The numerical solution of the full Navier-Stokes Equations for viscous flows with high Mach numbers and a strong detached bow shock was obtained. Two dimensional flows around a circular cylinder, and a circular cylinder with an aft-body in the form of a fairing, were considered. The solution of the compressible N.S. equations was accomplished by the method of finite differences. An implicit scheme of solution, the S.O.R., was used with the optimum acceleration parameters determined by trial and error. The tensor notation was used in writing the N-S Equations transformed into general curvilinear coordinates. The equations for the generation of the coordinate system were solved, followed by the solution of the N.S. equations, at the end of a ...
A new computer code for the solution of the three-dimensional parabolized Navier-Stokes (PNS) equati...
The paper reports on Newton-like methods called SFDN-a-GMRES and SQN-a-GMRES methods that have been ...
Two-dimensional axisymmetric, reacting viscous flow over blunt projectiles is computed to study shoc...
A time dependent, two dimensional Navier-Stokes code employing the method of body fitted coordinate ...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
Three different approaches for efficiently computing supersonic flow fields with strong viscous/invi...
A numerical method for solving the parabolic approximation to the steady-state compressible Navier-S...
This paper reports on numerical results for supersonic and hypersonic steady flows over axisymmetri...
Research in aerodynamics is discussed. The development of equilibrium air curve fits; computation of...
A solution for the two-dimensional flow of an inviscid perfect gas over a circular cylinder at infin...
This thesis reports research carried out towards numerical simulation of hypersonic flows around spa...
The paper describes two studies involved with the parallelisation of algorithms for the numerical c...
This thesis aims to assist the development of a multiblock implicit Navier-Stokes code for hyperson...
An unsteady TVD Navier-Stokes solver was developed and applied to the problem of shock reflection on...
The construction of a reliable, shock capturing finite difference method to solve the Euler equation...
A new computer code for the solution of the three-dimensional parabolized Navier-Stokes (PNS) equati...
The paper reports on Newton-like methods called SFDN-a-GMRES and SQN-a-GMRES methods that have been ...
Two-dimensional axisymmetric, reacting viscous flow over blunt projectiles is computed to study shoc...
A time dependent, two dimensional Navier-Stokes code employing the method of body fitted coordinate ...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
Three different approaches for efficiently computing supersonic flow fields with strong viscous/invi...
A numerical method for solving the parabolic approximation to the steady-state compressible Navier-S...
This paper reports on numerical results for supersonic and hypersonic steady flows over axisymmetri...
Research in aerodynamics is discussed. The development of equilibrium air curve fits; computation of...
A solution for the two-dimensional flow of an inviscid perfect gas over a circular cylinder at infin...
This thesis reports research carried out towards numerical simulation of hypersonic flows around spa...
The paper describes two studies involved with the parallelisation of algorithms for the numerical c...
This thesis aims to assist the development of a multiblock implicit Navier-Stokes code for hyperson...
An unsteady TVD Navier-Stokes solver was developed and applied to the problem of shock reflection on...
The construction of a reliable, shock capturing finite difference method to solve the Euler equation...
A new computer code for the solution of the three-dimensional parabolized Navier-Stokes (PNS) equati...
The paper reports on Newton-like methods called SFDN-a-GMRES and SQN-a-GMRES methods that have been ...
Two-dimensional axisymmetric, reacting viscous flow over blunt projectiles is computed to study shoc...