Description
Code and simulation results for a study on wake steering in wind farms under time-varying inflow inflow conditions for maximisation of power production.
A novel model-based controller is developed based on a distributed optimisation approach with the free-vortex wake model. The model of the wind turbine wake and the controller are provided as Julia code. The associated data contains control signals and results from experiments in large-eddy simulation as presented in the associated publication.
Code and simulation data supporting the paper "Dynamic wind farm flow control using free-vortex wake models"
A novel model-based controller is developed based on a distributed optimisation approach with the free-vortex wake model. The model of the wind turbine wake and the controller are provided as Julia code. The associated data contains control signals and results from experiments in large-eddy simulation as presented in the associated publication.
Code and simulation data supporting the paper "Dynamic wind farm flow control using free-vortex wake models"
Date made available | 11 Sept 2023 |
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Publisher | TU Delft - 4TU.ResearchData |