A combined aero-hydro-servo-elastic and acoustic dipole model shows floating offshore wind turbines emit up to 15% more low-frequency underwater noise than monopiles, with differences in directivity and water-depth sensitivity.
Branlard, et al., Superelement reduction of substructures for sequential load cal- culations in openfast, Journal of Physics: Conference Series 1452 (1) (2020) 012033
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Vibroacoustic Underwater Noise from Fixed and Floating Offshore Wind Turbines
A combined aero-hydro-servo-elastic and acoustic dipole model shows floating offshore wind turbines emit up to 15% more low-frequency underwater noise than monopiles, with differences in directivity and water-depth sensitivity.