Mechanism of transonic aeroelastic instabilities via synchronization of coupled oscillators

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Abstract

This paper contributes towards the development of a reduced-order modelling methodology for nonlinear, unsteady aerodynamic loads for the active control of transonic aeroelastic flutter. To this end, a 1-DOF torsional NACA0012 airfoil is chosen as the test configuration. The aim is to develop the reduced-order model in nonlinear state-space form to be used in active control scenarios. Hence, a nonlinear coupled differential equation that captures the shock dynamics. The underlying hypothesis of this work is that, once these aerodynamic effects are included in the low-order model, the nonlinear trend in the flutter stability boundary, specifically in the transonic regime, will be predicted purely based on first principles, without the need for numerical or experimental corrections. In this work, we observe that the aeroelastic system could become prematurely unstable as soon as the aerodynamic flow field undergoes a Hopf bifurcation. For low amplitude airfoil pitching below a certain threshold, the aerostructural system is seen to exhibit a coupled oscillator behaviour that has an exact linear analytical formulation. The analytical formulation thus produces an accurate prediction whilst being orders of magnitude faster than the numerical simulation.
Original languageEnglish
Title of host publicationAeroelasticity & Structural Dynamics in a Fast Changing World 17 – 21 June 2024, The Hague, The Netherlands
Number of pages14
Publication statusPublished - 2024
EventInternational Forum on Aeroelasticity and Structural Dynamics - Den Haag, Netherlands
Duration: 17 Jun 202421 Jun 2024
Conference number: 20

Conference

ConferenceInternational Forum on Aeroelasticity and Structural Dynamics
Abbreviated titleIFASD 2024
Country/TerritoryNetherlands
CityDen Haag
Period17/06/2421/06/24

Keywords

  • Transonic buffet
  • coupled oscillators
  • beats,
  • shock-dynamics

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