Numerical and experimental transition results evaluation for a morphing wing and aileron system

Botez, R. M.; Koreanschi, A.; Gabor, O. S.; Tondji, Y.; Guezguez, M.; Kammegne, J. T.; Grigorie, L. T.; Sandu, D.; Mebarki, Y.; Mamou, M.; Amoroso, F.; Pecora, R.; Lecce, L.; Amendola, G.; Dimino, I.; Concilio, A.

research article

oai:www.iris.unina.it:11588/718203

Numerical and experimental transition results evaluation for a morphing wing and aileron system

Authors: R. M. Botez
A. Koreanschi
O. S. Gabor
Y. Tondji
M. Guezguez
J. T. Kammegne
L. T. Grigorie
D. Sandu
Y. Mebarki
M. Mamou
F. Amoroso
R. Pecora
L. Lecce
G. Amendola
I. Dimino
A. Concilio
Publication date: 1 January 2018
Publisher
Doi

Abstract

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 CRIAQ project, and the purpose was to demonstrate the wing upper surface and aileron morphing capabilities in improving the wing-tip aerodynamic performances. During numerical optimisation with 'in-house' genetic algorithm software, and during wind-tunnel experimental tests, it was demonstrated that the air-flow laminarity over the wing skin was promoted, and the laminar flow was extended with up to 9% of the chord. Drag coefficient reduction of up to 9% was obtained when the morphing aileron was introduced

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Archivio della ricerca - Università degli studi di Napoli Federico II

oai:www.iris.unina.it:11588/71...

Last time updated on 11/06/2018

This paper was published in Archivio della ricerca - Università degli studi di Napoli Federico II.

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