Design And Simulation of a Small Horizontal Wind Turbine Using MATLAB and XFOIL
- Jinane Radi 1
- Abdelouahed Djebli 1
- Jesús Enrique Sierra-García 2
- Giordy Andrade Aimara 3
- 1 Energetic laboratory, Department of physics, Faculty of Sciences, University of Abdelmalek Saadi Tetouan, Morocco
- 2 Dpt. of Electromechanical Engineering Escuela Politécnica Superior University of Burgos
- 3 Department of Computer Architecture and Automation Complutense University of Madrid
- Aitor J. Garrido Garrido (coord.)
- Matilde Santos Peñas (coord.)
- Fares Mzoughi (coord.)
- Ahmad, Irfan (coord.)
- Garrido Hernandez, Izaskun (coord.)
Editorial: Servicio Editorial = Argitalpen Zerbitzua ; Universidad del País Vasco = Euskal Herriko Unibertsitatea
ISBN: 978-84-1319-526-1
Año de publicación: 2023
Páginas: 19-24
Congreso: Jornada Internacional de Energía Eólica y Marina (4. 2022. null)
Tipo: Aportación congreso
Resumen
The aerodynamic modelling of the blades is a crucial step in the design and modelling of wind turbines (WTs). This study presents the design of a small horizontal axis wind turbine (HAWT) using a mathematical model based on Blade Element Momentum (BEM) approach. The proposed methodology exploits MATLAB, Qblade and XFOIL softwares. This study was applied to a 10 KW horizontal axis WT with S809 airfoil. The results of the analysis show a maximum power coefficient of 0.46 and a maximum torque of 64 Nm. This procedure could be effectively used to design and analyze the HAWT operation.
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