Reduced order modelling of high-fidelity computational fluid-structure interaction analysis for aeroelastic systems

Pinar Acar, Melike Nikbay

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

We investigate model reduction techniques through computational aeroelastic analyses of the HIRENASD and S4T wings. The aim of the present work is to construct accurate and computationally efficient reduced order models for high-fidelity aeroelastic computations. Firstly, the aeroelastic analyses of the specified wings are performed by high-fidelity structural and aerodynamic models to substantiate the fluid-structure interaction. Concerning high amount of computational time required to perform such high-fidelity fluid-structure interaction analyses, the model orders are reduced by introducing relevant reduction techniques such as Polynomial Chaos Expansion and Proper Orthogonal Decomposition. The final aeroelastic analyses performed on these reduced models agree well with the initial high-fidelity computational analyses.

Original languageEnglish
Title of host publicationECCOMAS Special Interest Conference - SEECCM 2013
Subtitle of host publication3rd South-East European Conference on Computational Mechanics, Proceedings - An IACM Special Interest Conference
PublisherNational Technical University of Athens
Pages149-171
Number of pages23
ISBN (Print)9789609999441
DOIs
Publication statusPublished - 2013
Event3rd South-East European Conference on Computational Mechanics, SEECCM 2013 - Kos Island, Greece
Duration: 12 Jun 201314 Jun 2013

Publication series

NameECCOMAS Special Interest Conference - SEECCM 2013: 3rd South-East European Conference on Computational Mechanics, Proceedings - An IACM Special Interest Conference

Conference

Conference3rd South-East European Conference on Computational Mechanics, SEECCM 2013
Country/TerritoryGreece
CityKos Island
Period12/06/1314/06/13

Keywords

  • Aeroelasticity
  • Fluid-structure interaction
  • Hirenasd
  • Polynomial chaos expansion
  • Proper orthogonal decomposition
  • Reduced order modelling

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