Engineering Applications of Computational Fluid Mechanics (Dec 2024)

Aerodynamic performance analysis of a floating wind turbine with coupled blade rotation and surge motion

  • Kai Wang,
  • Mengshang Zhao,
  • Siqi Chen,
  • Ruosi Zha

DOI
https://doi.org/10.1080/19942060.2023.2301524
Journal volume & issue
Vol. 18, no. 1

Abstract

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The unsteady aerodynamic characteristics and interference effects of a floating wind turbine are significantly influenced by the six-degree-of-freedom (6DoF) motions. In this paper, the computational fluid dynamics (CFD) method using the overset grid technique and the improved delayed detached eddy simulation (IDDES) model was adopted to investigate the effects of harmonic enforced surge motions on the aerodynamic performance and wake characteristics of wind turbines. The aerodynamic load coefficients including the constant term, damping coefficients (surge velocity-induced), and additional mass coefficients (surge acceleration-induced), were fitted by using the least squares method at different surge frequencies and surge amplitudes. The blade pressure distributions and wake characteristics were analysed in detail. The [Formula: see text] of the third-generation vortex identification method was applied to visualize vortex evolution. The numerical results are evaluated against the data obtained by wind tunnel experiments, indicating an acceptable relative error of [Formula: see text] for the power coefficient, [Formula: see text], at the rated tip speed ratio (TSR). The higher frequency and greater amplitude surge motions lead to more dramatic fluctuations for the power coefficient than the axial load coefficient. The neglect of the additional mass coefficient only results in an acceptable error. Furthermore, the mean damping coefficient is on average approximately 3.5 times the mean constant term coefficient for [Formula: see text], approximately 1.5 times for [Formula: see text]. In terms of the blade pressure distributions and wake characteristics, a higher comprehensive induced velocity, [Formula: see text], is induced to expand the wider high-pressure area and shrink the low-pressure area at the pressure surface. Meanwhile, toroidal vortex ropes were induced by surge motion. Besides, the surge motion at high frequency and greater amplitude positively impacts enhancing wake deficit recovery.

Keywords