International audienceThis paper is devoted to the study of a one stationary dimensional turbulence model used for simulating the boundary layer of a turbulent flow, such as the atmospheric boundary layer. The model is based on the coupling of an equation for the mean velocity with an equation for the turbulent kinetic energy through eddy viscosities. We show that under reasonable assumptions about the data, the system has a weak solution
© 2018 Dr. Melissa KozulNumerical simulation of turbulent boundary layers is a challenging task that...
Abstract. The atmospheric boundary layer is the lowest layer over the surface, where the eects of th...
In this work, Direct Numerical Simulations (DNS) of atmospheric convective boundary layer flow is us...
This paper is devoted to the study of a one stationary dimensional turbulence model used for simulat...
The k-ε model of turbulence is applied to one-dimensional oscillatory turbulent boundary layer flow....
Close to the bottom the no-slip condition will retard the flow and cause a boundary layer to develop...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
We test a recently developed engineering turbulence model, a so-called explicit algebraic Reynolds-s...
We build on the work of Davidson et al. (2006) and propose an elementary model for the log-law regio...
International audienceWe aim to test the performances of an incompressible turbulence Reynolds-Avera...
A partially lagging one-equation eddy viscosity model, based on the transformation of the turbulence...
A one-equation turbulent model is derived in this work on the basis of the approach used for the k-e...
The basic science of turbulence has been known for many years, yet the knowledge has hardly become a...
Abstract. This paper is devoted to the study of a turbulent circulation model. Equations are derived...
Estimation of the turbulent dissipation rate in a boundary layer is a very involved process. Experim...
© 2018 Dr. Melissa KozulNumerical simulation of turbulent boundary layers is a challenging task that...
Abstract. The atmospheric boundary layer is the lowest layer over the surface, where the eects of th...
In this work, Direct Numerical Simulations (DNS) of atmospheric convective boundary layer flow is us...
This paper is devoted to the study of a one stationary dimensional turbulence model used for simulat...
The k-ε model of turbulence is applied to one-dimensional oscillatory turbulent boundary layer flow....
Close to the bottom the no-slip condition will retard the flow and cause a boundary layer to develop...
A turbulent energy model developed by the authors to describe atmospheric flows is used to study dif...
We test a recently developed engineering turbulence model, a so-called explicit algebraic Reynolds-s...
We build on the work of Davidson et al. (2006) and propose an elementary model for the log-law regio...
International audienceWe aim to test the performances of an incompressible turbulence Reynolds-Avera...
A partially lagging one-equation eddy viscosity model, based on the transformation of the turbulence...
A one-equation turbulent model is derived in this work on the basis of the approach used for the k-e...
The basic science of turbulence has been known for many years, yet the knowledge has hardly become a...
Abstract. This paper is devoted to the study of a turbulent circulation model. Equations are derived...
Estimation of the turbulent dissipation rate in a boundary layer is a very involved process. Experim...
© 2018 Dr. Melissa KozulNumerical simulation of turbulent boundary layers is a challenging task that...
Abstract. The atmospheric boundary layer is the lowest layer over the surface, where the eects of th...
In this work, Direct Numerical Simulations (DNS) of atmospheric convective boundary layer flow is us...