussinesq approximation and present a wave and continuous-time random-walk model for single- and two-particle vertical dispersion. The model consists of a random superposition of linear waves with their amplitude, based on the observed Lagrangian spectrum of vertical velocity, and a random-walk process to capture overturning that depends on the statistics of Rig among other Eulerian quantities. The model is in good agreement with direct numerical simulations of stratified turbulence, where single- and two-particle dispersion differ from the homogeneous a...
International audienceWe study the statistics of thevertical motion of inertial particles instrongly...
This paper applies a random walk method to simulate scalar transport and dispersion in vertical two-...
Random-walk models are a versatile tool for modelling dispersion of both passive and active tracers ...
We derive a relation for the growth of the mean square of vertical displacements, δz, of fluid parti...
We consider the one-dimensional case of vertical dispersion in the convective boundary layer (CBL) a...
The dispersion of fluid particles in statistically stationary stably stratified turbulence is studie...
The first part is the derivation of one-particle vertical diffusion for stably stratified turbulence...
The dispersion of fluid particles in statistically stationary stably stratified turbulence is studie...
The vertical dispersion of fluid particles in stably stratified homogeneous turbulence with mean she...
We investigate the large-scale intermittency of vertical velocity and temperature, and the mixing pr...
Scalar transport by turbulent flows is best described in terms of Lagrangian parcel motions. Here we...
A computationally efficient model is introduced to account for the sub-grid scale velocities of trac...
The dispersion of heavy inertial particles in statistically stationary stably stratified turbulence ...
A deterministic multiscale dynamical system is introduced and discussed as a prototype model for rel...
The dispersion of heavy particles in statistically stationary stably stratified turbulence is studie...
International audienceWe study the statistics of thevertical motion of inertial particles instrongly...
This paper applies a random walk method to simulate scalar transport and dispersion in vertical two-...
Random-walk models are a versatile tool for modelling dispersion of both passive and active tracers ...
We derive a relation for the growth of the mean square of vertical displacements, δz, of fluid parti...
We consider the one-dimensional case of vertical dispersion in the convective boundary layer (CBL) a...
The dispersion of fluid particles in statistically stationary stably stratified turbulence is studie...
The first part is the derivation of one-particle vertical diffusion for stably stratified turbulence...
The dispersion of fluid particles in statistically stationary stably stratified turbulence is studie...
The vertical dispersion of fluid particles in stably stratified homogeneous turbulence with mean she...
We investigate the large-scale intermittency of vertical velocity and temperature, and the mixing pr...
Scalar transport by turbulent flows is best described in terms of Lagrangian parcel motions. Here we...
A computationally efficient model is introduced to account for the sub-grid scale velocities of trac...
The dispersion of heavy inertial particles in statistically stationary stably stratified turbulence ...
A deterministic multiscale dynamical system is introduced and discussed as a prototype model for rel...
The dispersion of heavy particles in statistically stationary stably stratified turbulence is studie...
International audienceWe study the statistics of thevertical motion of inertial particles instrongly...
This paper applies a random walk method to simulate scalar transport and dispersion in vertical two-...
Random-walk models are a versatile tool for modelling dispersion of both passive and active tracers ...