We consider an unbounded steady-state flow of viscous fluid over a three-dimensional finite body or configuration of bodies. For the purpose of solving this flow problem numerically, we discretize the governing equations (Navier-Stokes) on a finite-difference grid. The grid obviously cannot stretch from the body up to infinity, because the number of the discrete variables in that case would not be finite. Therefore, prior to the discretization we truncate the original unbounded flow domain by introducing some artificial computational boundary at a finite distance of the body. Typically, the artificial boundary is introduced in a natural way as the external boundary of the domain covered by the grid. The flow problem formulated only on the f...
Abstract.: We consider the problem of solving numerically the stationary incompressible Navier-Stoke...
This thesis provides improvements to computational fluid dynamics accuracy and ef- ficiency through ...
Critical to the advancement of computational aerodynamics capability is the ability to simulate flow...
Abstract. We consider an unbounded steady-state °ow of viscous °uid over a three-dimensional nite bo...
We propose new global artificial boundary conditions (ABC's) for computation of flows with propulsiv...
Numerical solution of infinite-domain boundary-value problems requires some special techniques that ...
While numerically solving a problem initially formulated on an unbounded domain, one typically trunc...
We present an innovative numerical approach for setting highly accurate nonlocal boundary conditions...
In this paper, we propose a new technique for the numerical treatment of external flow problems with...
AbstractWe consider the problem of imposing artificial boundary conditions on the external boundary ...
While numerically solving a problem initially formulated on an unbounded domain, one typically trunc...
summary:We present a method for the construction of artificial far-field boundary conditions for two...
Several boundary conditions that allow subsonic and supersonic flow into and out of the computationa...
The effect of reducing the extent of the computational domain for transonic lifting flow over an aer...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...
Abstract.: We consider the problem of solving numerically the stationary incompressible Navier-Stoke...
This thesis provides improvements to computational fluid dynamics accuracy and ef- ficiency through ...
Critical to the advancement of computational aerodynamics capability is the ability to simulate flow...
Abstract. We consider an unbounded steady-state °ow of viscous °uid over a three-dimensional nite bo...
We propose new global artificial boundary conditions (ABC's) for computation of flows with propulsiv...
Numerical solution of infinite-domain boundary-value problems requires some special techniques that ...
While numerically solving a problem initially formulated on an unbounded domain, one typically trunc...
We present an innovative numerical approach for setting highly accurate nonlocal boundary conditions...
In this paper, we propose a new technique for the numerical treatment of external flow problems with...
AbstractWe consider the problem of imposing artificial boundary conditions on the external boundary ...
While numerically solving a problem initially formulated on an unbounded domain, one typically trunc...
summary:We present a method for the construction of artificial far-field boundary conditions for two...
Several boundary conditions that allow subsonic and supersonic flow into and out of the computationa...
The effect of reducing the extent of the computational domain for transonic lifting flow over an aer...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...
Abstract.: We consider the problem of solving numerically the stationary incompressible Navier-Stoke...
This thesis provides improvements to computational fluid dynamics accuracy and ef- ficiency through ...
Critical to the advancement of computational aerodynamics capability is the ability to simulate flow...