Add to ORKGA time-marching finite-difference method was used to solve the compressible Navier-Stokes equations for the three-dimensional wing-leading-edge shock impingement problem. The bow shock was treated as a discontinuity across which the exact shock jump conditions were applied. All interior shock layer detail such as shear layers, shock waves, jets, and the wall boundary layer were automatically captured in the solution. The impinging shock was introduced by discontinuously changing the freestream conditions across the intersection line at the bow shock. A special storage-saving procedure for sweeping through the finite-difference mesh was developed which reduces the required amount of computer storage by at least a factor of two without sacrif...
When two slender bodies are closely spaced within a supersonic freestream, substantial aerodynamic ...
Time-dependant method for calculating supersonic blunt body flow fields with sharp corners and embed...
The numerical simulation of hypersonic flows past blunt bodies by means of shock-capturing solvers i...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
Two-dimensional viscous blunt body flows with an impinging shock have been computed using a time-dep...
An experimental study of the flow caused by a planar shock wave impinging obliquely on a cylinder is...
A numerical method, which is simpler and more efficient than others currently in use, is proposed fo...
An approximate solution technique was developed for 3-D inviscid, hypersonic flows. The method emplo...
Two-dimensional axisymmetric, reacting viscous flow over blunt projectiles is computed to study shoc...
A numerical method for solving the parabolic approximation to the steady-state compressible Navier-S...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
A time dependent, two dimensional Navier-Stokes code employing the method of body fitted coordinate ...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
The shock-layer flowfield is obtained with or without viscous and heat-conducting dissipations from ...
The effect of shock impingement on the blunt leading edges of the top and sidewall compression type ...
When two slender bodies are closely spaced within a supersonic freestream, substantial aerodynamic ...
Time-dependant method for calculating supersonic blunt body flow fields with sharp corners and embed...
The numerical simulation of hypersonic flows past blunt bodies by means of shock-capturing solvers i...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
Two-dimensional viscous blunt body flows with an impinging shock have been computed using a time-dep...
An experimental study of the flow caused by a planar shock wave impinging obliquely on a cylinder is...
A numerical method, which is simpler and more efficient than others currently in use, is proposed fo...
An approximate solution technique was developed for 3-D inviscid, hypersonic flows. The method emplo...
Two-dimensional axisymmetric, reacting viscous flow over blunt projectiles is computed to study shoc...
A numerical method for solving the parabolic approximation to the steady-state compressible Navier-S...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
A time dependent, two dimensional Navier-Stokes code employing the method of body fitted coordinate ...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
The shock-layer flowfield is obtained with or without viscous and heat-conducting dissipations from ...
The effect of shock impingement on the blunt leading edges of the top and sidewall compression type ...
When two slender bodies are closely spaced within a supersonic freestream, substantial aerodynamic ...
Time-dependant method for calculating supersonic blunt body flow fields with sharp corners and embed...
The numerical simulation of hypersonic flows past blunt bodies by means of shock-capturing solvers i...