Skip to main content

Research Repository

Advanced Search

All Outputs (29)

Fast and accurate quasi-3D aerodynamic methods for aircraft conceptual design studies (2020)
Journal Article
Sugar-Gabor, O., & Koreanschi, A. (2021). Fast and accurate quasi-3D aerodynamic methods for aircraft conceptual design studies. Aeronautical Journal, 125(1286), 593-617. https://doi.org/10.1017/aer.2020.128

In this paper, recent developments in quasi-3D aerodynamic methods are presented. At their
core, these methods are based on the Lifting-Line Theory and Vortex Lattice Method, but with
a relaxed set of hypotheses, while also considering the effect o... Read More about Fast and accurate quasi-3D aerodynamic methods for aircraft conceptual design studies.

Design of supercritical low-Reynolds number airfoils for fixed-wing flight on Mars (2020)
Journal Article
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

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... Read More about Design of supercritical low-Reynolds number airfoils for fixed-wing flight on Mars.

Numerical and experimental transition results evaluation for a morphing wing and aileron system (2018)
Journal Article
Botez, R., Koreanschi, A., Sugar-Gabor, O., Mebarki, Y., Mamou, M., Tondji, Y., …Concilio, A. (2018). Numerical and experimental transition results evaluation for a morphing wing and aileron system. Aeronautical Journal, 122(1251), 747-784. https://doi.org/10.1017/aer.2018.15

A new wing-tip concept with morphing upper surface and interchangeable conventional and morphing ailerons was designed, manufactured, bench and wind tunnel tested. The development of this wing tip model was performed in the frame of an international... Read More about Numerical and experimental transition results evaluation for a morphing wing and aileron system.

Morphing wing application on Hydra Technologies UAS-S4 (2017)
Presentation / Conference
Segui, M., Sugar-Gabor, O., Koreanschi, A., & Botez, R. (2017, February). Morphing wing application on Hydra Technologies UAS-S4. Presented at IASTED Modelling, Identification and Control 2017 Conference, Innsbruck, Austria

This paper presents the aerodynamic results of a morphing wing study performed on the UAS S4 Éhecatl from Hydra Technologies. Only the cruise phase of the aircraft was considered (constant altitude and constant speed). The difference, from an aerodyn... Read More about Morphing wing application on Hydra Technologies UAS-S4.

Optimization and design of an aircraft’s morphing wing-tip demonstrator for drag reduction at low speed, Part I – Aerodynamic optimization using genetic, bee colony and gradient descent algorithms (2017)
Journal Article
Koreanschi, A., Sugar-Gabor, O., Acotto, J., Brianchon, G., Portier, G., Botez, R., …Mebarki, Y. (2017). Optimization and design of an aircraft’s morphing wing-tip demonstrator for drag reduction at low speed, Part I – Aerodynamic optimization using genetic, bee colony and gradient descent algorithms. Chinese Journal of Aeronautics, 30(1), 149-163. https://doi.org/10.1016/j.cja.2016.12.013

In this paper, an ‘in-house’ genetic algorithm is described and applied to an optimization problem for improving the aerodynamic performances of an aircraft wing tip through upper surface morphing. The algorithm’s performances were studied from the c... Read More about Optimization and design of an aircraft’s morphing wing-tip demonstrator for drag reduction at low speed, Part I – Aerodynamic optimization using genetic, bee colony and gradient descent algorithms.

Optimization and design of an aircraft's morphing wing-tip demonstrator for drag reduction at low speeds, Part II - Experimental validation using Infra-Red transition measurement from Wind Tunnel tests (2017)
Journal Article
Koreanschi, A., Sugar-Gabor, O., Acotto, J., Brianchon, G., Portier, G., Botez, R., …Mebarki, Y. (2017). Optimization and design of an aircraft's morphing wing-tip demonstrator for drag reduction at low speeds, Part II - Experimental validation using Infra-Red transition measurement from Wind Tunnel tests. Chinese Journal of Aeronautics, 30(1), 164-174. https://doi.org/10.1016/j.cja.2016.12.018

In the present paper, an ‘in-house’ genetic algorithm was numerically and experimentally validated. The genetic algorithm was applied to an optimization problem for improving the aerodynamic performances of an aircraft wing tip through upper surface... Read More about Optimization and design of an aircraft's morphing wing-tip demonstrator for drag reduction at low speeds, Part II - Experimental validation using Infra-Red transition measurement from Wind Tunnel tests.

