Wind Turbine Sound Setbacks and Supply Curves: Ordinances (Existing) and Extrapolated Trends, 110 Hub Height, 130 Rotor Diameter
This dataset provides a comprehensive set of wind turbine sound setbacks from every residential structure in the contiguous United States (CONUS). A sound setback is defined as the minimum required distance between a residential structure and a hypothetical turbine installation site to ensure that modeled sound levels received at the residence do not exceed local sound ordinances, which are commonly expressed in A-weighted decibels (dBA). Therefore, sound setbacks are a local spatial assessment combining multiple factors, including the sound pressure curve as a function of the observer location (distance and direction) relative to the turbine, local sound regulations, and the geographical distribution of residential structures. The dataset is organized into multiple scenario-based products, detailed as follows:
1. Existing and extrapolated sound setbacks. An existing scenario characterizes sound setbacks only in states or counties that have implemented sound regulations as of 2022. The extrapolated scenarios extend a constant sound threshold to counties that lack explicit sound regulations, with thresholds ranging from 35 to 60 dBA, in 5-dBA increments reflecting the variation observed in current sound ordinances.
2. Sound setbacks in directional and worst scenarios. The directional scenario accounts for the distance and orientation of residential structures relative to a hypothetical turbine location, utilizing the turbine's sound emissions in that specific direction. In contrast, the worst scenario takes loudest sound level at each distance step from the turbine, irrespective of directional considerations, which aligns with current industry practice.
3. Supply curves for Open and Reference Access scenarios. This dataset includes supply curves generated by the reV model, which integrates each of the above sound setbacks into both Open and Reference siting scenarios. In addition, two Open and Reference baselines scenarios were included which do not consider sound setbacks for comparative analysis.
All sound setback data are stored in TIF files, with partial maps of the data provided in PNG format. The values in the sound setback raster range from 0 to 1, representing the fraction of developable land within a 90 meter by 90 meter pixel due to sound ordinances. A value of 0 indicates areas where wind energy development is prohibited, while a value of 1 signifies areas fully permissible. The wind turbine parameters used in the sound modeling are based on the land-based turbine from International Energy Agency (IEA), featuring a rated electrical power of 3.4 MW, a rotor diameter of 130 meters, and a hub height of 110 meters. The atmospheric conditions, including wind speed/direction, turbulence, air temperature, relative humidity, and air pressure, that drive the sound generation are obtained from the WIND Toolkit dataset.
Citation Formats
National Renewable Energy Laboratory (NREL). (2025). Wind Turbine Sound Setbacks and Supply Curves: Ordinances (Existing) and Extrapolated Trends, 110 Hub Height, 130 Rotor Diameter [data set]. Retrieved from https://data.openei.org/submissions/6457.
Geospatial Data Science, NREL. Wind Turbine Sound Setbacks and Supply Curves: Ordinances (Existing) and Extrapolated Trends, 110 Hub Height, 130 Rotor Diameter. United States: N.p., 01 Jan, 2025. Web. https://data.openei.org/submissions/6457.
Geospatial Data Science, NREL. Wind Turbine Sound Setbacks and Supply Curves: Ordinances (Existing) and Extrapolated Trends, 110 Hub Height, 130 Rotor Diameter. United States. https://data.openei.org/submissions/6457
Geospatial Data Science, NREL. 2025. "Wind Turbine Sound Setbacks and Supply Curves: Ordinances (Existing) and Extrapolated Trends, 110 Hub Height, 130 Rotor Diameter". United States. https://data.openei.org/submissions/6457.
@div{oedi_6457, title = {Wind Turbine Sound Setbacks and Supply Curves: Ordinances (Existing) and Extrapolated Trends, 110 Hub Height, 130 Rotor Diameter}, author = {Geospatial Data Science, NREL.}, abstractNote = {This dataset provides a comprehensive set of wind turbine sound setbacks from every residential structure in the contiguous United States (CONUS). A sound setback is defined as the minimum required distance between a residential structure and a hypothetical turbine installation site to ensure that modeled sound levels received at the residence do not exceed local sound ordinances, which are commonly expressed in A-weighted decibels (dBA). Therefore, sound setbacks are a local spatial assessment combining multiple factors, including the sound pressure curve as a function of the observer location (distance and direction) relative to the turbine, local sound regulations, and the geographical distribution of residential structures. The dataset is organized into multiple scenario-based products, detailed as follows:
1. Existing and extrapolated sound setbacks. An existing scenario characterizes sound setbacks only in states or counties that have implemented sound regulations as of 2022. The extrapolated scenarios extend a constant sound threshold to counties that lack explicit sound regulations, with thresholds ranging from 35 to 60 dBA, in 5-dBA increments reflecting the variation observed in current sound ordinances.
2. Sound setbacks in directional and worst scenarios. The directional scenario accounts for the distance and orientation of residential structures relative to a hypothetical turbine location, utilizing the turbine's sound emissions in that specific direction. In contrast, the worst scenario takes loudest sound level at each distance step from the turbine, irrespective of directional considerations, which aligns with current industry practice.
3. Supply curves for Open and Reference Access scenarios. This dataset includes supply curves generated by the reV model, which integrates each of the above sound setbacks into both Open and Reference siting scenarios. In addition, two Open and Reference baselines scenarios were included which do not consider sound setbacks for comparative analysis.
All sound setback data are stored in TIF files, with partial maps of the data provided in PNG format. The values in the sound setback raster range from 0 to 1, representing the fraction of developable land within a 90 meter by 90 meter pixel due to sound ordinances. A value of 0 indicates areas where wind energy development is prohibited, while a value of 1 signifies areas fully permissible. The wind turbine parameters used in the sound modeling are based on the land-based turbine from International Energy Agency (IEA), featuring a rated electrical power of 3.4 MW, a rotor diameter of 130 meters, and a hub height of 110 meters. The atmospheric conditions, including wind speed/direction, turbulence, air temperature, relative humidity, and air pressure, that drive the sound generation are obtained from the WIND Toolkit dataset. }, doi = {}, url = {https://data.openei.org/submissions/6457}, journal = {}, number = , volume = , place = {United States}, year = {2025}, month = {01}}
Details
Data from Jan 1, 2025
Last updated Jan 10, 2025
Submitted Jan 10, 2025
Organization
National Renewable Energy Laboratory (NREL)
Contact
NREL Geospatial Data Science
Authors
Research Areas
Keywords
Wind Energy, Land-based Wind, Sound Setbacks, Sound Ordinances, Surrogate Modeling, Sound RegulationsDOE Project Details
Project Name Spatial Analysis for Wind Technology Development
Project Number 10348
