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Nonlinear modelling of aerodynamic self-excited forces: An experimental study

Henrik Skyvulstad, Tommaso Argentini, Alberto Zasso, Ole Øiseth

2021Journal of Wind Engineering and Industrial Aerodynamics21 citationsDOIOpen Access PDF

Abstract

The bridge aerodynamics research community is currently discussing several nonlinear wind load models for bridge decks, but no definite conclusion on which model is superior to the others is currently available. In this paper, we use experimental data for a double-deck section model tested in an advanced forced vibration rig to study the observed nonlinearities and to gain insight into what characteristics the nonlinear load model should be capable of modelling. Single harmonic horizontal, vertical and pitching motion; combined motion; and stochastic motion are considered. This approach allows the investigation of a more extensive range of nonlinear behaviours than regular wind tunnel testing. The typical nonlinear characteristics observed are mean drift, deviation from superposition and harmonic distortion. Further, we introduce a simple response-surface model for force prediction using polynomial combinations of the inputs and its derivatives. The model helps to gain further insight into the nonlinearity of the problem at hand and to select which refined modelling approach can be used in future work.

Topics & Concepts

Nonlinear systemAerodynamicsWind tunnelAeroelasticitySuperposition principleAerodynamic forceVibrationDeckRange (aeronautics)Computer scienceStructural engineeringControl theory (sociology)EngineeringMechanicsMathematicsPhysicsMathematical analysisAcousticsAerospace engineeringQuantum mechanicsControl (management)Artificial intelligenceFluid Dynamics and Vibration AnalysisWind and Air Flow StudiesStructural Health Monitoring Techniques
Nonlinear modelling of aerodynamic self-excited forces: An experimental study | Litcius