An Experimental Study of the Driving Mechanism and Control of the Unsteady Shock Induced Turbulent Separation in a Mach 5 Compression Corner Flow.

Abstract

This experimental study has examined the unsteady flowfield associated with the shock-induced separation of a turbulent boundary layer. The interaction was generated by a 28 deg unswept compression corner in a Mach 5 airstream. Perturbations were made to the interaction to better understand the mechanism responsible for the separation shock dynamics, as well as to demonstrate a method of controlling the shock motion. High frequency wall pressure measurements were used to track the time-dependent position of the separation shock. Conventional and fluctuating pitot pressure measurements were used to quantify the spatial mean and time-dependent extent of the baseline and altered interactions. Modification of the baseline interaction focused on two regions of the flowfield. Riblets and a boundary layer manipulator were separately introduced upstream of the interaction to alter the near-wall and outer region of the incoming boundary layer, respectively. Suction was applied through a slot in the face of the compression corner to alter the interaction downstream of the separation line.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 1992

Accession Number

ADA258861

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