Experimental Investigation of the Effect of Steps and Gaps on Hypersonic Vehicles

William Ivison, Chris Hambidge, Matthew McGilvray, Jim Merrifield, Johan Steelant

DOI Number XXX-YYY-ZZZ

Conference Number HiSST-2022-398

The design of hypersonic vehicles typically incorporates the use of simple, geometric shapes with smooth
surfaces. There are many reasons why aircraft cannot have perfectly smooth surfaces with small,
unavoidable imperfections frequently being present. These can appear in many forms, such as gaps
between tiles and rivets joining different panels. Surface features like this are mainly detrimental to
aircraft performance for two reasons: they can cause premature boundary layer transition, leading to
higher integrated heat loads and unexpected aerodynamic loads; and they cause highly localised areas
of heat flux augmentation – up to many times the undisturbed level. This work is part of a project
which aims to characterise some of these effects using a combination of experimental and numerical
techniques with the overall aim being to produce useful engineering level correlations for use in vehicle
design. This paper presents initial experiments performed in the Oxford High Density Tunnel (HDT).
Heat flux and pressure data have been acquired for a range of step and cavity geometries, and capability
of a sophisticated experimental model has been shown.

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boundary layer transition, flat plate, heat flux, step

In Categories: 1.Events, High-Speed Aerodynamics and Aerothermodynamics, HiSST 2022

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