The National Renewable Energy Laboratory (NREL) uses computational fluid dynamics to simulate wind turbine blade aerodynamics, improving efficiency and reducing costs.
This article reviews the current state of wind turbine blade aerodynamics, including simulation techniques and experimental methods, highlighting future research directions.
This open-source project provides a tutorial on simulating wind turbine blade aerodynamics using OpenFOAM, an open-source computational fluid dynamics software.
This research article presents a computational fluid dynamics (CFD) based optimization framework for wind turbine blade aerodynamics, demonstrating improved performance and reduced noise.
This online course covers the fundamentals of wind turbine blade design and aerodynamics, including simulation and optimization techniques, taught by industry experts.
The Stanford University Wind Energy Research group focuses on advancing the understanding of wind turbine blade aerodynamics and aeroacoustics, with ongoing research projects and publications.
This tutorial demonstrates how to use ANSYS software to simulate wind turbine blade aerodynamics, including meshing, setup, and post-processing, for improved design and performance.
This conference paper presents a study on the aerodynamic optimization of wind turbine blades for noise reduction, using computational fluid dynamics and experimental validation.