In this work, we discuss the modelling of transport in Langevin probability density function (PDF) models used to predict turbulent flows. Our focus is on the diffusion limit of these models, i.e. when advection and dissipation are the only active physical processes. In this limit, we show that Langevin PDF models allow for an asymptotic expansion in terms of the ratio of the integral length to the mean gradient length. The main contribution of this expansion yields an evolution of the turbulent kinetic energy equivalent to that given by a k-epsilon model. In particular, the transport of kinetic energy is given by a gradient diffusion term. Interestingly, the identification between PDF and k-epsilon models raises a number of questions conce...
The focus of the present work is the well-known feature of the probability density function (PDF) tr...
The objective of this work has been to assess the applicability of the direct-pdf method for the mod...
A promising and, in terms of computer power, low-cost way of describing flow properties such as turb...
In this work, we discuss the modelling of transport in Langevin probability density function (PDF) m...
Abstract. In this work, we discuss the modelling of transport in Langevin probability density functi...
In this work, we discuss the modelling of transport in Langevin probability density functi...
The Langevin and diffusion equations for statistical velocity and displacement of marked fluid parti...
The aim of the thesis is to simulate a turbulent mixing zone resulting from the Richtmyer-Meshkov in...
A derivation of the Langevin and diffusion equations describing the statistics of fluid particledisp...
The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous u...
We derive a comprehensive statistical model for dispersion of passive or almost passive admixture pa...
International audienceRecently, Friedrich and Peinke demonstrated empirically that a Fokker–Planck e...
The paper deals with the probability density function (PDF) of the concentration of a scalar within ...
Cette thèse a pour objet la simulation d'une zone de mélange turbulente issue de l'instabilité de Ri...
The focus of the present work is the well-known feature of the probability density function (PDF) tr...
The objective of this work has been to assess the applicability of the direct-pdf method for the mod...
A promising and, in terms of computer power, low-cost way of describing flow properties such as turb...
In this work, we discuss the modelling of transport in Langevin probability density function (PDF) m...
Abstract. In this work, we discuss the modelling of transport in Langevin probability density functi...
In this work, we discuss the modelling of transport in Langevin probability density functi...
The Langevin and diffusion equations for statistical velocity and displacement of marked fluid parti...
The aim of the thesis is to simulate a turbulent mixing zone resulting from the Richtmyer-Meshkov in...
A derivation of the Langevin and diffusion equations describing the statistics of fluid particledisp...
The Fokker-Planck equation for the probability density of fluid particle position in inhomogeneous u...
We derive a comprehensive statistical model for dispersion of passive or almost passive admixture pa...
International audienceRecently, Friedrich and Peinke demonstrated empirically that a Fokker–Planck e...
The paper deals with the probability density function (PDF) of the concentration of a scalar within ...
Cette thèse a pour objet la simulation d'une zone de mélange turbulente issue de l'instabilité de Ri...
The focus of the present work is the well-known feature of the probability density function (PDF) tr...
The objective of this work has been to assess the applicability of the direct-pdf method for the mod...
A promising and, in terms of computer power, low-cost way of describing flow properties such as turb...