Add to ORKGWe study the influence of different implementations of no-slip solid wall boundary conditions on the convergence to steady-state of the Navier-Stokes equations. The various approaches are investigated using the energy method and an eigenvalue analysis. It is shown that the weak implementation is superior and enhances the convergence to steady-state for coarse meshes. It is also demonstrated that all the stable approaches produce the same convergence rate as the mesh size goes to zero. The numerical results obtained by using a fully nonlinear finite volume solver support the theoretical findings from the linear analysis
In solving steady-state problems (governed by the Euler equations) with unsteady solution process, e...
In numerical simulations, problems stemming from aerodynamics pose many challenges for the method us...
Affordable, high order simulations of turbulent flows on unstructured grids for very high Reynolds' ...
We study the influence of different implementations of no-slip solid wall boundary conditions on the...
We study the influence of different implementations of no-slip solid wall boundary conditions on the...
In the present paper we study the influence of weak and strong no-slip solid wall boundary condition...
The pressure-velocity formulation of the incompressible Navier-Stokes equations is solved using high...
Close to solid walls, at high Reynolds numbers, fluids may develop steep gradients which requirea fi...
The nonlinear incompressible Navier-Stokes equations with boundary conditions at far fields and soli...
Close to solid walls, at high Reynolds numbers, fluids may develop steep gradients which require a f...
In this paper we prove stability of Robin solid wall boundary conditions for the compressible Navier...
Part I: We consider the numerical solution of the Navier-Stokes equations governing the unsteady ...
Original Publication:Qaisar Abbas and Jan Nordström, Weak versus strong no-slip boundary conditions ...
This work describes the implementation of the slip boundary condition on solid walls in a numerical ...
We introduce a new weak boundary procedure for high order finite difference methods applied to the l...
In solving steady-state problems (governed by the Euler equations) with unsteady solution process, e...
In numerical simulations, problems stemming from aerodynamics pose many challenges for the method us...
Affordable, high order simulations of turbulent flows on unstructured grids for very high Reynolds' ...
We study the influence of different implementations of no-slip solid wall boundary conditions on the...
We study the influence of different implementations of no-slip solid wall boundary conditions on the...
In the present paper we study the influence of weak and strong no-slip solid wall boundary condition...
The pressure-velocity formulation of the incompressible Navier-Stokes equations is solved using high...
Close to solid walls, at high Reynolds numbers, fluids may develop steep gradients which requirea fi...
The nonlinear incompressible Navier-Stokes equations with boundary conditions at far fields and soli...
Close to solid walls, at high Reynolds numbers, fluids may develop steep gradients which require a f...
In this paper we prove stability of Robin solid wall boundary conditions for the compressible Navier...
Part I: We consider the numerical solution of the Navier-Stokes equations governing the unsteady ...
Original Publication:Qaisar Abbas and Jan Nordström, Weak versus strong no-slip boundary conditions ...
This work describes the implementation of the slip boundary condition on solid walls in a numerical ...
We introduce a new weak boundary procedure for high order finite difference methods applied to the l...
In solving steady-state problems (governed by the Euler equations) with unsteady solution process, e...
In numerical simulations, problems stemming from aerodynamics pose many challenges for the method us...
Affordable, high order simulations of turbulent flows on unstructured grids for very high Reynolds' ...