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FORCED MOTION CFD SIMULATION AND LOAD REFINEMENT EVALUATION OF FLOATING VERTICAL-AXIS TIDAL CURRENT TURBINES

Abstract

Simulation of the hydrodynamic performance of a floating current turbine in a combined wave and flow environment is important. In this paper, ANSYS-CFX software is used to analyse the hydrodynamic performance of a vertical-axis turbine with various influence factors such as tip speed ratio, pitching frequency and amplitude. Time-varying curves for thrust and lateral forces are fitted with the least squares method; the added mass and damping coefficients are refined to analyse the influence of the former factors. The simulation results demonstrate that, compared with nonpitching and rotating turbines under constant inflow, the time-varying load of rotating turbines with pitching exhibits an additional fluctuation. The pitching motion of the turbine has a positive effect on the power output. The fluctuation amplitudes of thrust and lateral force envelope curves have a positive correlation with the frequency and amplitude of the pitching motion and tip speed ratio, which is harmful to the turbine’s structural strength. The mean values of the forces are slightly affected by pitching frequencies and amplitudes, but positively proportional to the tip speed ratio of the turbine. Based upon the least squares method, the thrust and lateral force coefficients can be divided into three components, uniform load coefficient, added mass and damping coefficients, the middle one being significantly smaller than the other two. Damping force plays a more important role in the fluctuation of loads induced by pitching motion. These results can facilitate study of the motion response of floating vertical-axis tidal current turbine systems in waves.

Keywords:

vertical-axis tidal current turbine, hydrodynamic loads, pitching motion, added mass, damping coefficients

Details

Issue
Vol. 27 No. 3(107) (2020)
Section
Latest Articles
Published
06-09-2021
DOI:
https://doi.org/10.2478/pomr-2020-0045
Licencja:
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Open Access License

This journal provides immediate open access to its content under the Creative Commons BY 4.0 license. Authors who publish with this journal retain all copyrights and agree to the terms of the CC BY 4.0 license.

 

Authors

  • Wanchao Zhang

    Jiangsu University of Science and Technology
  • Yujie Zhou

    Jiangsu University of Science and Technology
  • Kai Wang

    Wuhan Second Ship Design & Research Institute
  • Xiaoguo Zhou

    Jiangsu University of Science and Technology

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