Comparison of 3D aerodynamic models for vertical-axis wind turbines: H-rotor and Phi-rotor

Journal Article (2020)
Author(s)

D. De de Tavernier (TU Delft - Wind Energy)

M. Sakib (University of Texas at Dallas)

D.T. Griffith (University of Texas at Dallas)

G. Pirrung (Technical University of Denmark (DTU))

U. Paulsen (Technical University of Denmark (DTU))

H Madsen (Technical University of Denmark (DTU))

W. Keijer (Technical University of Denmark (DTU))

Carlos Simao Ferreira (TU Delft - Wind Energy)

Research Group
Wind Energy
Copyright
© 2020 D. De Tavernier, M. Sakib, D.T. Griffith, G. Pirrung, U. Paulsen, H. Madsen, W. Keijer, Carlos Ferreira
DOI related publication
https://doi.org/10.1088/1742-6596/1618/5/052041
More Info
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Publication Year
2020
Language
English
Copyright
© 2020 D. De Tavernier, M. Sakib, D.T. Griffith, G. Pirrung, U. Paulsen, H. Madsen, W. Keijer, Carlos Ferreira
Research Group
Wind Energy
Issue number
5
Volume number
1618
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Abstract

Since the first commercial projects, the development of vertical-axis wind turbines (VAWTs) has been impeded by the limited understanding and inability to accurately model VAWTs. This paper investigates and compares different aerodynamic modelling techniques for VAWTs in 3D. All considered models are using the same blade-element characteristics but use different descriptions to determine the induced velocity field. The H-and Φ-rotor are studied with various aspect ratios and rotor loadings. Both instantaneous azimuthal parameters as well as integral parameters, such as the thrust and power are investigated. The paper concludes that capturing the 3D effects of VAWTs is challenging and the trends to be expected are not straightforward due to the complex vortex system created by VAWTs. All model assumptions affect the results both at the mid-plane of the rotor as well as at the blade tips.