Evaluation of different methods for determining the angle of attack on wind turbine blades with CFD results under axial inflow conditions

H. Rahimi; J. G. Schepers; W. Z. Shen; N. Ramos García; M. S. Schneider; D. Micallef; C. J.Simao Ferreira; E. Jost; L. Klein; I. Herráez

doi:10.1016/j.renene.2018.03.018

Evaluation of different methods for determining the angle of attack on wind turbine blades with CFD results under axial inflow conditions

H. Rahimi^*, J. G. Schepers, W. Z. Shen, N. Ramos García, M. S. Schneider, D. Micallef, C. J.Simao Ferreira, E. Jost, L. Klein, I. Herráez

^*Corresponding author for this work

Wind Energy

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Abstract

This work presents an investigation on different methods for the calculation of the angle of attack and the underlying induced velocity on wind turbine blades using data obtained from three-dimensional Computational Fluid Dynamics (CFD). Several methods are examined and their advantages, as well as shortcomings, are presented. The investigations are performed for two 10 MW reference wind turbines under axial inflow conditions, namely the turbines designed in the EU AVATAR and INNWIND.EU projects. The results show that the evaluated methods are in good agreement with each other at the mid-span, though some deviations are observed at the root and tip regions of the blades. This indicates that CFD results can be used for the calibration of induction modeling for Blade Element Momentum (BEM) tools. Moreover, using any of the proposed methods, it is possible to obtain airfoil characteristics for lift and drag coefficients as a function of the angle of attack.

Original language	English
Pages (from-to)	866-876
Number of pages	11
Journal	Renewable Energy
Volume	125
DOIs	https://doi.org/10.1016/j.renene.2018.03.018
Publication status	Published - 1 Sept 2018

Keywords

10 MW wind turbine
Angle of Attack (AoA)
Axial induction factor
Blade element momentum method (BEM)
Computational Fluid Dynamics (CFD)
Engineering models

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.renene.2018.03.018

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title = "Evaluation of different methods for determining the angle of attack on wind turbine blades with CFD results under axial inflow conditions",

abstract = "This work presents an investigation on different methods for the calculation of the angle of attack and the underlying induced velocity on wind turbine blades using data obtained from three-dimensional Computational Fluid Dynamics (CFD). Several methods are examined and their advantages, as well as shortcomings, are presented. The investigations are performed for two 10 MW reference wind turbines under axial inflow conditions, namely the turbines designed in the EU AVATAR and INNWIND.EU projects. The results show that the evaluated methods are in good agreement with each other at the mid-span, though some deviations are observed at the root and tip regions of the blades. This indicates that CFD results can be used for the calibration of induction modeling for Blade Element Momentum (BEM) tools. Moreover, using any of the proposed methods, it is possible to obtain airfoil characteristics for lift and drag coefficients as a function of the angle of attack.",

keywords = "10 MW wind turbine, Angle of Attack (AoA), Axial induction factor, Blade element momentum method (BEM), Computational Fluid Dynamics (CFD), Engineering models",

author = "H. Rahimi and Schepers, {J. G.} and Shen, {W. Z.} and Garc{\'i}a, {N. Ramos} and Schneider, {M. S.} and D. Micallef and Ferreira, {C. J.Simao} and E. Jost and L. Klein and I. Herr{\'a}ez",

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AU - Rahimi, H.

AU - Schepers, J. G.

AU - Shen, W. Z.

AU - García, N. Ramos

AU - Schneider, M. S.

AU - Micallef, D.

AU - Ferreira, C. J.Simao

AU - Jost, E.

AU - Klein, L.

AU - Herráez, I.

PY - 2018/9/1

Y1 - 2018/9/1

N2 - This work presents an investigation on different methods for the calculation of the angle of attack and the underlying induced velocity on wind turbine blades using data obtained from three-dimensional Computational Fluid Dynamics (CFD). Several methods are examined and their advantages, as well as shortcomings, are presented. The investigations are performed for two 10 MW reference wind turbines under axial inflow conditions, namely the turbines designed in the EU AVATAR and INNWIND.EU projects. The results show that the evaluated methods are in good agreement with each other at the mid-span, though some deviations are observed at the root and tip regions of the blades. This indicates that CFD results can be used for the calibration of induction modeling for Blade Element Momentum (BEM) tools. Moreover, using any of the proposed methods, it is possible to obtain airfoil characteristics for lift and drag coefficients as a function of the angle of attack.

AB - This work presents an investigation on different methods for the calculation of the angle of attack and the underlying induced velocity on wind turbine blades using data obtained from three-dimensional Computational Fluid Dynamics (CFD). Several methods are examined and their advantages, as well as shortcomings, are presented. The investigations are performed for two 10 MW reference wind turbines under axial inflow conditions, namely the turbines designed in the EU AVATAR and INNWIND.EU projects. The results show that the evaluated methods are in good agreement with each other at the mid-span, though some deviations are observed at the root and tip regions of the blades. This indicates that CFD results can be used for the calibration of induction modeling for Blade Element Momentum (BEM) tools. Moreover, using any of the proposed methods, it is possible to obtain airfoil characteristics for lift and drag coefficients as a function of the angle of attack.

KW - 10 MW wind turbine

KW - Angle of Attack (AoA)

KW - Axial induction factor

KW - Blade element momentum method (BEM)

KW - Computational Fluid Dynamics (CFD)

KW - Engineering models

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SN - 0960-1481

VL - 125

SP - 866

EP - 876

JO - Renewable Energy

JF - Renewable Energy

ER -

Evaluation of different methods for determining the angle of attack on wind turbine blades with CFD results under axial inflow conditions

Abstract

Keywords

UN SDGs

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