The Effect of Wind Turbine Blade Material Type on Generated Electric Power
DOI:
https://doi.org/10.21063/jtm.2021.v11.i2.157-162Kata Kunci:
wind turbine, composite material, electric power, wind speedAbstrak
Electric power as an energy system has a very important role in the economic development of a country. Therefore, now many researches are conducting developments in energy generation research and one of them is the development of wind power plants or wind turbines. The purpose of this study was to determine the effect of the type of blade material used in wind turbines on the varying electrical power produced. The blade material used in this material is pine wood, fiberglass/epoxy composite and fiberglass/coconut fiber/epoxy. The tests carried out in this study were to measure the rotation of the rotor, measure the current, voltage and power for variations in wind speed. The wind speed used is 3 m/s 4 m/s 5 m/s 6 m/s. blade with fiberglass/epoxy/coconut fiber composite material gets high rotational results compared to other materials, at a wind speed of 6 m/s it can produce a rotation of 1241,156 rpm and the electrical power generated is 3,545 W.
Referensi
B. Dahlan, Rancang Bangun Baling-Baling Kincir Angin Kayu Mahoni (Swietenia Macrophylla) Dan Pinus Design Of Wind Turbine Based On The Naca 4412 And 4415 Using Mahogany (Swietenia Macrophylla) Dan Pines Wood ( Pinus Merkusii ). 2016.
T. A. Nizardi, S. Ali, Z. Husin, and M. Marbun, Rancang Bangun Propeller Turbin Angin Sumbu Vertical Berbahan Dasar Komposit Fiberglass, vol. 7, no. 1, pp. 10–17, 2021.
F. Aryanto, M. Mara, and M. Nuarsa, Pengaruh Kecepatan Angin Dan Variasi Jumlah Sudu Terhadap Unjuk Kerja Turbin Angin Poros Horizontal, Din. Tek. Mesin, vol. 3, no. 1, pp. 50–59, 2013, doi: 10.29303/d.v3i1.88.
A. Ulinuha and W. A. Widodo, Rancang Bangun Pembangkit Listrik Tenaga Angin Skala Mikro Untuk Keperluan Penerangan Jalan, 7thUniversity Res. Colloq. 2018 , pp. 128–135, 2018.
A. Rachman, P. Pratiwi, and L. Ashari, Rancang Bangun dan Uji Prestasi Horizontal Axis Wind Turbine Jenis Taper Design and Performance Horizontal Axis Wind Turbine Taper Type, vol. 9, no. 2, 2019.
S. N. Wahyudi, Pengaruh Jenis Dan Jumlah Bilah Naca 3612 Terhadap Performa Turbin Angin Sumbu Horizontal ( Tash ). 2020.
Wardoyo, Hubungan Daya Turbin Angin Berbentuk Propeller 5 Blade Terhadap Beban Tower Penyangganya Wardoyo, J. Konversi Energi dan Manufaktur UNJ, no. 1, pp. 1–6, 2016.
M. Latif, Efisiensi Prototipe Turbin Savonius pada Kecepatan Angin Rendah, J. Rekayasa Elektr., vol. 10, no. 3, 2013, doi: 10.17529/jre.v10i3.1030.
M. Perdana, Pengaruh Moisture Content Dan Thermal Shock Terhadap Sifat Mekanik Dan Fisik Komposit Hibrid Berbasis Serat Gelas Dan Coir, J. Tek. Mesin, vol. 3, no. 1, pp. 1–7, 2013.
M. Y. Puriza and M. Latief, Pemilihan Bahan Sudu Untuk Perancangan Dan Pembuatan Prototipe Turbin Angin Sumbu Horizontal, J. ECOTIPE, vol. 5, no. 2, pp. 37–41, 2018, doi: 10.33019/ecotipe.v5i2.664.
M. Latif, R. Nazir, H. Reza, J. Nasional, and T. Elektro, Analisa Proses Charging Akumulator Pada Prototipe Turbin Angin Sumbu Horizontal Di Pantai Purus Padang, no. 1, pp. 1–8, 2013.
R. Sumiati and K. Amri, Rancang bangun micro turbin angin pembangkit listrik untuk rumah tinggal di daerah kecepatan angin rendah, J. Tek. Mesin, no. November, pp. 1–5, 2014.
W. ibnu A. Arifin, “http://etd.repository. ugm.ac.id/penelitian/detail/36336 #filepdf,” p. 907.
Unduhan
Diterbitkan
Terbitan
Bagian
Lisensi
Hak Cipta (c) 2021 Sulaeman, Mitra Munandar, Suchy
Artikel ini berlisensiCreative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
