© 2015 AIP Publishing LLC. The M = 2.9 supersonic turbulent flows over a tandem expansion-compression corner configuration with a sharp deflection angle of 25° at three Reynolds numbers Reδ = 20 000, 40 000, and 80 000 were studied by using direct numerical simulation. The flow statistics were validated against available experimental measurements and other numerical predictions. The flow structures and turbulence statistics were detailed visualized and analysed for the Reδ = 40 000 case, especially in the interaction region where flow separation and reattachment occurred. It was found that during the expansion process, the boundary layer exhibited a characteristic two-layer structure also discovered in previous experimental studies, and the...
On the basis of direct numerical simulations of rapidly compressed turbulence, Zeman and Coleman hav...
Rectangular channel geometries are widely encountered in supersonic flows, such as in wind tunnels a...
This paper concerns implicit large eddy simulations of subsonic flows through a symmetric suddenly e...
© 2015 AIP Publishing LLC. The M = 2.9 supersonic turbulent flows over a tandem expansion-compressio...
Direct numerical simulations of incident shock wave and supersonic turbulent boundary layer interact...
Supersonic turbulent flows at Mach 2.7 over expansion corners with deflection angles of 0° (flat pla...
A direct numerical simulation of the interaction between a shock wave and the supersonic turbulent b...
A direct numerical simulation of the interaction between a shock wave and the supersonic turbulent b...
This study conducted a direct numerical simulation of an incident shock wave impinging at an angle o...
AbstractThis paper presents the numerical investigations on shock-wave/turbulent boundary-layer inte...
The structure of the separated flow region over a 20 degree compression corner at a free-stream Mach...
An experimental study was made of the conditions necessary to promote incipient separation of a turb...
Mach number effects on pressure caused incipient separation of turbulent boundary layer in two dimen...
Direct numerical simulations of shock wave and supersonic turbulent boundary layer interaction in a ...
Identifying the mechanism by which flow transitions to turbulence is of particular interest for the ...
On the basis of direct numerical simulations of rapidly compressed turbulence, Zeman and Coleman hav...
Rectangular channel geometries are widely encountered in supersonic flows, such as in wind tunnels a...
This paper concerns implicit large eddy simulations of subsonic flows through a symmetric suddenly e...
© 2015 AIP Publishing LLC. The M = 2.9 supersonic turbulent flows over a tandem expansion-compressio...
Direct numerical simulations of incident shock wave and supersonic turbulent boundary layer interact...
Supersonic turbulent flows at Mach 2.7 over expansion corners with deflection angles of 0° (flat pla...
A direct numerical simulation of the interaction between a shock wave and the supersonic turbulent b...
A direct numerical simulation of the interaction between a shock wave and the supersonic turbulent b...
This study conducted a direct numerical simulation of an incident shock wave impinging at an angle o...
AbstractThis paper presents the numerical investigations on shock-wave/turbulent boundary-layer inte...
The structure of the separated flow region over a 20 degree compression corner at a free-stream Mach...
An experimental study was made of the conditions necessary to promote incipient separation of a turb...
Mach number effects on pressure caused incipient separation of turbulent boundary layer in two dimen...
Direct numerical simulations of shock wave and supersonic turbulent boundary layer interaction in a ...
Identifying the mechanism by which flow transitions to turbulence is of particular interest for the ...
On the basis of direct numerical simulations of rapidly compressed turbulence, Zeman and Coleman hav...
Rectangular channel geometries are widely encountered in supersonic flows, such as in wind tunnels a...
This paper concerns implicit large eddy simulations of subsonic flows through a symmetric suddenly e...