Aerodynamic performance improvement of the UAS-S4 Ehecatl morphing airfoil using novel optimization techniques (2016)
Journal Article
Sugar-Gabor, O., Simon, A., Koreanschi, A., & Botez, R. (2016). Aerodynamic performance improvement of the UAS-S4 Ehecatl morphing airfoil using novel optimization techniques. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 230(7), 1164-1180. https://doi.org/10.1177/0954410015605548

In this paper, we present a morphing wing concept of the airfoil of the S4 unmanned aerial system, the new optimization methodology and the results obtained for multiple flight conditions. The reduction of the airfoil drag coefficient has been achiev... Read More about Aerodynamic performance improvement of the UAS-S4 Ehecatl morphing airfoil using novel optimization techniques.

A new non-linear vortex lattice method : applications to wing aerodynamic optimizations (2016)
Journal Article
Sugar-Gabor, O., Koreanschi, A., & Botez, R. (2016). A new non-linear vortex lattice method : applications to wing aerodynamic optimizations. Chinese Journal of Aeronautics, 29(5), 1178-1195. https://doi.org/10.1016/j.cja.2016.08.001

This paper presents a new non-linear formulation of the classical Vortex Lattice Method (VLM) approach for calculating the aerodynamic properties of lifting surfaces. The method accounts for the effects of viscosity, and due to its low computational... Read More about A new non-linear vortex lattice method : applications to wing aerodynamic optimizations.

Aerodynamic analysis of upper surface wing morphing efficiency for the S4 Éhecatl unmanned aerial system (2016)
Book Chapter
Sugar-Gabor, O., Koreanschi, A., & Botez, R. (2016). Aerodynamic analysis of upper surface wing morphing efficiency for the S4 Éhecatl unmanned aerial system. In Unmanned Aircraft Systems (ICUAS), 2016 International Conference on 7-10 June 2016 (185-194). IEEE. https://doi.org/10.1109/ICUAS.2016.7502530

This paper investigates the aerodynamic performance improvement of the Hydra Technologies S4 Unmanned Aerial System using a morphing wing concept. A part of the wing's upper surface is morphed, as function of the flight condition, in order to increas... Read More about Aerodynamic analysis of upper surface wing morphing efficiency for the S4 Éhecatl unmanned aerial system.

Analysis of UAS-S4 Éhecatl aerodynamic performance improvement using several configurations of a morphing wing technology (2016)
Journal Article
Sugar-Gabor, O., Koreanschi, A., & Botez, R. (2016). Analysis of UAS-S4 Éhecatl aerodynamic performance improvement using several configurations of a morphing wing technology. Aeronautical Journal, 120(1231), 1337-1364. https://doi.org/10.1017/aer.2016.61

The paper presents the results of the aerodynamic optimisation of an Unmanned Aerial System's wing using a morphing approach. The shape deformation of the wing is achieved by placing actuator lines at several positions along its span. For each flight... Read More about Analysis of UAS-S4 Éhecatl aerodynamic performance improvement using several configurations of a morphing wing technology.

Improving the UAS-S4 Ehecatl airfoil high angles-of-attack performance characteristics using a morphing wing approach (2016)
Journal Article
Sugar-Gabor, O., Simon, A., Koreanschi, A., & Botez, R. (2016). Improving the UAS-S4 Ehecatl airfoil high angles-of-attack performance characteristics using a morphing wing approach. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 230(1), 118-131. https://doi.org/10.1177/0954410015587725

In this paper, a morphing wing approach with a new methodology and its results for the high angles-of-attack optimization of the S4 unmanned aerial system airfoil are described. The boundary layer separation delay, coupled with an increase of the max... Read More about Improving the UAS-S4 Ehecatl airfoil high angles-of-attack performance characteristics using a morphing wing approach.

Numerical and experimental validation of a morphed wing geometry using Price-Païdoussis wind-tunnel testing (2016)
Journal Article
Botez, R., Koreanschi, A., & Sugar-Gabor, O. (2016). Numerical and experimental validation of a morphed wing geometry using Price-Païdoussis wind-tunnel testing. Aeronautical Journal, 120(1227), 757-795. https://doi.org/10.1017/aer.2016.30

An experimental validation of an optimised wing geometry in the Price-Païdoussis subsonic wind tunnel is presented. Two wing models were manufactured using optimised glass fibre composite and tested at three speeds and various angle-of-attack. These... Read More about Numerical and experimental validation of a morphed wing geometry using Price-Païdoussis wind-tunnel testing.

