Aeroacoustics of Darrieus Wind Turbine

Language
en
Document Type
Article
Issue Date
2017-01-31
Issue Year
2015
Authors
Weber, Johannes
Becker, Stefan
Scheit, Christoph
Grabinger, Jens
Kaltenbacher, Manfred
Editor
Abstract

The objective of this paper is to validate two different numerical methods for noise prediction of the H-Darrieus wind turbine using a complementary approach consisting of experimental measurements and numerical simulations. The acoustic measurements of a model scale rotor were performed in an anechoic wind tunnel. This data is the basis for the validation of the computational aeroacoustic simulations. Thereby, we have applied two different numerical schemes for noise prediction using hybrid methods. As usual in hybrid aeroacoustic approaches, flow field and acoustic calculations are carried out in separate software packages. For both schemes the time-dependent turbulent flow field is solved with Scale-Adaptive Simulation. The two schemes then differ in how the location of the acoustic sources and their propagation is calculated. In the first scheme the acoustic source terms are computed according to Lighthill's acoustic analogy which gives source terms located on the original CFD grid. These source terms are projected onto a coarser acoustic grid on which Lighthill's inhomogenous wave equation is solved by the Finite Element (FE) method. The second scheme uses the Ffowcs Williams-Hawkings (FW-H) method which is based on a free field Green's function. The scheme uses a porous integration surface and implements an advanced time formulation. Both methodologies are compared with experimental data.

Journal Title
International Journal of Aeroacoustics
Volume
14
Issue
5-6
Citation

International Journal of Aeroacoustics 14.5-6 (2015): S. 883-902. http://journals.sagepub.com/doi/abs/10.1260/1475-472X.14.5-6.883

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