Rotor Power Optimization of Horizontal Axis Wind Turbine from Variations in Airfoil Shape, Angle of Attack, and Wind Speed

Authors

  • Kriswanto Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Fajar Romadlon Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Dony Hidayat Al-Janan Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Widya Aryadi Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Rizqi Fitri Naryanto Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Samsudin Anis Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Imam Sukoco Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia
  • Jamari Department of Mechanical Engineering, University of Diponegoro, Jl. Prof. Sudharto Kampus UNDIP Tembalang, Semarang 50275, Indonesia

DOI:

https://doi.org/10.37934/arfmts.94.1.138151

Keywords:

airfoil, angle of attack, blade element momentum, HAWT, optimization, wind speed

Abstract

This paper presents rotor power optimization of the Horizontal Axis Wind Turbine of various parameters such as airfoil, angle of attack, and wind speed. Simulation of HAWT rotor power uses Blade Element Momentum (BEM). Furthermore, optimization using the Taguchi method with L16(43) orthogonal array. The parameters used in this study were: airfoil NACA (National Advisory Committee for Aeronautics) 4412, NACA 2412, NACA 4412-NACA 2412, NACA 4412mod-NACA 2412mod; angle of attack 3˚, 4˚, 5˚, 6˚; and wind speed of 5, 6, 7, 8 (m/s). The simulation uses the general parameter at 1 MW HAWT. Several types of NACA airfoil, angle of attack, and wind speed were simulated, then optimized to obtain optimal parameters for the HAWT output power. The results of this study found the most optimal rotor power, namely the condition of the NACA 4412mod-NACA 2412mod airfoil, 3˚ angle of attack, and 8m/s wind speed. Wind speed is the most significant influence factor based on ANOVA analysis ranked 1st based on S/N ratio analysis, 2nd rank is an airfoil, and 3rd rank is the angle of attack. The higher the wind speed, the greater the rotor power generated.

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Author Biographies

Kriswanto, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

kriswanto@mail.unnes.ac.id

Fajar Romadlon, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

fajarromadlon74@gmail.com

Dony Hidayat Al-Janan, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

aljanan@mail.unnes.ac.id

Widya Aryadi, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

widyaaryadi@mail.unnes.ac.id

Rizqi Fitri Naryanto, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

rizqi_fitri@mail.unnes.ac.id

Samsudin Anis, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

samsudin_anis@mail.unnes.ac.id

Imam Sukoco, Department of Mechanical Engineering, Universitas Negeri Semarang, Gd E9 Kampus Sekaran Gunungpati, Semarang, Indonesia

putra_aprillia@mail.unnes.ac.id

Jamari, Department of Mechanical Engineering, University of Diponegoro, Jl. Prof. Sudharto Kampus UNDIP Tembalang, Semarang 50275, Indonesia

j.jamari@gmail.com

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Published

2022-04-08

How to Cite

Kriswanto, Fajar Romadlon, Dony Hidayat Al-Janan, Widya Aryadi, Rizqi Fitri Naryanto, Samsudin Anis, Imam Sukoco, & Jamari. (2022). Rotor Power Optimization of Horizontal Axis Wind Turbine from Variations in Airfoil Shape, Angle of Attack, and Wind Speed. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 94(1), 138–151. https://doi.org/10.37934/arfmts.94.1.138151

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