Post Access Report: Acoustic Particle Velocity Measurements around a Tidal Current Turbine

University of Washington (2024). Post Access Report: Acoustic Particle Velocity Measurements around a Tidal Current Turbine. Report by Integral Consulting Inc.

@techreport{University-of-Washington-2024-2104903,
author = {University of Washington},
title = {Post Access Report: Acoustic Particle Velocity Measurements around a Tidal Current Turbine},
institution = {Integral Consulting Inc},
year = {2024},
month = {dec},
url = {https://teamer-us.org/report/university-of-washington-acoustic-particle-velocity-measurements-around-a-tidal-current-turbine/},
keywords = {Marine Energy, Tidal, Noise},
}

Export Citation to BibTex

TY - RPRT
TI - Post Access Report: Acoustic Particle Velocity Measurements around a Tidal Current Turbine
AU - University of Washington
AB - Quantifying the underwater sound produced by tidal turbines is essential both to understand their potential environmental impacts and to understand how that sound might interfere with the intended application of the turbine (e.g., powering acoustic monitoring systems). In this project, we measured the sound radiated by a small-scale crossflow tidal turbine. The turbine was deployed from October 2023 to March 2024 in the tidal channel at the entrance to Sequim Bay, WA. Acoustic measurements were made with three different sensor packages: a commercial-off-the-shelf vector sensor (operated by PNNL), a vector sensor array (operated by Integral Consulting), and drifting hydrophones (operated by UW). Acoustic recordings from the three sensors highlight changes in the turbine acoustic signature over the course of a tidal cycle and throughout the 6-month turbine deployment. Our results also highlight the utility of acoustic vector sensors for localizing sound attributable to marine energy devices in acoustically complex environments.
DA - 2024/12//
PY - 2024
SP - 45
PB - Integral Consulting Inc
UR - https://teamer-us.org/report/university-of-washington-acoustic-particle-velocity-measurements-around-a-tidal-current-turbine/
LA - English
KW - Marine Energy
KW - Tidal
KW - Noise
ER -

Export Citation to RIS

Abstract

Quantifying the underwater sound produced by tidal turbines is essential both to understand their potential environmental impacts and to understand how that sound might interfere with the intended application of the turbine (e.g., powering acoustic monitoring systems). In this project, we measured the sound radiated by a small-scale crossflow tidal turbine. The turbine was deployed from October 2023 to March 2024 in the tidal channel at the entrance to Sequim Bay, WA. Acoustic measurements were made with three different sensor packages: a commercial-off-the-shelf vector sensor (operated by PNNL), a vector sensor array (operated by Integral Consulting), and drifting hydrophones (operated by UW). Acoustic recordings from the three sensors highlight changes in the turbine acoustic signature over the course of a tidal cycle and throughout the 6-month turbine deployment. Our results also highlight the utility of acoustic vector sensors for localizing sound attributable to marine energy devices in acoustically complex environments.