The effect of shock impingement on the blunt leading edges of the top and sidewall compression type inlet of a scramjet engine is studied numerically. The impinging shock is caused by the vehicle forebody. The interaction of this forebody shock with the inlet leading edge shock results in a very complex flowfield containing local regions of high pressure and intense heating. This complex flowfield in calculated by solving the Navier-Stokes equations using a finite volume flux splitting technique due to van Leer. To resolve the finer details of the flow structure as well as to predict the surface heat transfer accurately, adaptive grid technique is used in the analysis. Results of the present numerical study are compared with available exper...
Experimental studies were conducted to examine the aerothermal characteristics of shock/shock/bounda...
There is a reinterest in hypersonic flow. There are several programs all around the world to produc...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
A numerical study was conducted to investigate the effects of blunt leading edges on the viscous flo...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
The advantages and design requirements of propulsion/airframe integration for high Mach number fligh...
Three-dimensional sidewall-compression scramjet inlets with leading-edge sweeps of 30 deg and 70 deg...
One of the major engineering challenges in designing the National Aerospace Plane, NASP, is to overc...
The objective of this study is to gain insight into the complex flow phenomena, governing the aerody...
An experimental study of shock wave interference heating on a cylindrical leading edge representativ...
Numerical simulations of the compressible, 3-D non reacting flow in the engine inlet sectionof a con...
The effects of fin leading-edge radius and sweep angle on peak heating rates due to shock-shock inte...
The research uses CFD to investigate the internal flow of two hypersonic engine inlets: the Hyperson...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Aerospace EngineeringA num...
We describe an investigation of the effects of non-equilibrium thermochemistry on the interaction be...
Experimental studies were conducted to examine the aerothermal characteristics of shock/shock/bounda...
There is a reinterest in hypersonic flow. There are several programs all around the world to produc...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...
A numerical study was conducted to investigate the effects of blunt leading edges on the viscous flo...
A numerical study has been conducted to investigate the effects of blunt leading edges on the viscou...
The advantages and design requirements of propulsion/airframe integration for high Mach number fligh...
Three-dimensional sidewall-compression scramjet inlets with leading-edge sweeps of 30 deg and 70 deg...
One of the major engineering challenges in designing the National Aerospace Plane, NASP, is to overc...
The objective of this study is to gain insight into the complex flow phenomena, governing the aerody...
An experimental study of shock wave interference heating on a cylindrical leading edge representativ...
Numerical simulations of the compressible, 3-D non reacting flow in the engine inlet sectionof a con...
The effects of fin leading-edge radius and sweep angle on peak heating rates due to shock-shock inte...
The research uses CFD to investigate the internal flow of two hypersonic engine inlets: the Hyperson...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Aerospace EngineeringA num...
We describe an investigation of the effects of non-equilibrium thermochemistry on the interaction be...
Experimental studies were conducted to examine the aerothermal characteristics of shock/shock/bounda...
There is a reinterest in hypersonic flow. There are several programs all around the world to produc...
A time dependent finite difference method used to calculate blunt body flows with impinging shock is...