Tamas Bykerk, Jonathan Jeyaratnam, Dries Verstraete, Johan Steelant

DOI Number XXX-YYY-ZZZ

Conference Number HiSST-2022-3

Hypersonic waveriders have the potential to significantly reduce travel times on long haul civilian transport routes. The design of hypersonic aircraft is heavily influenced by the aerodynamic efficiency at
the cruise Mach number, resulting in less than ideal geometries for subsonic flight. Waverider aerodynamics and stability in the low speed regime is rarely investigated and not well understood, but is
crucial for horizontal take-offs and landings. This paper gives an overview of all work completed within
the HEXAFLY-INT project with respect to subsonic investigations. It covers a wide range of static and
dynamic wind tunnel tests in the longitudinal and lateral-directional planes. The experimental investigations are complemented by in depth numerical computations which validate the experimental data. It
was found that flow separation, non-linear vortex lift and subsequent bursting at high angles of attack
govern the aircraft stability derivaties. This is due to the low aspect ratio, highly swept delta wings
which are present on the vehicle, as well as sharp edges which give rise to high pressure gradients at
moderate angles of attack.

Read the full paper >

Email
Print
LinkedIn
The paper above was part of  proceedings of a CEAS event and as such the author has signed a publication agreement to have their paper published in the repository. In the case this paper is found somewhere else CEAS always links to the other source.  CEAS takes great care in making the correct content available to the reader. If any mistakes are found  in the listings please contact us directly at papers@aerospacerepository.org and we will correct the listing promptly.  CEAS cannot be held liable either for mistakes in editorial or technical aspects, nor for omissions, nor for the correctness of the content. In particular, CEAS does not guarantee completeness or correctness of information contained in external websites which can be accessed via links from CEAS’s websites. Despite accurate research on the content of such linked external websites, CEAS cannot be held liable for their content. Only the content providers of such external sites are liable for their content. Should you notice any mistake in technical or editorial aspects of the CEAS site, please do not hesitate to inform us.