Tarandeep Singh scite author profile

Heat transfer rate and pressure measurements were made upstream of surface protuberances on a flat plate and a sharp cone subjected to hypersonic flow in a conventional shock tunnel. Heat flux was measured using platinum thin-film sensors deposited on macor substrate and the pressure measurements were made using fast acting piezoelectric sensors. A distinctive hot spot with highest heat flux was obtained near the foot of the protuberance due to heavy vortex activity in the recirculating region. Schlieren flow visualization was used to capture the shock structures and the separation distance ahead of the protrusions was quantitatively measured for varying protuberance heights. A computational analysis was conducted on the flat plate model using commercial computational fluid dynamics software and the obtained trends of heat flux and pressure were compared with the experimental observation. Experiments were also conducted by physically disturbing the laminar boundary layer to check its effect on the magnitude of the hot spot heat flux. In addition to air, argon was also used as test gas so that the Reynolds number can be varied. C 2014 AIP Publishing LLC. [http://dx.

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Control of Aerodynamic Drag and Heating of Nose Cones Through Taper Spikes

Narayan¹,

Narayanan²,

Kumar³

et al. 2019

Journal of Spacecraft and Rockets

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Test Gas Slug Characterization for Large-Scale Shock Tube Facility

Singh

Reddy

2017

AIAA Journal

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Tarandeep Singh

Hypersonic Boundary Layer Tripping to Turbulence on a Conical Body

Investigation of the separated region ahead of three-dimensional protuberances on plates and cones in hypersonic flows with laminar boundary layers

Control of Aerodynamic Drag and Heating of Nose Cones Through Taper Spikes

Test Gas Slug Characterization for Large-Scale Shock Tube Facility

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