STUDI PERFORMASI SUDU TURBIN ANGIN TIPE VERTICAL AXIS BERBAHAN KOMPOSIT
Abstract
The increasing human population, the use of fossil energy such as oil also increases. While fossil energy is one of the largest contributors to carbon emissions that can cause climate change that can be done to control climate change is to switch to the use of renewable energy. The investigation takes the shape of a vertical axis Savonius turbine blade design. The blades are made of a composite material called carbon fiber, and the number of blades varies between 4, 6, and 8 pieces. The study's findings were tested utilizing a blower-generated wind source with wind speeds of 4m/s, 4.5m/s, and 5m/s. A wind tunnel consisting of acrylic material and pipes as a frame construction was used in the test. The test findings show that turbine blades with a total of four blades produce the maximum generator power of 0.274 watts at a wind speed of 5 m/s. Meanwhile, the turbine blade with 8 blades has the lowest output power at a wind speed of 4 m/s and a power value of 0.0028 W. Then, with 8 blades, it has a relatively low output energy compared to 4 and 6 blades. Therefore, the highest efficiency performance of wind turbine use is achieved by a turbine with a number of 4 blades with a maximum efficiency is 9,16% and the minimum efficiency it seen in a wind turbine with a number of blades 8 within 0,07%.
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References
[2] Amstead, B.H., Ostwald, P.F., Begeman, M.L. 1979. Manufacturing Processes (8th Edition). John Wiley & Sons, Inc. New York.
[3] Dharma, untung surya & Mashemi. 2016. Pengaruh Desain Sudu Terhadap Unjuk Kerja Prototype Turbin Angin Vertical Axis Savonius. Jurnal Turbo. Universitas Muhammadiyah Metro. Vol. 5 No. 2.
[4] Dhimas, fitradian. 2017. Rahasia Dari Serat Karbon si Kuat Nan Ringan, https://www.otosia.com/berita/rahasia-dari-serat-karbon-si-kuat-nan-ringan.html (diakses pada 24 Januari 2022).
[5] H. Napitupulu, farel & Fritz mauritz. 2013. Uji Eksperimental dan Analisis Pengaruh Variasi Kecepatan dan Jumlah Sudu Terhadap Daya dan Putaran Turbin Angin Vertical Axis Savonius dengan Menggunakan Sudu Pengarah. Jurnal Dinamis. Vol. II No. 12.
[6] Homzah, O.F. et al. 2020. Prototype of Small Savonius Wind Turbine. Proceedings Highlight in Engineering. Vol. 7, Atlantis Press.
[7] Jamal. 2019. Pengaruh Jumlah Sudu Terhadap Kinerja Turbin Savonius. Jurnal Intek Penelitian. Politeknik Negeri Ujung Pandang. Vol. 6 No. 1.
[8] Latif, Melda. 2013. Efisiensi Prototype Turbin Savonius pada Kecepatan Angin Rendah. Jurnal Rekayasa Elektrika. Vol. 10 No. 3. doi: https://doi.org/10.17529/jre.v10i3.1030
[9] Marsono. 2018. Peningkatan Kekakuan Sudu Turbin Angin Vertikal Berbahan Komposit Serat Karbon Melalui Rekayasa Penampang Inersia. Jurnal Rekayasa Hijau. Vol. 2 No. 3. doi: https://doi.org/10.26760/jrh.v2i3.2514
[10] Muttaqin, idzani & Muhammad suprapto. 2021. Pembuatan Turbin Angin Savonius Bertingkat Berbahan Alumunium. Jurnal Jieom. Vol. 04 No. 01.
[11] Noviaranti, arini, Suwandi & A. Qurthobi. 2020. Pengaruh Kelengkungan Sudu Terhadap Tegangan Dan Arus Yang Dihasilkan Turbin Angin Savonius Tipe U. E-Proceeding of Engineering. Vol. 7 No. 2.
[12] Salim, lutfi laili, Ridwan & Iwan Setyawan. 2020. Analisis Performa Turbin Angin Savonius Tipe U dengan Memvariasikan Jumlah Sudu Turbin. Jurnal Penelitian Engineering. Universitas Gunadarma. Vol 24 No. 2.
[13] Zulfikar, Pertaonan Harahap & Henry Agung Laksono. 2019. Analisa Perbandingan Pengaruh Variasi Jumlah Sudu 4 dan 8 Pada Turbin Angin Savonius Terhadap Tegangan dan Arus Generator DC. Jurnal Rele: Jurnal Teknik Elektro. Universitas Muhammadiyah Sumatera Utara. Vol. 2 No. 1.
[14] Hua Erich, 2006, “Wind Turbines Fundamentals Technologies, Application, Economics”, 2nd Edition, Springer.
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