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Journal article

Validation of the dynamic wake meandering model with respect to loads and power production

By Reinwardt, Inga1; Schilling, Levin1; Steudel, Dirk2; Dimitrov, Nikolay3,4; Dalhoff, Peter1; Breuer, Michael5

From

HAW Hamburg1

Nordex SE2

Structural Integrity and Loads Assessment, Wind Energy Materials and Components Division, Department of Wind Energy, Technical University of Denmark3

Department of Wind Energy, Technical University of Denmark4

Helmut-Schmidt University Hamburg5

The outlined analysis validates the dynamic wake meandering (DWM) model based on loads and power production measured at an onshore wind farm with small turbine distances. Special focus is given to the performance of a version of the DWM model that was previously recalibrated at the site. The recalibration is based on measurements from a turbine nacelle-mounted lidar system.

The different versions of the DWM model are compared to the commonly used Frandsen wake-added turbulence model. The results of the recalibrated wake model agree very well with the measurements, whereas the Frandsen model overestimates the loads drastically for short turbine distances. Furthermore, lidar measurements of the wind speed deficit as well as the wake meandering are incorporated in the DWM model definition in order to decrease the uncertainties.

Language: English
Publisher: Copernicus Publications
Year: 2021
Pages: 441-460
ISSN: 23667451 and 23667443
Types: Journal article
DOI: 10.5194/wes-6-441-2021
ORCIDs: Dimitrov, Nikolay and 0000-0003-4467-478X
Keywords

Renewable energy sources TJ807-830

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