Numerical investigation of aeroelasticity of wind turbines using a nonlinear frequency domain solution method

Win Naung, Shine; Rahmati, Mohammad

Numerical investigation of aeroelasticity of wind turbines using a nonlinear frequency domain solution method

Win Naung, Shine; Rahmati, Mohammad

Authors

Dr Shine Win Naung Shine.WinNaung@uwe.ac.uk
Lecturer in Thermofluids

Mohammad Rahmati

Abstract

An extensive numerical investigation of the aeroelasticity of wind turbines is presented in the present paper. A highly efficient nonlinear frequency domain solution method is employed for this analysis. A complete wind turbine model including a tower with oscillating blades is analysed based on a relatively high amplitude of vibration. A nonlinear frequency domain solution method only requires a single blade to be modelled; however, it can capture the unsteady flow behaviour associated with blade vibration at a given inter-blade phase angle. The results revealed that the blade oscillation has an impact on the aerodynamic and aeroelastic performance of a wind turbine by producing pressure fluctuations on the pressure and suction surfaces of the blade and influencing the flow structures around the wind turbine. It is seen that the flow structures leaving from the rotor are distorted by the tower, and a combined effect of the blade oscillation and the tower leads to an unsteady and turbulent downstream wake. It is also noted that a nonlinear frequency domain solution method employed in this study is computationally efficient as it solves significantly faster than the conventional time domain methods.

Presentation Conference Type	Conference Paper (Published)
Conference Name	16th International Symposium on Unsteady Aerodynamics Aeroacoustics and Aeroelasticity of Turbomachines ISUAAAT16
Start Date	Sep 19, 2022
End Date	Sep 23, 2022
Publication Date	Sep 19, 2022
Deposit Date	Oct 19, 2023
Publicly Available Date	Oct 24, 2023
Public URL	https://uwe-repository.worktribe.com/output/11331296