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Multidisciplinary analysis and structural optimization for the aeroelastic sizing of a UAV wing using open-source code integration.

Authors :
Benaouali, Abdelkader
Boutemedjet, Abdelwahid
Source :
Aircraft Engineering & Aerospace Technology. 2024, Vol. 96 Issue 4, p585-592. 8p.
Publication Year :
2024

Abstract

Purpose: This paper aims to propose a structural sizing approach of an unmanned aerial vehicle (UAV) wing that takes into account the aeroelasticity effects through a fluid–structure interaction analysis. Design/methodology/approach: The sizing approach proposed in this study is an iterative process, each iteration of which consists of two sub-loops, a multidisciplinary analysis (MDA) loop followed by a structural optimization loop. The MDA loop seeks the aeroelastic equilibrium between aerodynamic forces and structural displacements using a fixed-point iteration scheme. Once the equilibrium is reached, the converged pressure loads are used for the structural optimization, which aims to find the structural thicknesses that minimize the wing weight under failure criteria. The two sub-loops are run sequentially in an iterative process until the mass is converged. The analysis models are implemented in open-source software, namely, PANUKL for aerodynamics and MYSTRAN for structures, while the whole process is automated with Python and integrated in the open-source optimization framework OpenMDAO. Findings: The approach was applied to the design of the Predator MQ-1 wing. The results of the MDAs show the convergence of the wing deformations to the flight shape after few iterations. At the end of the aeroelastic sizing loop, the result is a structurally sized wing with minimal weight considering the aeroelasticity effects. Originality/value: The approach proposed takes into account the wing aero-structural coupling effects while sizing its structure instead of a fixed load distribution. In addition, the approach is fully based on open-source codes, which are freely available for public use and can be fully reproducible. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
17488842
Volume :
96
Issue :
4
Database :
Academic Search Index
Journal :
Aircraft Engineering & Aerospace Technology
Publication Type :
Academic Journal
Accession number :
177460989
Full Text :
https://doi.org/10.1108/AEAT-11-2023-0310