Wind tunnel tests were conducted to establish a benchmark experimental data base for a genetic hypersonic aircraft vehicle. Comprehensive measurements were made at Mach 7 to give flow visualization, surface pressure, surface convective heat transfer, and flow field Pitot pressure for a delta platform all-body vehicle. The tests were conducted in the NASA/Ames 3.5-Foot Hypersonic Wind Tunnel at Reynolds numbers sufficient to give turbulent flow. Comparisons are made of the experimental results with computational solutions of the flow by an upwind parabolized Navier-Stokes code developed at Ames. Good agreement of experiment with solutions by the code is demonstrated
An experimental study was conducted to determine the aerodynamic characteristics of a proposed high ...
The use of the Boeing TEA-230 Subsonic Flow Analysis method as a primary design tool in the developm...
The current approach to the Accurate Computation of Complex high-speed flows is to solve the Reynold...
A comprehensive test program is defined which is being implemented in the NASA/Ames 3.5 foot Hyperso...
This paper provides an overview of NASA's focused hypersonic technology program, called the Hyper-X ...
The object of Cooperative Agreement NCC2-452 was to identify, develop, and document reliable turbule...
Research activity in the aerothermodynamics branch at the NASA Ames Research Center is reviewed. Adv...
The purpose was to experimentally characterize the flow field created by the interaction of a single...
An experimental wind-tunnel investigation has been carried out to determine the static longitudinal,...
This paper provides an overview of NASA's Hyper-X Program; a focused hypersonic technology effort de...
The static longitudinal, lateral, and directional stability characteristics of a hypersonic research...
Renewed interest in hypersonic and supersonic flows spurred the development of the Compressible Navi...
An aerothermodynamic database has been generated through both experimental testing and computational...
The goal of this research is the assessment of the validity of existing three dimensional numerical ...
The basic objective of this research was to identify, develop and recommend turbulence models which ...
An experimental study was conducted to determine the aerodynamic characteristics of a proposed high ...
The use of the Boeing TEA-230 Subsonic Flow Analysis method as a primary design tool in the developm...
The current approach to the Accurate Computation of Complex high-speed flows is to solve the Reynold...
A comprehensive test program is defined which is being implemented in the NASA/Ames 3.5 foot Hyperso...
This paper provides an overview of NASA's focused hypersonic technology program, called the Hyper-X ...
The object of Cooperative Agreement NCC2-452 was to identify, develop, and document reliable turbule...
Research activity in the aerothermodynamics branch at the NASA Ames Research Center is reviewed. Adv...
The purpose was to experimentally characterize the flow field created by the interaction of a single...
An experimental wind-tunnel investigation has been carried out to determine the static longitudinal,...
This paper provides an overview of NASA's Hyper-X Program; a focused hypersonic technology effort de...
The static longitudinal, lateral, and directional stability characteristics of a hypersonic research...
Renewed interest in hypersonic and supersonic flows spurred the development of the Compressible Navi...
An aerothermodynamic database has been generated through both experimental testing and computational...
The goal of this research is the assessment of the validity of existing three dimensional numerical ...
The basic objective of this research was to identify, develop and recommend turbulence models which ...
An experimental study was conducted to determine the aerodynamic characteristics of a proposed high ...
The use of the Boeing TEA-230 Subsonic Flow Analysis method as a primary design tool in the developm...
The current approach to the Accurate Computation of Complex high-speed flows is to solve the Reynold...