Perancangan dan Analisis Potensi Pembangkit Listrik Tenaga Mikro Hidro Di Aliran Sungai Brantas Sengkaling Kabupaten Malang Dalam Rangka Mencapai Target Energy Mix 23% Pada Tahun 2025

  • Muhammad Helmi Kurniawan Universitas Brawijaya
  • Dovian Iswanda Universitas Brawijaya
  • Annisa Kesy Garside Universitas Muhammadiyah Malang
Keywords: Micro-hydropower, Efficiency, Specific speed, Electric power

Abstract

A micro-hydropower plant is a small-scale power plant that uses water as its propulsion and the prime mover is a turbine. This generating system is very appropriate to be used in rural areas because this system is easy to manufacture, produces a large amount of electrical power, and is relatively inexpensive to manufacture. Based on the above, it is necessary to design a turbine that supports this generating system, including the Cross-Flow Turbine. To design a water turbine so that there are no errors in the design (such as the cost of making it), then a design is carried out. A cross-flow turbine design is designed with a flow rate (Q) = 1.2 m3/s, head (H) = 17 m with an efficiency of 0.75. The main technical specifications from the results of the turbine design are runner diameter (D) = 510 mm, turbine shaft rotation 471 rpm with a specific speed of 61.33 rpm, water power of 200,124 kW, and producing electric power of 100.86kW.

References

[1] Bilal Abdullah Nasir. (2013). Design of High Efficiency Cross-Flow Turbine for Hydro-Power Plant”, International Journal of Engineering and Advanced Technology (IJEAT), Volume-2, Issue-3, February 2013.
[2] Razak, J. A., Ali, Y., Alghoul, M., Zainol, M. S., Zaharim, A., & Sopian, K. (2010). Application of crossflow turbine in off-grid pico hydro renewable energy system. Proceeding of the American- Math, 10, 519-526.
[3] RE4I (Renewable energy for Indonesia), (2017). Renewable Energy: Keystone for Universal Electrification and Energy Security.The 3rd International Conference and Exhibition on Geothermal, Hydro, Solar, Wind, Ocean Wave and Bio Energies. Jakarta, Indonesia.
[4] Peraturan Pemerintah Republik Indonesia Nomor79 Tahun 2014 Kebijakan Energi Nasional. (2014). Lembar Negara Republik Indonesia Tahun 2014 Nomor 300. Jakarta
[5] Wibowo. Handi .(2015). Kajian Teknis dan Ekonomi Perencanaan Pembangkit Listrik Tenaga Mikrohidro (PLTMH) di Sungai Lematang Kota Pagar Alam . Jurnal ilmiah Cantilever , vol. 4 No.1, hal 34-41, ISSN : 1907 – 4247, 2015.
[6] Sularso.(1987). Dasar Perencanaan Dan Pemilihan Elemen Mesin Edisi Ke-6. PT. Pradnya Paramita, Jakarta.
[7] Celso Penche and Ingeniero de Minas. (1998). Layman's Guide Book, How to Develop a Small Hydro Site.
[8] Parabelem T.D. Rompas (2011) .Analisis Pembangkit Listrik Tenaga Mikrohidro (PLTMH) pada Daerah Aliran Sungai Ongkak Mongondow di desa Muntoi Kabupaten Bolaang Mongondow. Jurnal Penelitian Saintek, Vol. 16, Nomor 2, Oktober 2011 Universitas Negeri Manado.
[9] Mockmore.C.A. & Merry field. F. (1949). The Banki Water Turbine. Bulletin series. No.25, Oregon state college, Corvallis, USA.
[10] Hitoshi Yamamoto. 1983. “Cross-Flow Hydraulic Turbine and their Power Generating Systems”, Series.68. Japan.
[11] Badan Pusat Statistik Kabupaten Malang. (2021). malangkab.bps.go.id.
Published
2021-08-31
How to Cite
Muhammad Helmi Kurniawan, Iswanda, D., & Annisa Kesy Garside. (2021). Perancangan dan Analisis Potensi Pembangkit Listrik Tenaga Mikro Hidro Di Aliran Sungai Brantas Sengkaling Kabupaten Malang Dalam Rangka Mencapai Target Energy Mix 23% Pada Tahun 2025. Journal of Applied Mechanical Engineering and Renewable Energy, 1(2), 46-52. https://doi.org/10.52158/jamere.v1i2.235
Section
Articles