PIV and LDA measurements of the wake behind a wind turbine model

In the present work we review the results of a series of measurements of the flow behind a model scale of a horizontal axis wind turbine rotor carried out at the water flume at Technical University of Denmark (DTU). The rotor is three-bladed and designed using Glauert theory for tip speed ratio λ =5...

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Published inJournal of physics. Conference series Vol. 524; no. 1; pp. 12168 - 10
Main Authors Naumov, I V, Mikkelsen, R F, Okulov, V L, Sørensen, J N
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2014
Subjects
Aerodynamic coefficients
Aerodynamics
Angular speed
Bluff bodies
Computational fluid dynamics
Diameters
Fluid flow
Horizontal Axis Wind Turbines
Instability
Laser doppler velocimeters
Low turbulence
Particle image velocimetry
Physics
Precession
Reconstruction
Rotors
Stability
Strouhal number
Tip speed
Velocity distribution
Velocity measurement
Visualization
Wakes
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Summary:In the present work we review the results of a series of measurements of the flow behind a model scale of a horizontal axis wind turbine rotor carried out at the water flume at Technical University of Denmark (DTU). The rotor is three-bladed and designed using Glauert theory for tip speed ratio λ =5 with a constant design lift coefficient along the span, CLdesign= 0.8. The measurements include dye visualization, Particle Image Velocimetry and Laser Doppler Anemometry. The wake instability has been studied in the range λ =3 – 9 at different cross-sections from the very near wake up to 10 rotor diameters downstream from the rotor. The initial flume flow was subject to a very low turbulence level with a uniform velocity profile, limiting the influence of external disturbances on the development of the inherent vortex instability. Using PIV measurements and visualizations, special attention was paid to detect and categorize different types of wake instabilities and the development of the flow in the near and the far wake. In parallel to PIV, LDA measurements provided data for various rotor regimes, revealing the existence of three main regular frequencies governing the development of different processes and instabilities in the rotor wake. In the far wake a constant frequency corresponding to the Strouhal number was found for the long-scale instabilities. This Strouhal number is in good agreement with the well-known constant that usually characterizes the oscillation in wakes behind bluff bodies. From associated visualizations and reconstructions of the flow field, it was found that the dynamics of the far wake is associated with the precession (rotation) of a helical vortex core. The data indicate that Strouhal number of this precession is independent of the rotor angular speed.
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ISSN:1742-6596
1742-6588
1742-6596
DOI:10.1088/1742-6596/524/1/012168