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- Title
The Global Wind Atlas: A High-Resolution Dataset of Climatologies and Associated Web-Based Application.
- Authors
Davis, Neil N.; Badger, Jake; Hahmann, Andrea N.; Hansen, Brian O.; Mortensen, Niels G.; Kelly, Mark; Larsén, Xiaoli G.; Olsen, Bjarke T.; Floors, Rogier; Lizcano, Gil; Casso, Pau; Lacave, Oriol; Bosch, Albert; Bauwens, Ides; Knight, Oliver James; Potter van Loon, Albertine; Fox, Rachel; Parvanyan, Tigran; Krohn Hansen, Søren Bo; Heathfield, Duncan
- Abstract
The Global Wind Atlas (GWA) provides high-resolution databases and maps of the wind resource for all land points and for water points within 200 km of the coastline, excluding Antarctica. The GWA is used to identify and understand the global, national, regional, and local potential for wind energy and to guide energy specialists, policymakers, and planners in the transition to a sustainable energy system. This information is vital to ensuring the growth of wind energy, helping to transition to a sustainable energy system, which will mitigate climate change and meet the world's need for reliable, affordable, and clean energy. The GWA uses the established numerical wind atlas methodology to downscale coarse-resolution wind data to microscale, using linearized flow modeling and high-resolution topographic data. There have been three versions of the GWA, each using mesoscale model data at successively higher spatial resolution. A website and geographic information system (GIS) files support quick and in-depth analysis. Validation data and analysis, using measurements from tall masts located worldwide, are also provided through the web application. The development process of the GWA involves a dialogue between meteorological modelers, wind energy development experts, web designers, and representatives of the end users to provide accurate data in a dynamic and relevant way. This article outlines the general method, specific development, and application of the Global Wind Atlas.
- Subjects
ANTARCTICA; WEB-based user interfaces; GEOGRAPHIC information systems; RENEWABLE energy transition (Government policy); ENERGY development; WIND power
- Publication
Bulletin of the American Meteorological Society, 2023, Vol 104, Issue 8, pE1507
- ISSN
0003-0007
- Publication type
Article
- DOI
10.1175/BAMS-D-21-0075.1