Numerical solutions of the viscous shock layer equations governing laminar and turbulent flows of a perfect gas and radiating and nonradiating mixtures of perfect gases in chemical equilibrium are presented for hypersonic flow over spherically blunted cones and hyperboloids. Turbulent properties are described in terms of the classical mixing length. Results are compared with boundary layer and inviscid flowfield solutions; agreement with inviscid flowfield data is satisfactory. Agreement with boundary layer solutions is good except in regions of strong vorticity interaction; in these flow regions, the viscous shock layer solutions appear to be more satisfactory than the boundary layer solutions. Boundary conditions suitable for hypersonic v...
The discussion, started in Semiannual Status Report Number 1, on aerothermal problems of hyperveloci...
Empirical anaytic methods are presented for calculating thermal and pressure distributions in three-...
This work belongs to the theory of fluid flows at high Reynolds number, characterised by low viscosi...
The equations which govern the viscous shock-layer flow are presented and the method by which the eq...
Numerical solutions are presented for the flow over a spherically blunted cone and hyperboloid with ...
The viscous-shock-layer equations for hypersonic laminar and turbulent flows of radiating or nonradi...
An engineering method has been developed that couples an approximate three dimensional inviscid tech...
An implicit finite-difference method was used to solve the compressible boundary-layer equations, an...
An efficient and accurate method for solving the viscous shock layer equations for hypersonic flows ...
A method for solving the viscous shock-layer equations for hypersonic flows over long slender bodies...
Approximate stagnation point solutions to radiant energy effects on hot shock layer around blunt bod...
Flow fields were computed about blunted, 0.524 and 0.698 radians, cone configurations to assess the ...
Results of solving the Navier-Stokes equations for chemically nonequilibrium, merged stagnation shoc...
The viscous shock layer equations for hypersonic laminar and turbulent flows of radiating or nonradi...
For hypersonic flow with a shock wave, there is a similar solution consistent throughout the viscous...
The discussion, started in Semiannual Status Report Number 1, on aerothermal problems of hyperveloci...
Empirical anaytic methods are presented for calculating thermal and pressure distributions in three-...
This work belongs to the theory of fluid flows at high Reynolds number, characterised by low viscosi...
The equations which govern the viscous shock-layer flow are presented and the method by which the eq...
Numerical solutions are presented for the flow over a spherically blunted cone and hyperboloid with ...
The viscous-shock-layer equations for hypersonic laminar and turbulent flows of radiating or nonradi...
An engineering method has been developed that couples an approximate three dimensional inviscid tech...
An implicit finite-difference method was used to solve the compressible boundary-layer equations, an...
An efficient and accurate method for solving the viscous shock layer equations for hypersonic flows ...
A method for solving the viscous shock-layer equations for hypersonic flows over long slender bodies...
Approximate stagnation point solutions to radiant energy effects on hot shock layer around blunt bod...
Flow fields were computed about blunted, 0.524 and 0.698 radians, cone configurations to assess the ...
Results of solving the Navier-Stokes equations for chemically nonequilibrium, merged stagnation shoc...
The viscous shock layer equations for hypersonic laminar and turbulent flows of radiating or nonradi...
For hypersonic flow with a shock wave, there is a similar solution consistent throughout the viscous...
The discussion, started in Semiannual Status Report Number 1, on aerothermal problems of hyperveloci...
Empirical anaytic methods are presented for calculating thermal and pressure distributions in three-...
This work belongs to the theory of fluid flows at high Reynolds number, characterised by low viscosi...