Computer fluids dynamics a horizontal axis wind turbine blade: the aerodynamics of airfoils

  • Nabil Ali Alfeetori faculty of engineering university of Triploi
  • Abdulhafiz Younis Mokhetar faculty of engineering university of Triploi
Keywords: CFD simulation, airfoil, angle of attack

Abstract

This article addressed 2D design and simulation.also has been shown the best  preformance for tow airfoils design  To generate the data from the fluid flow situations, it may employ the two programs solidworks and FLUENT. Choose the NACA airfoil models NACA1410 and NACA24112 for this study. NACA 1410 was chosen because it has a higher lift coefficient than NACA 24112. In this study, two-dimensional airfoil NACA 1410 and NACA 24112 CFD models are provided using ANSYS-FLUENT software to simulate computational flow through an airfoil at various angles of attack (0o, 7o, 14o, 30o, and 50o). Using this design Using the conventional wall function's k-epsilon turbulent viscosity near the wall and the wind's 10 m/s speed Here, the study of wind turbine blades takes into account the NACA 1410 airfoil profile. solidworks and CFD are used to develop the airfoil's geometry.

Downloads

Download data is not yet available.
Published
2023-12-02
How to Cite
Alfeetori, N. A., & Mokhetar, A. Y. (2023). Computer fluids dynamics a horizontal axis wind turbine blade: the aerodynamics of airfoils. Alostath, (25). Retrieved from https://uotpa.org.ly/alostath/index.php/alostath/article/view/324
Section
Articles