Design And Simulation of a Small Horizontal Wind Turbine Using MATLAB and XFOIL

  1. Jinane Radi 1
  2. Abdelouahed Djebli 1
  3. Jesús Enrique Sierra-García 2
  4. Giordy Andrade Aimara 3
  1. 1 Energetic laboratory, Department of physics, Faculty of Sciences, University of Abdelmalek Saadi Tetouan, Morocco
  2. 2 Dpt. of Electromechanical Engineering Escuela Politécnica Superior University of Burgos
  3. 3 Department of Computer Architecture and Automation Complutense University of Madrid
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Libro:
WWME 2022 IV. Jardunaldia - Berrikuntza eta irakaskuntza energia berriztagarrien aurrerapenetan
  1. Aitor J. Garrido Garrido (coord.)
  2. Matilde Santos Peñas (coord.)
  3. Fares Mzoughi (coord.)
  4. Ahmad, Irfan (coord.)
  5. 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

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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.

Fuente de los datos: Dialnet