Rajan Kurade scite author profile

Shock-induced vortex breakdown, which occurs on the delta wings at transonic speed, causes a sudden and significant change in the aerodynamic coefficients at a moderate angle-of-attack. Wind-tunnel tests show a sudden jump in the aerodynamic coefficients such as lift force, pitching moment and centre of pressure which affect the longitudinal stability and controllability of the vehicle. A pneumatic jet operated at sonic condition blown spanwise and along the vortex core over a 60° swept delta-wing-body configuration is found to be effective in postponing this phenomenon by energising the vortical structure, pushing the vortex breakdown location downstream. The study reports that a modest level of spanwise blowing enhances the lift by about 6 to 9% and lift-to-drag ratio by about 4 to 9%, depending on the free-stream transonic Mach number, and extends the usable angle-of-attack range by 2°. The blowing is found to reduce the magnitude of unsteady pressure fluctuations by 8% to 20% in the aft portion of the wing, depending upon the method of blowing. Detailed investigations carried out on the location of blowing reveal that the blowing close to the apex of the wing maximises the benefits.

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Rajan Kurade

Experimental Investigation of the Flow over an 80°/45° Rounded Leading Edge Double-delta Wing-body Model

Trigger Mechanism for Obtaining Dynamic Derivatives in Wind Tunnels Using Free-Oscillation Technique

Some Interesting Features of Flow Past Slotted Circular Cylinder at Re = 3500

Control of shock-induced vortex breakdown on a delta-wing-body configuration in the transonic regime

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