Physics of Fluids - Publications

Effect of a 2D Hill on the Propagation of Wind Turbine Noise

arΧiv
AIAA Aerospace Research Central 2022, 2923 (2022)

Authors

	Jules Colas
	Ariane Emmanuelli
	Didier Dragna
	Richard Stevens
	Philippe Blanc-Benon

BibTeΧ

@inbook{doi:10.2514/6.2022-2923,
author = {Jules Colas and Ariane Emmanuelli and Didier Dragna and Richard Stevens and Philippe Blanc-Benon},
title = {Effect of a 2D Hill on the Propagation of Wind Turbine Noise},
booktitle = {28th AIAA/CEAS Aeroacoustics 2022 Conference},
chapter = {},
pages = {},
doi = {10.2514/6.2022-2923},
URL = {https://arc.aiaa.org/doi/abs/10.2514/6.2022-2923},
eprint = {https://arc.aiaa.org/doi/pdf/10.2514/6.2022-2923},
    abstract = { A good understanding of wind turbine noise propagation is relevant to better measure the impact of turbines on the environment. In this study, we developed numerical simulations to study the impact of a 2D hill on the sound propagation for a turbine in non flat terrain. The simulations employed a propagation model derived from the linearized Euler equations, solved in a moving frame following the wavefront. The wind turbine noise was modeled using a point source approach. The flow structure in the atmospheric boundary layer and the wind turbine wake were obtained from large-eddy simulations. We find that the wind turbine wake acts as a waveguide that focuses sound propagation towards the ground. This effect is most pronounced for the flat terrain case and when the turbine is placed on the hill. The sound attenuation is more localized and closer to the turbine when the wind turbine is placed on the hilltop than in the flat case. As the wind speed increases, the sound focusing is observed closer to the turbine. For a turbine placed in front of the hill, the sound propagation is mainly determined by the flow over the hill. This demonstrates that terrain topography can have surprising effects on wind turbine noise propagation. }
}