Unsteady hydrodynamics of a full-scale tidal turbine operating in large wave conditions

Gabriel Thomas Scarlett, Brian Sellar, Ton van den Bremer, Ignazio Maria Viola

Research output: Contribution to journalArticleScientificpeer-review

4 Citations (Scopus)

Abstract

Tidal turbines operate in a highly unsteady environment, which causes large-amplitude load fluctuations to the rotor. This can result in dynamic and fatigue failures. Hence, it is critical that the unsteady loads are accurately predicted. A rotor's blade can experience stall delay, load hysteresis and dynamic stall. Yet, the significance of these effects for a full-scale axial-flow turbine are unclear. To investigate, we develop a simple model for the unsteady hydrodynamics of the rotor and consider field measurements of the onset flow. We find that when the rotor operates in large, yet realistic wave conditions, that the load cycle is governed by the waves, and the power and blade bending moments oscillate by half of their mean values. While the flow remains attached near the blade tip, dynamic stall occurs near the blade root, resulting in a twofold overshoot of the local lift coefficient compared to the static value. At the optimal tip-speed ratio, the difference between the unsteady loads computed with our model and a simple quasi-steady approximation is small. However, below the optimal tip-speed ratio, dynamic stall may occur over most of the blade, and the maximum peak loads can be twice those predicted with a quasi-steady approximation.

Original languageEnglish
Pages (from-to)199-213
Number of pages15
JournalRenewable Energy
Volume143
DOIs
Publication statusPublished - Dec 2019
Externally publishedYes

Keywords

  • Blade-element momentum theory
  • Dynamic stall
  • Fatigue loading
  • Tidal turbine hydrodynamics
  • Unsteady aerodynamics
  • Wave-induced loading

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