The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous unsteady turbulent flow is derived. The equation is obtained starting from the general kinematic relationship between velocity and displacement of a fluid particle and applying exact asymptotic analysis. For (almost) incompressible flow the equation reduces to the convection diffusion equation and the equation pertaining to the scalar gradient hypothesis. In this way the connection is established with eddy diffusivity models, widely used in numerical codes of computational fluid dynamics. It is further shown that within the accuracy of the approximation scheme of the diffusion limit, diffusion constants can equally be based on coarse-grained L...
This article discusses a study of diffusion in turbulent stationary open-channel flow without temper...
The diffusion of small, spherical, rigid particles suspended in an incompressible turbulent fluid, b...
Mathematical models based on probability density functions (PDF) have been extensively used in hydro...
The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous u...
A derivation of the Langevin and diffusion equations describing the statistics of fluid particledisp...
A theoretical treatment of diffusion as function of turbulence, by working out the dispersion of sma...
In this work we address the closure issue in kinetic and fluid descriptions of turbulent plasmas. In...
The Langevin and diffusion equations for statistical velocity and displacement of marked fluid parti...
We derive a comprehensive statistical model for dispersion of passive or almost passive admixture pa...
In this work, we discuss the modelling of transport in Langevin probability density functi...
International audienceWe present a detailed analysis of the energy dissipation averaged over a dista...
We perform an analytical study of the inertial-particle dynamics in the limit of small but finite in...
Standard and anomalous transport in incompressible flow is investigated using multiscale techniques....
Abstract. In this work, we discuss the modelling of transport in Langevin probability density functi...
We investigate different asymptotic regimes for Vlasov equations modeling the evolution of a cloud o...
This article discusses a study of diffusion in turbulent stationary open-channel flow without temper...
The diffusion of small, spherical, rigid particles suspended in an incompressible turbulent fluid, b...
Mathematical models based on probability density functions (PDF) have been extensively used in hydro...
The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous u...
A derivation of the Langevin and diffusion equations describing the statistics of fluid particledisp...
A theoretical treatment of diffusion as function of turbulence, by working out the dispersion of sma...
In this work we address the closure issue in kinetic and fluid descriptions of turbulent plasmas. In...
The Langevin and diffusion equations for statistical velocity and displacement of marked fluid parti...
We derive a comprehensive statistical model for dispersion of passive or almost passive admixture pa...
In this work, we discuss the modelling of transport in Langevin probability density functi...
International audienceWe present a detailed analysis of the energy dissipation averaged over a dista...
We perform an analytical study of the inertial-particle dynamics in the limit of small but finite in...
Standard and anomalous transport in incompressible flow is investigated using multiscale techniques....
Abstract. In this work, we discuss the modelling of transport in Langevin probability density functi...
We investigate different asymptotic regimes for Vlasov equations modeling the evolution of a cloud o...
This article discusses a study of diffusion in turbulent stationary open-channel flow without temper...
The diffusion of small, spherical, rigid particles suspended in an incompressible turbulent fluid, b...
Mathematical models based on probability density functions (PDF) have been extensively used in hydro...