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Journal article

An improved k-ε model applied to a wind turbine wake in atmospheric turbulence : An improvedk-εmodel applied to a wind turbine wake

By Laan, van der, Paul Maarten1,2; Sørensen, Niels N.1,2; Réthoré, Pierre-Elouan1,2; Mann, Jakob1,3; Kelly, Mark C.1,3; Troldborg, Niels1,2; Schepers, J. Gerard4; Machefaux, Ewan1,2

From

Department of Wind Energy, Technical University of Denmark1

Aeroelastic Design, Department of Wind Energy, Technical University of Denmark2

Meteorology, Department of Wind Energy, Technical University of Denmark3

Energy Research Centre of the Netherlands4

An improved k-ε turbulence model is developed and applied to a single wind turbine wake in a neutral atmospheric boundary layer using a Reynolds averaged Navier–Stokes solver. The proposed model includes a flow-dependent Cμ that is sensitive to high velocity gradients, e.g., at the edge of a wind turbine wake.

The modified k-ε model is compared with the original k-ε eddy viscosity model, Large-Eddy Simulations and field measurements using eight test cases. The comparison shows that the velocity wake deficits, predicted by the proposed model are much closer to the ones calculated by the Large-Eddy Simulation and those observed in the measurements, than predicted by the original k-ε model.

Copyright © 2014 John Wiley & Sons, Ltd.

Language: English
Year: 2015
Pages: 889-907
ISSN: 10991824 and 10954244
Types: Journal article
DOI: 10.1002/we.1736
ORCIDs: Laan, van der, Paul Maarten , Sørensen, Niels N. , Réthoré, Pierre-Elouan , Mann, Jakob , Kelly, Mark C. and Machefaux, Ewan
Keywords

CFD LES RANS actuator disc k -ε eddy viscosity model wind turbine wakes

Other keywords

k‐ ϵ eddy viscosity model

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