Add to ORKGThe capability for CFD prediction of hypersonic shock wave laminar boundary layer interaction was assessed for a double wedge model at Mach 7.1 in air and nitrogen at 2.1 MJ/kg and 8 MJ/kg. Simulations were performed by seven research organizations encompassing both Navier-Stokes and Direct Simulation Monte Carlo (DSMC) methods as part of the NATO STO AVT Task Group 205 activity. Comparison of the CFD simulations with experimental heat transfer and schlieren visualization suggest the need for accurate modeling of the tunnel startup process in short-duration hypersonic test facilities, and the importance of fully 3-D simulations of nominally 2-D (i.e., non-axisymmmetric) experimental geometries
This report provides an overview of the hypersonic aeroheating CFD research conducted at the NASA La...
Currently, aerothermal research into scramjet-propelled vehicles characterized by a wedge-shaped sec...
This paper presents the results of a numerical study of hypersonic interacting flows at flow conditi...
The capability for CFD prediction of hypersonic shock wave laminar boundary layer interaction was as...
The goal of this study is to assess CFD capability for the prediction of shock wave laminar boundary...
The goal of this study is to assess CFD capability for prediction of laminar shock wave/ boundary l...
For assessment of CFD capability in the prediction of the aerothermodynamic loading on a hypersonic ...
There is a reinterest in hypersonic flow. There are several programs all around the world to produc...
A series of experiments to measure pressure and heating for code validation involving hypersonic, la...
The capabilities of a relatively new direct simulation Monte Carlo (DSMC) code are examined for the ...
program to benchmark computational fluid dynamic (CFD) predicted aerodynamic and aerothermal environ...
A set of numerical simulations designed to study the laminar, shock-shock interactions from hyperso...
Shock wave laminar boundary layer interaction (SWBLI) over a double wedge was simulated at Mach 7.11...
The capability of the Navier-Stokes equations with a perfect gas model for simulation of hypersonic ...
As true with all hypersonic flight, the ability to quickly and accurately predict the aero-thermodyn...
This report provides an overview of the hypersonic aeroheating CFD research conducted at the NASA La...
Currently, aerothermal research into scramjet-propelled vehicles characterized by a wedge-shaped sec...
This paper presents the results of a numerical study of hypersonic interacting flows at flow conditi...
The capability for CFD prediction of hypersonic shock wave laminar boundary layer interaction was as...
The goal of this study is to assess CFD capability for the prediction of shock wave laminar boundary...
The goal of this study is to assess CFD capability for prediction of laminar shock wave/ boundary l...
For assessment of CFD capability in the prediction of the aerothermodynamic loading on a hypersonic ...
There is a reinterest in hypersonic flow. There are several programs all around the world to produc...
A series of experiments to measure pressure and heating for code validation involving hypersonic, la...
The capabilities of a relatively new direct simulation Monte Carlo (DSMC) code are examined for the ...
program to benchmark computational fluid dynamic (CFD) predicted aerodynamic and aerothermal environ...
A set of numerical simulations designed to study the laminar, shock-shock interactions from hyperso...
Shock wave laminar boundary layer interaction (SWBLI) over a double wedge was simulated at Mach 7.11...
The capability of the Navier-Stokes equations with a perfect gas model for simulation of hypersonic ...
As true with all hypersonic flight, the ability to quickly and accurately predict the aero-thermodyn...
This report provides an overview of the hypersonic aeroheating CFD research conducted at the NASA La...
Currently, aerothermal research into scramjet-propelled vehicles characterized by a wedge-shaped sec...
This paper presents the results of a numerical study of hypersonic interacting flows at flow conditi...