Unbounded Domain Modeling in Axisymmetric Rotor Wake Analysis

Thomas Lokken; Norbert Warncke; Delphine De Tavernier

doi:10.1088/1742-6596/2767/2/022050

Unbounded Domain Modeling in Axisymmetric Rotor Wake Analysis

Thomas Lokken, Norbert Warncke, Delphine De Tavernier

Wind Energy

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Abstract

Mitigating the effects of wind turbine wakes is a central part of wind farm design. This paper proposes a spectral solver for the axisymmetrical Ainslie wake model based on modified Laguerre basis functions over the semi-infinite radial domain and a marching scheme in the downstream direction. This orthogonal basis promises fast convergence and a low number of DOFs for discretizing the continuity and axial momentum equation, promising a computationally efficient method. The numerical implementation of the model could not be finished in time; preliminary results are presented but still show non-negligible conservation errors. The focus of this work lies, therefore, on a detailed derivation of the method and a discussion of the sources of numerical errors in the nonlinear terms, and due to the truncation of the spectral basis, a comparison of the solver outputs to other methods remains part of the ongoing work.

Original language	English
Article number	022050
Journal	Journal of Physics: Conference Series
Volume	2767
Issue number	2
DOIs	https://doi.org/10.1088/1742-6596/2767/2/022050
Publication status	Published - 2024
Event	2024 Science of Making Torque from Wind, TORQUE 2024 - Florence, Italy Duration: 29 May 2024 → 31 May 2024

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10.1088/1742-6596/2767/2/022050

Lokken_2024_J._Phys.__Conf._Ser._2767_022050Final published version, 957 KBLicence: CC BY

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title = "Unbounded Domain Modeling in Axisymmetric Rotor Wake Analysis",

abstract = "Mitigating the effects of wind turbine wakes is a central part of wind farm design. This paper proposes a spectral solver for the axisymmetrical Ainslie wake model based on modified Laguerre basis functions over the semi-infinite radial domain and a marching scheme in the downstream direction. This orthogonal basis promises fast convergence and a low number of DOFs for discretizing the continuity and axial momentum equation, promising a computationally efficient method. The numerical implementation of the model could not be finished in time; preliminary results are presented but still show non-negligible conservation errors. The focus of this work lies, therefore, on a detailed derivation of the method and a discussion of the sources of numerical errors in the nonlinear terms, and due to the truncation of the spectral basis, a comparison of the solver outputs to other methods remains part of the ongoing work.",

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AU - Lokken, Thomas

AU - Warncke, Norbert

AU - De Tavernier, Delphine

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N2 - Mitigating the effects of wind turbine wakes is a central part of wind farm design. This paper proposes a spectral solver for the axisymmetrical Ainslie wake model based on modified Laguerre basis functions over the semi-infinite radial domain and a marching scheme in the downstream direction. This orthogonal basis promises fast convergence and a low number of DOFs for discretizing the continuity and axial momentum equation, promising a computationally efficient method. The numerical implementation of the model could not be finished in time; preliminary results are presented but still show non-negligible conservation errors. The focus of this work lies, therefore, on a detailed derivation of the method and a discussion of the sources of numerical errors in the nonlinear terms, and due to the truncation of the spectral basis, a comparison of the solver outputs to other methods remains part of the ongoing work.

AB - Mitigating the effects of wind turbine wakes is a central part of wind farm design. This paper proposes a spectral solver for the axisymmetrical Ainslie wake model based on modified Laguerre basis functions over the semi-infinite radial domain and a marching scheme in the downstream direction. This orthogonal basis promises fast convergence and a low number of DOFs for discretizing the continuity and axial momentum equation, promising a computationally efficient method. The numerical implementation of the model could not be finished in time; preliminary results are presented but still show non-negligible conservation errors. The focus of this work lies, therefore, on a detailed derivation of the method and a discussion of the sources of numerical errors in the nonlinear terms, and due to the truncation of the spectral basis, a comparison of the solver outputs to other methods remains part of the ongoing work.

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Unbounded Domain Modeling in Axisymmetric Rotor Wake Analysis

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