Three-dimensional interference of oblique shock with boundary and high-entropy layers (M = 5, induced boundary layer transition)

The movie demonstrate the influence of bluntness on turbulent flow and heating on the flat plate near a sharp wedge. The results are shown in terms of the Stanton number distribution measured by temperature-sensitive paint in the Ludwieg wind tunnel

Three-dimensional interference of oblique shock with boundary and high-entropy layers (M = 5, induced boundary layer transition). Distribution of a nondimensional heat-transfer coefficient (Stanton number) over the plate surface near a 15 degree wedge depends on the plate leading edge bluntness radius r. Mach number M = 5, Reynolds number Re∞L = 27×106, total pressure Ро = 70 bar, total temperature То = 500 К, free boundary layer transition.

Read more in HYPERSONIC TURBULENT HEATING OF SHARP AND BLUNT PLATES NEAR A WEDGE

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