NANT Site - NOAA PSL Wind Retrievals WINDoe / Derived Data

Adler, Bianca

doi:10.21947/2997968

Title: NANT Site - NOAA PSL Wind Retrievals WINDoe / Derived Data

Dataset
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Abstract

This dataset contains daily NetCDF files with horizontal wind profiles retrieved with the WINDoe retrieval (Gebauer and Bell 2024) at Nantucket Island (NANT). WINDoe retrievals datasets are also available at Block Island (BLOC, bloc.windoe.z01.c1) and Rhode Island (RHOD, rhod.windoe.z01.c1). WINDoe is an optimal estimation algorithm to retrieve wind profiles combining multiple instruments. The code is available in this github repository (https://github.com/OAR-atmospheric-observations/WINDoe/tree/main) and the retrieval is described by Gebauer and Bell (2024). WINDoe allows combining the individual data sets and outputs into one profile taking into account the information and uncertainties of each data set. The use of WINDoe minimizes data gaps and maximizes data availability, compared to using wind profiles from only one of the instruments. The regular height grid eases comparisons to numerical weather prediction models. Code modifications have been made that include reading in WFIP3 specific instruments, averaging Doppler lidar radial velocities at various azimuth angles to avoid overfitting, and allowing the user to define a height grid by the user in the vipfile. The instruments used as input to the retrieval are a radar wind profiler (low- and high resolution mode) providing data in and above the boundary layer, a scanning Doppler lidar usually providing data throughoutmore »« less

Authors:

Adler, Bianca

NOAA PSL

Publication Date:: Tue Oct 14 00:00:00 EDT 2025

DOE Contract Number:: AC05-76RL01830

Research Org.:: Pacific Northwest National Laboratory

Sponsoring Org.:: USDOE Office of Energy Efficiency and Renewable Energy (EERE), Wind and Water Technologies Office (EE-4W)

Subject:: 17 WIND ENERGY

OSTI Identifier:: 2997968

DOI:: https://doi.org/10.21947/2997968

Citation Formats


                    Adler, Bianca. NANT Site - NOAA PSL Wind Retrievals WINDoe / Derived Data.  United States: N. p., 2025. 
        Web.  doi:10.21947/2997968.

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                    Adler, Bianca. NANT Site - NOAA PSL Wind Retrievals WINDoe / Derived Data.  United States.  doi:https://doi.org/10.21947/2997968

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                    Adler, Bianca. 2025.  
"NANT Site - NOAA PSL Wind Retrievals WINDoe / Derived Data".  United States.  doi:https://doi.org/10.21947/2997968.  https://www.osti.gov/servlets/purl/2997968. Pub date:Tue Oct 14 00:00:00 EDT 2025

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@article{osti_2997968,

  title        = {NANT Site - NOAA PSL Wind Retrievals WINDoe / Derived Data},

  author       = {Adler, Bianca},

  abstractNote = {This dataset contains daily NetCDF files with horizontal wind profiles retrieved with the WINDoe retrieval (Gebauer and Bell 2024) at Nantucket Island (NANT). WINDoe retrievals datasets are also available at Block Island (BLOC, bloc.windoe.z01.c1) and Rhode Island (RHOD, rhod.windoe.z01.c1). WINDoe is an optimal estimation algorithm to retrieve wind profiles combining multiple instruments. The code is available in this github repository (https://github.com/OAR-atmospheric-observations/WINDoe/tree/main) and the retrieval is described by Gebauer and Bell (2024). WINDoe allows combining the individual data sets and outputs into one profile taking into account the information and uncertainties of each data set. The use of WINDoe minimizes data gaps and maximizes data availability, compared to using wind profiles from only one of the instruments. The regular height grid eases comparisons to numerical weather prediction models. Code modifications have been made that include reading in WFIP3 specific instruments, averaging Doppler lidar radial velocities at various azimuth angles to avoid overfitting, and allowing the user to define a height grid by the user in the vipfile. The instruments used as input to the retrieval are a radar wind profiler (low- and high resolution mode) providing data in and above the boundary layer, a scanning Doppler lidar usually providing data throughout the boundary layer, a profiling lidar providing data from 50 to 200 m at BLOC and NANT, and from 10 to 280 m at Rhode Island, and a surface tower (4 m at NANT and RHOD and 10 m at BLOC). From the scanning lidars, we used radial velocity measurements at 60 deg elevation angle at 6 different azimuth angles with a resolution of approximately 30 m along the line of sight and the lowest range gate at approximately 70 m. The wind profiles are retrieved with WINDoe up to 3.74 km with 10 m vertical resolution. The profiles are retrieved every 15 min at BLOC and NANT and every 60 min at RHOD.},

  doi          = {10.21947/2997968},

  journal      = {},

  number       = ,

  volume       = ,

  place        = {United States},

  year         = {Tue Oct 14 00:00:00 EDT 2025},

  month        = {Tue Oct 14 00:00:00 EDT 2025}

}

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DOI: https://doi.org/10.21947/2997968

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