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Design of supercritical low-Reynolds number airfoils for fixed-wing flight on Mars

Sugar-Gabor, O; Koreanschi, A

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Authors

A Koreanschi



Abstract

Aerodynamic shape optimization for the high-subsonic low-Reynolds number flow regime represents an area of on-going research. The interaction between supercritical compressible flow and laminar boundary layer separation is not well understood due to the high challenges associated with setting up relevant experimental work. However, in the design of future fixed wing aircraft for flight in extra-terrestrial atmospheres, such flow conditions might commonly occur. The present study presents a family of single-point and multi-point optimized airfoils designed for high-subsonic flight at a high-lift condition in the Martian atmosphere. A gradient based optimizer is used, with a second-order finite-volume flow solver and a second-order continuous adjoint solver for determining surface sensitivities with respect to the objective function of minimizing drag. Both fully turbulent and transitional flow are considered, to evaluate the impact on the resulting design and to stress the importance of continuing research to develop robust shape optimization including laminar boundary layer and transition prediction. Both on-design and off-design conditions are evaluated, the airfoils obtained when considering transition effects demonstrating good overall performance.

Citation

Sugar-Gabor, O., & Koreanschi, A. (2020). Design of supercritical low-Reynolds number airfoils for fixed-wing flight on Mars. Journal of Aerospace Engineering, 33(5), https://doi.org/10.1061/%28ASCE%29AS.1943-5525.0001166

Journal Article Type Article
Acceptance Date Mar 6, 2020
Online Publication Date Jun 9, 2020
Publication Date Sep 1, 2020
Deposit Date Mar 9, 2020
Publicly Available Date Jun 22, 2020
Journal Journal of Aerospace Engineering
Print ISSN 0893-1321
Electronic ISSN 1943-5525
Publisher Coasts, Oceans, Ports and Rivers Institute
Volume 33
Issue 5
DOI https://doi.org/10.1061/%28ASCE%29AS.1943-5525.0001166
Publisher URL https://doi.org/10.1061/(ASCE)AS.1943-5525.0001166
Related Public URLs https://ascelibrary.org/journal/jaeeez
Additional Information Access Information : This material may be downloaded for personal use only. Any other use requires prior permission of the American Society of Civil Engineers. This material may be found at the link above.

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