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Aeroelastic global structural optimization using an efficient CFD-based reduced order model

Aeroelastic global structural optimization using an efficient CFD-based reduced order model
Aeroelastic global structural optimization using an efficient CFD-based reduced order model
In aeroelastic structure optimization, the structural model needs to be modified repeatedly to meet all targets. Although computational fluid dynamics (CFD) based reduced order models (ROMs) have been successfully applied to transonic aeroelastic analysis, the existing CFD-based ROMs are at a fixed flight condition for a frozen aeroelastic model configuration. The aerodynamic and structural model have to be reconstructed to ensure accuracy, when a structural modification was made. These reconstructions take a considerable time and the computational costs become prohibitive. To overcome the realistic challenge, we have developed an efficient CFD-based ROM, which is robust to aeroelastic system. This paper presents a new optimization process using the efficient method for aeroelastic global structural optimization. The optimization process employs Genetic Algorithms (GAs) as optimization tool. In order to assess the performance of presented optimization process, the AGARD 445.6 wing model is taken as numerical example. The results show that the most feasible and optimal solutions are effectively obtained by the presented optimization process.
Global structural optimization, Genetic algorithms, Reduced order model, proper orthogonal decomposition, Global structural modification
1270-9638
Li, D
3f715345-d938-44d8-82b3-68b5ba3108b7
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Chen, G
9123f4c7-820c-452f-9ed6-25369ea3855e
Li, Y
d53810d0-bc88-491d-b315-9b9273d7bf52
Li, D
3f715345-d938-44d8-82b3-68b5ba3108b7
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Chen, G
9123f4c7-820c-452f-9ed6-25369ea3855e
Li, Y
d53810d0-bc88-491d-b315-9b9273d7bf52

Li, D, Da Ronch, Andrea, Chen, G and Li, Y (2019) Aeroelastic global structural optimization using an efficient CFD-based reduced order model. Aerospace Science and Technology. (doi:10.1016/j.ast.2019.105354).

Record type: Article

Abstract

In aeroelastic structure optimization, the structural model needs to be modified repeatedly to meet all targets. Although computational fluid dynamics (CFD) based reduced order models (ROMs) have been successfully applied to transonic aeroelastic analysis, the existing CFD-based ROMs are at a fixed flight condition for a frozen aeroelastic model configuration. The aerodynamic and structural model have to be reconstructed to ensure accuracy, when a structural modification was made. These reconstructions take a considerable time and the computational costs become prohibitive. To overcome the realistic challenge, we have developed an efficient CFD-based ROM, which is robust to aeroelastic system. This paper presents a new optimization process using the efficient method for aeroelastic global structural optimization. The optimization process employs Genetic Algorithms (GAs) as optimization tool. In order to assess the performance of presented optimization process, the AGARD 445.6 wing model is taken as numerical example. The results show that the most feasible and optimal solutions are effectively obtained by the presented optimization process.

Text
AESCTE_2019_1072_Manuscript_Revision_R2 - Accepted Manuscript
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Accepted/In Press date: 19 August 2019
e-pub ahead of print date: 26 August 2019
Keywords: Global structural optimization, Genetic algorithms, Reduced order model, proper orthogonal decomposition, Global structural modification

Identifiers

Local EPrints ID: 433885
URI: http://eprints.soton.ac.uk/id/eprint/433885
ISSN: 1270-9638
PURE UUID: 98915a4a-18fc-4387-8e02-43b44548d918
ORCID for Andrea Da Ronch: ORCID iD orcid.org/0000-0001-7428-6935

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Date deposited: 05 Sep 2019 16:30
Last modified: 16 Mar 2024 08:10

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Contributors

Author: D Li
Author: Andrea Da Ronch ORCID iD
Author: G Chen
Author: Y Li

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