Effect Of Rotor Blade Wing Tip On Wind Turbine Performance Using Naca 0018 Blade

Pengaruh Wing Tip Sudu Rotor Blade Terhadap Unjuk Kerja Wind Turbin Dengan Menggunakan Blade Naca 0018

  • Ibnu Mas'ud Universitas Muhammadiyah Sidoarjo
  • Rachmad Firdaus Universitas Muhammadiyah Sidoarjo
Keywords: Wind Turbin, Aluminium, Naca 0018, Performance Experimental test

Abstract

  • Indonesia currently has a growing need for energy, this will experience an energy crisis, dependence on fossil fuels will at least have a serious threat, therefore there must be alternative energy as a substitute and reserve such as wind energy, water energy, solar energy, and other. This study aims to develop a wind power plant as an alternative source to produce electrical energy, namely a wind turbine. This tool is used to meet energy needs and also as an alternative energy so that fossil fuels will not run out. Because Indonesia is an archipelagic country and is located on the equator, Indonesia is a country that has abundant resources, one of which is wind. Wind turbine is a tool that functions to convert wind power into mechanical power in the form of a shaft rotation, this shaft rotation is then used for power generation or for water pumps. Therefore I tried to develop my ideas to utilize abundant natural resources to be used as a source of electrical energy by means of a wind turbine using a Naca 0018 blade. This study aims to determine the effect of the number of blades, the effect of profiles, the effect of the wing tip of the rotor blades. , naca 0018, and the resulting energy efficiency. This study uses the type of experimental research.

References

[1] ANSYS FLUENT Theory guide, ANSYS, Inc. Release 14.5, Southpointe, October 2012,275 Technology Drive Canonsburg, PA 15317 ANSYS, Inc.
[2] Aresti, L., Tutar, M., Chen, Y., and Calay, R. Computational study of a small scale vertical axis wind turbine (VAWT): Comparative performance of various turbulence models,Wind and Structures, Vol 17, No.6(2013), pp.647-670.
[3] Hartadi, B., & Maulana, Y. (2017). Optimasi Rancang Bangun Prototype Kincir Air Kapasitas 100 Watt. Al Ulum Sains Dan Teknologi, 3(1), 66–69.
[4] Hidayat, M., & Wulandari, R. (2018). Unjuk Kerja Turbin Air Kaki Angsa Next-G dengan Variasi Lebar Sudu dan Jumlah Kaki Sudu Menggunakan Pendekatan Komputasional. Jurnal Rekayasa Mesin, 9(2), 99–102.
[5] Kusnadi, Agus Mulyono, Gunawan Pakki, Gunarko, K. (2018). Rancang Bangun Dan Uji Performansi Turbin Air Jenis. Jurnal Teknik Mesin Universitas, 7(2).
[6] Muvariz, M. F., & Rossbandrio, W. (2015). Studi Gaya Drag dan Lift pada Blade Profile NACA 0018 Turbin Arus Laut Sumbu Vertikal. Jurnal Integrasi, 7(1), 40–44.
[7] Rahmadi, J., Yusuf, I., & Priyatman, H. (2015). Joni rahmadi 2015. 7(1), 11–18.
[8] Resha, M., & Yohanes, A. (2019). EFFECT OF AIRFOIL SHAPE ON THE AERODYNAMIC CHARACTERISTICS OF VERTICAL ROTOR WIND TURBINES. 9–10.
Published
2021-07-08