Multi-fidelity wing aerostructural optimization using a trust region filter-SQP algorithm
Multi-fidelity wing aerostructural optimization using a trust region filter-SQP algorithm
A trust region filter-SQP method is used for wing multi-fidelity aerostructural optimization. Filter method eliminates the need for a penalty function, and subsequently a penalty parameter. Besides, it can easily be modified to be used for multi-fidelity optimization. A low fidelity aerostructural analysis tool is presented, that computes the drag, weight and structural deformation of lifting surfaces as well as their sensitivities with respect to the design variables using analytical methods. That tool is used for a mono-fidelity wing aerostructral optimization using a trust region filter-SQP method. In addition to that, a multi-fidelity aerostructural optimization has been performed, using a higher fidelity CFD code to calibrate the results of the lower fidelity model. In that case, the lower fidelity tool is used to compute the objective function, constraints and their derivatives to construct the quadratic programming subproblem. The high fidelity model is used to compute the objective function and the constraints used to generate the filter. The results of the high fidelity analysis are also used to calibrate the results of the lower fidelity tool during the optimization. This method is applied to optimize the wing of an A320 like aircraft for minimum fuel burn. The results showed about 9 % reduction in the aircraft mission fuel burn
1773–1786
Elham, Ali
676043c6-547a-4081-8521-1567885ad41a
van Tooren, M.J.L.
1be91e33-ee5a-47c2-891d-4dff1f454c27
1 May 2017
Elham, Ali
676043c6-547a-4081-8521-1567885ad41a
van Tooren, M.J.L.
1be91e33-ee5a-47c2-891d-4dff1f454c27
Elham, Ali and van Tooren, M.J.L.
(2017)
Multi-fidelity wing aerostructural optimization using a trust region filter-SQP algorithm.
Structural and Multidisciplinary Optimization, 55 (5), .
(doi:10.1007/s00158-016-1613-0).
Abstract
A trust region filter-SQP method is used for wing multi-fidelity aerostructural optimization. Filter method eliminates the need for a penalty function, and subsequently a penalty parameter. Besides, it can easily be modified to be used for multi-fidelity optimization. A low fidelity aerostructural analysis tool is presented, that computes the drag, weight and structural deformation of lifting surfaces as well as their sensitivities with respect to the design variables using analytical methods. That tool is used for a mono-fidelity wing aerostructral optimization using a trust region filter-SQP method. In addition to that, a multi-fidelity aerostructural optimization has been performed, using a higher fidelity CFD code to calibrate the results of the lower fidelity model. In that case, the lower fidelity tool is used to compute the objective function, constraints and their derivatives to construct the quadratic programming subproblem. The high fidelity model is used to compute the objective function and the constraints used to generate the filter. The results of the high fidelity analysis are also used to calibrate the results of the lower fidelity tool during the optimization. This method is applied to optimize the wing of an A320 like aircraft for minimum fuel burn. The results showed about 9 % reduction in the aircraft mission fuel burn
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Accepted/In Press date: 26 October 2016
Published date: 1 May 2017
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Local EPrints ID: 470905
URI: http://eprints.soton.ac.uk/id/eprint/470905
ISSN: 1615-147X
PURE UUID: a065c9fd-8eee-418d-ba96-5663353fec2b
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Date deposited: 20 Oct 2022 16:52
Last modified: 16 Mar 2024 21:27
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Author:
M.J.L. van Tooren
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