Synthetic turbulence models for wind turbine applications
Paper in proceeding, 2010
Wind energy converters such as wind turbines permanently work in the atmospheric boundary layer. For the modelling of the dynamics and for the optimisation of design and material of wind turbines synthetic models for atmospheric turbulence are applied already for a long time. The main purpose of these models is to provide fast and efficient methods for numerical simulation of random fields, that show some characteristic features of atmospheric turbulence. Typically they only have a partial connection to the fundamental equations of fluid dynamics. After a short overview summarizing widespread models by Veers and Mann, that are based on the simulation of random fields in the Fourier domain, advanced models for the simulation of velocity fields are discussed.
Author
David Kleinhans
R. Friedrich
University of Münster
A. P. Schaffarczyk
Kiel University of Applied Sciences
Joachim Peinke
The Carl von Ossietzky University of Oldenburg
Springer Proceedings in Physics
0930-8989 (ISSN) 1867-4941 (eISSN)
Vol. 131 111-114
3rd Conference on Turbulence, iTi 2008
Bertinoro, Italy,
Bertinoro, Italy,
Subject Categories
Aerospace Engineering
Applied Mechanics
Fluid Mechanics and Acoustics
DOI
10.1007/978-3-642-02225-8_26