Litcius/Paper detail

Optimization of the Wake Oscillator for Transversal VIV

Victoria Kurushina, А. В. Постников, Guilherme Rosa Franzini, Ekaterina Pavlovskaia

2022Journal of Marine Science and Engineering19 citationsDOIOpen Access PDF

Abstract

Vibrations of slender structures associated with the external flow present a design challenge for the energy production systems placed in the marine environment. The current study explores the accuracy of the semi-empirical wake oscillator models for vortex-induced vibrations (VIV) based on the optimization of (a) the damping term and (b) empirical coefficients in the fluid equation. This work investigates the effect of ten fluid damping variations, from the classic van der Pol to more sophisticated fifth-order terms, and prediction of the simplified case of the VIV of transversally oscillating rigid structures provides an opportunity for an extended, comprehensive comparison of the performance of tuned models. A constrained nonlinear minimization algorithm in MATLAB is applied to calibrate considered models using the published experimental data, and the weighted objective function is formulated for three different mass ratios. Comparison with several sources of published experimental data for cross-flow oscillations confirms the model accuracy in the mass ratio range. The study indicates the advantageous performance of the models tuned with the medium mass ratio data and highlights some advantages of the Krenk–Nielsen wake oscillator.

Topics & Concepts

WakeVan der Pol oscillatorVibrationNonlinear systemVortex-induced vibrationRange (aeronautics)Added massWork (physics)MechanicsMass ratioMinificationDamping ratioPhysicsFlow (mathematics)VortexControl theory (sociology)Computer scienceMathematicsMathematical optimizationAcousticsEngineeringAerospace engineeringControl (management)AstrophysicsThermodynamicsQuantum mechanicsArtificial intelligenceFluid Dynamics and Vibration AnalysisWind and Air Flow StudiesVibration and Dynamic Analysis