Add to ORKGTwo-dimensional viscous blunt body flows with an impinging shock have been computed using a time-dependent finite-difference method which solves the complete set of Navier-Stokes equations for a compressible flow. For low Reynolds number flows, the entire flow field, including the bow shock and impinging shock, has been captured in the computation. For higher Reynolds number flows, the bow shock is treated as a discontinuity across which the Rankine-Hugoniot equations are applied, while the boundary layer and interaction regions are captured as before. Using this latter shock-fitting approach, a Type III shock interaction flow field has been computed with flow conditions corresponding to the space shuttle orbiter freestream conditions at 61...
A numerical code has been developed to solve the Viscous Shock Layer (VSL) equations for chemically ...
An improved method for solving the viscous shock layer equations for supersonic /hypersonic flows pa...
The viscous shock layer equations applicable to hypersonic laminar, transitional, and turbulent flow...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
A time-marching finite-difference method was used to solve the compressible Navier-Stokes equations ...
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...
A review is given of computations for a series of nominally 2-D laminar viscous-inviscid interaction...
A numerical method, which is simpler and more efficient than others currently in use, is proposed fo...
The interaction of an impinging shock with the bow-shock generated by a blunt geometry is examined n...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
The effect of shock impingement on the blunt leading edges of the top and sidewall compression type ...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
The steady-state Navier-Stokes equations are solved for hypersonic flow about blunt axisymmetric bod...
A numerical code has been developed to solve the Viscous Shock Layer (VSL) equations for chemically ...
An improved method for solving the viscous shock layer equations for supersonic /hypersonic flows pa...
The viscous shock layer equations applicable to hypersonic laminar, transitional, and turbulent flow...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
A time-marching finite-difference method was used to solve the compressible Navier-Stokes equations ...
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...
A review is given of computations for a series of nominally 2-D laminar viscous-inviscid interaction...
A numerical method, which is simpler and more efficient than others currently in use, is proposed fo...
The interaction of an impinging shock with the bow-shock generated by a blunt geometry is examined n...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
The effect of shock impingement on the blunt leading edges of the top and sidewall compression type ...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
The steady-state Navier-Stokes equations are solved for hypersonic flow about blunt axisymmetric bod...
A numerical code has been developed to solve the Viscous Shock Layer (VSL) equations for chemically ...
An improved method for solving the viscous shock layer equations for supersonic /hypersonic flows pa...
The viscous shock layer equations applicable to hypersonic laminar, transitional, and turbulent flow...