Since direct numerical simulations of buoyancy driven flows cannot be computed at high Rayleigh numbers, a dynamically less complex mathematical formulation is sought. In the quest for such a formulation, we consider regularizations (smooth approximations) of the non-linearity: the convective term is altered to reduce the production of small scales of motion by means of vortex stretching. In doing so, we propose to preserve the symmetry and conservation properties of the convective terms exactly. This requirement yielded a novel class of regularizations [Comput Fluids 2008;37:887] that restrain the convective production of smaller and smaller scales of motion in an unconditionally stable manner, meaning that the velocity cannot blow up in ...
Since direct numerical simulation (DNS) cannot be performed at high Reynolds number, a dynamically l...
Traditionally turbulence modeling of industrial flows in complex geometries have been solved using R...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...
Since direct numerical simulations of buoyancy driven flows cannot be computed at high Rayleigh numb...
Since direct numerical simulations of natural convection in a differentially heated cavity cannot be...
Since direct numerical simulations of natural convection flows cannot be performed at high Ra-number...
Since direct numerical simulations (DNS) of natural convection in a differentially heated cavity can...
Abstract. Since direct numerical simulations (DNS) of natural convection in a differen-tially heated...
This work is devoted to the study of turbulent natural convection flows in differentially heated cav...
We consider regularizations of the convective term that preserve symmetry and conservation propertie...
This work is devoted to the study of turbulent natural convection flows in differentially heated cav...
Since direct numerical simulations cannot be computed at high Reynolds numbers, a dynamically less ...
We consider regularizations of the convective term in the Navier-Stokes equations that preserve the ...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...
Since direct numerical simulation (DNS) cannot be performed at high Reynolds number, a dynamically l...
Traditionally turbulence modeling of industrial flows in complex geometries have been solved using R...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...
Since direct numerical simulations of buoyancy driven flows cannot be computed at high Rayleigh numb...
Since direct numerical simulations of natural convection in a differentially heated cavity cannot be...
Since direct numerical simulations of natural convection flows cannot be performed at high Ra-number...
Since direct numerical simulations (DNS) of natural convection in a differentially heated cavity can...
Abstract. Since direct numerical simulations (DNS) of natural convection in a differen-tially heated...
This work is devoted to the study of turbulent natural convection flows in differentially heated cav...
We consider regularizations of the convective term that preserve symmetry and conservation propertie...
This work is devoted to the study of turbulent natural convection flows in differentially heated cav...
Since direct numerical simulations cannot be computed at high Reynolds numbers, a dynamically less ...
We consider regularizations of the convective term in the Navier-Stokes equations that preserve the ...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...
Since direct numerical simulation (DNS) cannot be performed at high Reynolds number, a dynamically l...
Traditionally turbulence modeling of industrial flows in complex geometries have been solved using R...
The incompressible Navier-Stokes equations constitute an excellent mathematical modelization of turb...