This study presents a numerical simulation of the aerodynamic forces acting on a vertical axis wind turbine using the large eddy simulation technique.
The National Renewable Energy Laboratory (NREL) conducted a study on the aerodynamic performance of vertical axis wind turbines, including numerical simulations and experimental validation.
This video tutorial demonstrates how to simulate the aerodynamic forces acting on a vertical axis wind turbine using the OpenFOAM software package.
A numerical investigation of the aerodynamic forces acting on a vertical axis wind turbine was conducted using computational fluid dynamics, with a focus on the effects of blade pitch and yaw.
An open-source simulation tool for calculating the aerodynamic forces acting on a vertical axis wind turbine, developed using Python and the NumPy library.
Researchers at the Massachusetts Institute of Technology (MIT) conducted an aerodynamic analysis of vertical axis wind turbines, including numerical simulations and wind tunnel experiments.
This study presents a numerical simulation of the wake dynamics behind a vertical axis wind turbine, with a focus on the effects of turbine spacing and layout on wake interaction.
This conference paper presents a numerical simulation and optimization study of the aerodynamic forces acting on a vertical axis wind turbine, with a focus on maximizing energy production and reducing loads.