Numerical simulation and wind tunnel tests investigation and validation of a morphing wing-tip demonstrator aerodynamic performance (2016)
Journal Article
Sugar-Gabor, O., Koreanschi, A., Botez, R., Mamou, M., & Mebarki, Y. (2016). Numerical simulation and wind tunnel tests investigation and validation of a morphing wing-tip demonstrator aerodynamic performance. Aerospace science and technology, 53, 136-153. https://doi.org/10.1016/j.ast.2016.03.014

This paper presents the results obtained from the numerical simulation and experimental wind tunnel testing of a morphing wing equipped with a flexible upper surface and controllable actuated aileron. The technology demonstrator is representative of... Read More about Numerical simulation and wind tunnel tests investigation and validation of a morphing wing-tip demonstrator aerodynamic performance.

Drag optimisation of a wing equipped with a morphing upper surface (2016)
Journal Article
Koreanschi, A., Sugar-Gabor, O., & Botez, R. (2016). Drag optimisation of a wing equipped with a morphing upper surface. Aeronautical Journal, 120(1225), 473-493. https://doi.org/10.1017/aer.2016.6

The drag coefficient and the laminar-to-turbulent transition for the aerofoil component of a wing model are optimised using an adaptive upper surface with two actuation points. The effects of the new shaped aerofoils on the global drag coefficient of... Read More about Drag optimisation of a wing equipped with a morphing upper surface.

Flutter analysis of a morphing wing technology demonstrator : numerical simulation and wind tunnel testing (2016)
Journal Article
Koreanschi, A., Henia, M., Guillemette, O., Michaud, F., Tondji, Y., Sugar-Gabor, O., …Flores salinas, M. (2016). Flutter analysis of a morphing wing technology demonstrator : numerical simulation and wind tunnel testing. Incas Bulletin, 8(1), 99-124. https://doi.org/10.13111/2066-8201.2016.8.1.10

As part of a morphing wing technology project, the flutter analysis of two finite element models and the experimental results of a morphing wing demonstrator equipped with aileron are presented. The finite element models are representing a wing secti... Read More about Flutter analysis of a morphing wing technology demonstrator : numerical simulation and wind tunnel testing.

Numerical and experimental validation of a morphed wing geometry using Price-Païdoussis wind-tunnel testing – CORRIGENDUM (2016)
Journal Article
Botez, R., Koreanschi, A., & Sugar-Gabor, O. (2016). Numerical and experimental validation of a morphed wing geometry using Price-Païdoussis wind-tunnel testing – CORRIGENDUM. Aeronautical Journal, 120(1230), 1335-1335. https://doi.org/10.1017/aer.2016.73

The authors were listed incorrectly in the article by Botez(1). The authors should have appeared in the following order:

A. Koreanschi, O. Sugar-Gabor and R.M. Botez

The article has now been updated with all authors listed in the correct order;... Read More about Numerical and experimental validation of a morphed wing geometry using Price-Païdoussis wind-tunnel testing – CORRIGENDUM.

Numerical optimization of the UAS-S4 Éhecatl airfoil using a morphing wing approach (2014)
Presentation / Conference
Sugar-Gabor, O., Simon, A., Koreanschi, A., & Botez, R. (2014, June). Numerical optimization of the UAS-S4 Éhecatl airfoil using a morphing wing approach. Presented at 32nd AIAA Applied Aerodynamics Conference, AIAA AVIATION Forum, Atalnta, Georgia, USA

In this paper, we describe the new methodology and the results obtained for multiple flight conditions optimization of the airfoil of the S4 unmanned aerial system, using a morphing wing approach. The goal of reducing the airfoil drag coefficient ove... Read More about Numerical optimization of the UAS-S4 Éhecatl airfoil using a morphing wing approach.

Application of a morphing wing technology on Hydra Technologies unmanned aerial system UAS-S4 (2014)
Book Chapter
Sugar-Gabor, O., Simon, A., Koreanschi, A., & Botez, R. (2014). Application of a morphing wing technology on Hydra Technologies unmanned aerial system UAS-S4. In ASME 2014 International Mechanical Engineering Congress and Exposition. Volume 1: Advances in Aerospace Technology. ASME. https://doi.org/10.1115/IMECE2014-37619

The paper describes the application of a morphing wing technology on the wing of an Unmanned Aerial System (UAS). The morphing wing concept works by replacing a part of the rigid wing upper and lower surfaces with a flexible skin whose shape can be d... Read More about Application of a morphing wing technology on Hydra Technologies unmanned aerial system UAS-S4.