Structural dynamic characteristics of vertical axis wind and tidal current turbines

Jun Leng, Lijun Zhang, Ye Li*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

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Abstract

Vertical axis turbines have received great attention in both offshore wind and tidal current energy communities considering their advantages of economic design and unidirectional operation. However, their commercialization process is rather slow compared with the development of horizontal axis turbines due to technical challenges resulting from higher loads from unsteady aero/hydrodynamic forces, centrifugal forces and gravity of the structures. These are mainly because, while the inherent unsteady tangential pulls and fatigue loads intensify the structural vibration, aggravating structural safety and fatigue life, the relationship between the geometric parameters and the structural responses of blades remains unclear. Therefore, in order to clarify this issue, in this study, we focus on the modal and transient analysis of vertical axis turbines using multi-body dynamics, geometrically exact beam theory and detached eddy simulation. We find that the natural frequency of the rotor is directly related to the ratio of blade length and arm length. The effect of arms cannot be ignored in the structural analysis of the turbine. Moreover, an increase of blade length intensifies the deformation and vibration of the turbine's structure, making the turbine more prone to fatigue failure. This article is expected to extend the existing knowledge of wind and tidal current turbines and provide a reference for choosing proper design parameters and developing suitable-capacity vertical axis turbines.
Original languageEnglish
Article number20240234
JournalProceedings of the Royal Society A-mathematical Physical and Engineering Sciences
Volume480
Issue number2301
Number of pages21
ISSN1364-5021
DOIs
Publication statusPublished - 2024

Keywords

  • Verical axis turbine
  • Wind energy
  • Tidal current energy
  • Structural analysis
  • Modal analysis
  • Geometrically exact beam theory

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