Transition and Turbulence Phenomena in Supersonic Wakes of Wedges
Abstract
At supersonic speeds the wake of a blunt body may be divided into an inner viscous wake stemming from the body boundary layers and an outer "inviscid" wake produced by the bow shock. In such wakes, as in the wake of a cylinder, at low Reynolds numbers the onset of transition occurs thousands of diameters downstream of the body in the outer, shock-induced wake. As the Reynolds number is increased, transition occurs in the inner wake. For the same Mach number and at high Reynolds numbers transition on the wake of a wedge occurs further downstream than in the case of a cylinder, but the slender body transition curve crosses the blunt body transition curve. The question arises, where does transition occur in slender body wakes as the Reynolds number is decreased further? What effect does the much weaker outer shock-induced wake have on transition and, is the outer wake unstable enough to become turbulent?
Additional Information
© 1917 AIAA. Presented as Paper 70-794 at the AIAA 3rd Fluid and Plasma Dynamics Conference, Los Angeles, Calif., June 29-July 1, 1970. Submitted July 24, 1970; revision received March 3, 1971. Supported by the Advanced Ballistic Missile Defense Agency under Contract DAAH01-68-C-2086 and the Independent Research and Development program of TRW Systems.Additional details
- Eprint ID
- 79612
- Resolver ID
- CaltechAUTHORS:20170731-140852664
- DAAH01-68-C-2086
- Advanced Ballistic Missile Defense Agency
- TRW
- Created
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2017-08-01Created from EPrint's datestamp field
- Updated
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2021-11-15Created from EPrint's last_modified field
- Other Numbering System Name
- AIAA Paper
- Other Numbering System Identifier
- 70-794