The diffusion of passive scalars convected by turbulent flows is addressed here. A practical procedure to obtain stochastic velocity fields with well¿defined energy spectrum functions is also presented. Analytical results are derived, based on the use of stochastic differential equations, where the basic hypothesis involved refers to a rapidly decaying turbulence. These predictions are favorable compared with direct computer simulations of stochastic differential equations containing multiplicative space¿time correlated noise
Passive scalar advection in Burgers turbulence is considered. Mapping-closure model based on the amp...
Passive scalar advection in Burgers turbulence is considered. Mapping-closure model based on the amp...
International audienceIn this chapter, we outline the Eulerian (Field) Monte Carlo Method (EMC) for ...
The diffusion of passive scalars convected by turbulent flows is addressed here. A practical procedu...
Analytical results are derived for the effective dispersion of a passive scalar in a stochastic vel...
The stochastic expansion of Cameron, Martin, and Wiener is used for the velocity and concentration f...
The difficulties of modelling transport of scalar properties (such as temperature and concentrations...
This thesis considers a forced passive scalar evolving through advection and diffusion in a large-sc...
We study the evolution of a passive scalar in a two-dimensional flow, highly sheared and stratified ...
A closure theory of turbulence so-called the Lagrangian direct-interaction approximation is formulat...
Abstract. { The eect of a small correlation time, , of the (colored-) small-scales noise on the ee...
International audienceTwo dimensional passive scalar turbulence is studied by means of a k-space dif...
A model of the decay of scalar variance in a single-scale random velocity field was considered. It w...
The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous u...
The random advection of passive additives in a turbulent fluid plays an important role in solar phys...
Passive scalar advection in Burgers turbulence is considered. Mapping-closure model based on the amp...
Passive scalar advection in Burgers turbulence is considered. Mapping-closure model based on the amp...
International audienceIn this chapter, we outline the Eulerian (Field) Monte Carlo Method (EMC) for ...
The diffusion of passive scalars convected by turbulent flows is addressed here. A practical procedu...
Analytical results are derived for the effective dispersion of a passive scalar in a stochastic vel...
The stochastic expansion of Cameron, Martin, and Wiener is used for the velocity and concentration f...
The difficulties of modelling transport of scalar properties (such as temperature and concentrations...
This thesis considers a forced passive scalar evolving through advection and diffusion in a large-sc...
We study the evolution of a passive scalar in a two-dimensional flow, highly sheared and stratified ...
A closure theory of turbulence so-called the Lagrangian direct-interaction approximation is formulat...
Abstract. { The eect of a small correlation time, , of the (colored-) small-scales noise on the ee...
International audienceTwo dimensional passive scalar turbulence is studied by means of a k-space dif...
A model of the decay of scalar variance in a single-scale random velocity field was considered. It w...
The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous u...
The random advection of passive additives in a turbulent fluid plays an important role in solar phys...
Passive scalar advection in Burgers turbulence is considered. Mapping-closure model based on the amp...
Passive scalar advection in Burgers turbulence is considered. Mapping-closure model based on the amp...
International audienceIn this chapter, we outline the Eulerian (Field) Monte Carlo Method (EMC) for ...