Can aerodynamic noise from large offshore wind turbines affect marine life?

Botero-Bolivar, L.; Marino, O.; de Frutos, M.; Ferrer,E. (2025). Can aerodynamic noise from large offshore wind turbines affect marine life?. Renewable Energy, , 22.

@article{Botero-Bolivar-2025-,
author = {Botero-Bolivar, L and Marino, O and de Frutos, M and Ferrer,E},
title = {Can aerodynamic noise from large offshore wind turbines affect marine life?},
journal = {Renewable Energy},
year = {2025},
month = {jan},
pages = {22},
url = {https://arxiv.org/pdf/2501.12404},
keywords = {Wind Energy, Fixed Offshore Wind, Noise, Marine Mammals},
}

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TY - JOUR
TI - Can aerodynamic noise from large offshore wind turbines affect marine life?
AU - Botero-Bolivar, L
AU - Marino, O
AU - de Frutos, M
AU - Ferrer,E
T2 - Renewable Energy
AB - The pressing demand for offshore wind energy has driven a significant increase in the size of wind turbines, as exemplified by the proposed 22 MW turbine in the IEA Task 55—REFWIND. In addition, today it is common to see offshore farms with 100 or 150 turbines. The combination of turbines of increasing sizes in populated farms facilitates energy production but can lead to non-negligible aerodynamic noise emissions, which can be heard underwater. This paper quantifies the underwater aerodynamic noise footprint of three large offshore turbines (5 MW, 10 MW, and 22 MW) and farms composed of these types of turbines. By comparing the underwater noise spectra with audiograms of marine animals, we confirm that the noise emissions of large offshore farms will soon pose an environmental problem. The proposed methodology allows wind turbine designers to predict and mitigate the impact of noise while promoting sustainable energy.
DA - 2025/01//
PY - 2025
SP - 22
UR - https://arxiv.org/pdf/2501.12404
LA - English
KW - Wind Energy
KW - Fixed Offshore Wind
KW - Noise
KW - Marine Mammals
ER -

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Abstract

The pressing demand for offshore wind energy has driven a significant increase in the size of wind turbines, as exemplified by the proposed 22 MW turbine in the IEA Task 55—REFWIND. In addition, today it is common to see offshore farms with 100 or 150 turbines. The combination of turbines of increasing sizes in populated farms facilitates energy production but can lead to non-negligible aerodynamic noise emissions, which can be heard underwater. This paper quantifies the underwater aerodynamic noise footprint of three large offshore turbines (5 MW, 10 MW, and 22 MW) and farms composed of these types of turbines. By comparing the underwater noise spectra with audiograms of marine animals, we confirm that the noise emissions of large offshore farms will soon pose an environmental problem. The proposed methodology allows wind turbine designers to predict and mitigate the impact of noise while promoting sustainable energy.