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The effect of flow sampling on the robustness of the actuator line method
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  • Markella Zormpa,
  • Federico Zilic de Arcos,
  • Xiaosheng Chen,
  • Christopher Vogel,
  • Richard Willden
Markella Zormpa
University of Oxford Department of Engineering Science

Corresponding Author:[email protected]

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Federico Zilic de Arcos
Universite Le Havre Normandie
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Xiaosheng Chen
University of Oxford Department of Engineering Science
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Christopher Vogel
University of Oxford Department of Engineering Science
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Richard Willden
University of Oxford Department of Engineering Science
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Abstract

The actuator line method (ALM) is a widely-used tool for the modelling of horizontal axis turbines and wind and tidal farm flows. The method uses a virtual blade representation to simulate the dynamics of wind turbines without the computational expense associated with resolving the blade geometry. Within the ALM the flow is first sampled at each blade section, allowing for the calculation of the sectional lift and drag forces that are in turn imposed on the flow domain using a smearing kernel. In this work the effect of the flow sampling method on the robustness of the ALM is discussed. Implementations of two widely-used types of methods for horizontal axis wind turbines are tested: point sampling, where the flow is sampled at or near the collocation point, and volume average sampling where flow field information from multiple points centered at the collocation point is averaged into a representative blade-local velocity vector. A third method, line average sampling, that was initially proposed for sampling flows from blade resolved simulations is adapted for the ALM framework. This method samples the flow symmetrically around a control element in order to eliminate the interference of the bound circulation, thus allowing the inflow velocity at the aerofoil to be determined. When evaluating power and thrust coefficients as well as the flow field at the rotor plane predicted by the ALM, the line average sampling approach is demonstrated to be more robust and converges faster with time step for two different rotors: a small wind rotor and a high solidity tidal rotor. This suggests that carefully selecting the sampling method could be key in alleviating the very strict time step restriction imposed by the ALM, a widely acknowledged limitation of the method. Such an advancement could contribute towards improving the computational efficiency and tractability of the method.
19 Sep 2023Submitted to Wind Energy
22 Sep 2023Submission Checks Completed
22 Sep 2023Assigned to Editor
22 Sep 2023Review(s) Completed, Editorial Evaluation Pending
07 Nov 2023Reviewer(s) Assigned
17 Apr 20241st Revision Received
13 Jul 2024Editorial Decision: Revise Minor
10 Aug 20242nd Revision Received
11 Aug 2024Submission Checks Completed
11 Aug 2024Assigned to Editor
11 Aug 2024Review(s) Completed, Editorial Evaluation Pending
15 Nov 2024Editorial Decision: Accept