WATER POWER GENERATOR FOR PUBLIC ROAD ILLUMINATION LIGHTS OF PADI VILLAGE MOJOKERTO

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Authors

  • Akhmad solikin Universitas PGRI Adi Buana Surabaya
  • Rohib Ilma Suktawan Universitas PGRI Adi Buana Surabaya

DOI:

https://doi.org/10.36456/best.vol2.no2.3476

Keywords:

Generator, Public Road Illumination Lights, Rural

Abstract

Electricity problems in rural areas more and more electric power is needed. Until now, power plants that use water turbines are environmentally friendly electricity producers, so the potential for energy from the air needs to be utilized to address the demand for electricity. Therefore, the solution to this problem is to use the "Design and Construction of Hydroelectric Generator for Public Street Lighting".

 The generator is a source of electric voltage obtained by converting mechanical energy into electrical energy. The generator works based on the principle of electromagnetic induction, which is by rotating a coil in a magnetic field so that the induced GGL (Electric Motion Force) arises. In this thesis, a research is conducted on the Water Turbine Generator in the river in the village area of Padi Gondang Mojokerto as an object of water flow in order to generate electric power to reduce crime in the area in the form of a load object in the form of Public Street Lighting.

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References

Agus. R, 2007. Pembangkit Listrik Tenaga Mirko Hidro (PLTMH) : Jurnal Vokasi. Politeknik Negeri Pontianak. Kalimantan Barat.

Anderson, J., 2011. Design and Manufacture of a Cross-Flow Helical Tidal Turbine : Capstone Project Report. University of Washington.Amerika Serikat.

Date, A., 2014. Experimental Performance of a Rotating Two-Phase Reaction Turbine : Applied hermal Engineering. Vol 76. RMIT University. Australia.

Gorlov A.M, 1998. Turbine With a Twist : Journal Macro-Engineering and The Earth World Project for Year 2000 and Beyond. Northeastern University.Boston, MA.

Fox,R.W,Mc Donald,A.T, Pritchard, P.J., 2004. Introduction to Fluid Mechanics.United State of America. John Wiley and Sons, Inc.

Https://www.scribd.com/document/32-5136022/Makalah-Generator-AC-Dan-DC

Kurniawan, I. 2014. Kajian Eksperimental dan Numerikal Turbin Air Helikal Gorlov Untuk Twist Angle 60 dan 120. Jurnal Teknobiologi V(1): 7.

Rochman, Sagita, and Akbar Sujiwa. "Peningkatan Daya Output Generator Listrik Tipe Afpmg Pada Putaran Rendah Menggunakan 3 Rotor Dan 2 Stator."

Sentanu, H., 2013. Pembangkit Listrik Tenaga Mikrohidro. Dapat diunduh di http://mts.ft.ugm.ac.id/download/3. Pemeliharaan dan_Pengoperasian PLTMH AHB Sentanu.pdf. Diunduh pada tanggal 9 Maret 2017

Sihombing, E., 2009. Pengujian Sudu Lengkung Prototipe Turbin Air Terapung pada Aliran Sungai : Jurnal Teknik Mesin. Universitas Sumatera Utara.Sumatera Utara.

Sujiwa, Akbar, and Sagita Rochman. "Pengembangan Sistem Kontrol Serta Monitoring Suhu dan Volume Air Berbasis Web Pada Perangkat Desalinasi Air Laut." SNHRP (2019): 1-9.

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Published

07-09-2020

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