Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Files.part01.rar size: 47.18592 MB
Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Velocity-Vorticity-Streamlines-FetchCFD.jpg size: 0.900036 MB
Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Files.part03.rar size: 32.049773 MB
Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Files.part02.rar size: 47.18592 MB
Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Velocity-3-FetchCFD.jpg size: 0.19207 MB
Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Velocity-FetchCFD.jpg size: 0.238463 MB
Vertical-axis-wind-turbine-CFD-Simulation-OpenFOAM-Turbulent-Viscosity-FetchCFD.jpg size: 0.318345 MB
Vertical Axis Wind Turbine 2D Simulation
NoAI: This model, simulation, images, or project may not be utilized within datasets, during the developmental process, or as inputs for generative AI programs.
Vertical Axis Wind Turbine (VAWT) consists of a main rotor shaft which is set transverse to the wind (but not essentially vertically) whereas the main components are placed at the base of the turbine. This allows the generator and gearbox to be located close to the ground, facilitating service and repair. Here simulation of flow through a rotating high solidity vertical axis wind turbine using OpenFOAM is shared. pimpleDyMFoam solver is used for the computation. The blade is operating at a tip speed ratio of 1.0. The blade cross section is based on NACA 0015 with a rotor solidity of 1.5. Based (mesh+case) on the work of Travis Carrigan (https://github.com/traviscarrigan/OpenFOAM-2D-VAWT). More simulations with varying parameters will follow shortly. Stay tuned!
128 MB Project Size
July 15th, 2017 Uploaded
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