Investigation of Missile-Shaped Body with Forward-Facing Cavity at Mach 8

Saravanan, S. ; Jagadeesh, G. ; Reddy, K. P. J. (2009) Investigation of Missile-Shaped Body with Forward-Facing Cavity at Mach 8 Journal of Spacecraft and Rockets, 46 (3). pp. 577-591. ISSN 0022-4650

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Official URL: http://doi.org/10.2514/1.38914

Related URL: http://dx.doi.org/10.2514/1.38914

Abstract

A blunt-nosed hypersonic missile mounted with a forward-facing cavity is a good alternative to reduce the stagnation heating rates. The effects of a forward-racing cavity on heat transfer and aerodynamic coefficients are addressed in this paper. Tests were carried out in hypersonic shock tunnel HST2, at a hypersonic Mach number of 8 using a 41 deg apex-angle blunt cone. The aerodynamic forces on the test model with and without a forward-facing cavity at various angles of attack are measured by using an internally mountable accelerometer force balance system. Heat flux measurements have been carried out on the test model with and without a forward-facing cavity of the entire surface at zero degree angle of attack with platinum sensors. A numerical simulation was also carried out using the computational fluid dynamics code (CFX-Ansys 5.7). An important result of this study is that the smaller cavity diameter has the highest lift-to-drag ratio, whereas the medium cavity has the highest heat flux reduction. Theshock structure around the test model has also been visualized using the Schlieren flow visualization technique. The visualized shock structure and the measured aerodynamic forces on the missile-shaped body with cavity configurations agree well with the axisymmetric numerical simulations.

Item Type:Article
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ID Code:127735
Deposited On:17 Oct 2022 04:09
Last Modified:11 Nov 2022 05:50

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