AbstractThe aerothermal analysis of a hypersonic vehicle is of fundamental interest for designing its configuration. The convection coefficients and wall temperatures due to aerodynamic heating to critical surfaces of a hypersonic vehicle are obtained computationally. Convective heat flux to the swept-back leading edge (SBLE) surface is obtained by splitting the velocity vector along and perpendicular to the surface, and thereby appropriately using the two-dimensional (2D) stagnation region and flat plate heat fluxes together. The main purpose of this work is to propose aerothermal concepts for configuration design of a swept leading edge hypersonic vehicle. Results obtained from these computational analyses reveal the existence of temperature and drag-minimized sweepback, temperature and heat flux-variations-minimized sweepback, and most importantly, the thermally benign sharp SBLE effect. There exists an optimum sweepback angle that is different from drag and temperature-minimized sweepback. These aerothermal concepts are also potential candidates for consideration in the configuration design of hypersonic vehicles.
Aerothermal Analysis for Configuration Design of Swept Leading Edge Hypersonic Vehicle
Journal of aerospace engineering ; 29 , 6
2016
Article (Journal)
English
Aerothermal Analysis for Configuration Design of Swept Leading Edge Hypersonic Vehicle
Online Contents | 2016
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