Simulation of Piko Hydro Power Generator Using Thread Turbine With 10 Watt Power

Authors

  • Afrizal State Polytechnic of Cilacap
  • Novita Asma Ilahi State Polytechnic of Cilacap
  • Riyani Prima Dewi State Polytechnic of Cilacap
  • Usman Barokah State Polytechnic of Cilacap

DOI:

https://doi.org/10.33795/jartel.v12i2.329

Keywords:

Piko hydro, DC generators, Threaded turbine, arduino uno, INA219 sensor

Abstract

Renewable energy is one of the efforts to utilize electricity from renewable energy sources. Hydroelectric power is one of the plants that utilizes water as the main energy. Although the amount of energy is abundant, but in Indonesia the use of water as a power plant is still below 7%. This is due to the lack of human resources to manage water energy. Therefore, in this study, a simulation of a pico-hydro power plant using a screw turbine was designed which is expected to provide benefits. This tool is equipped with digital monitoring using Arduino Uno. Power monitoring on this tool uses the INA219 power sensor which is displayed on the LCD display. This tool uses a 12-24V DC generator. The turbine used is a screw turbine type. This pico-hydro power plant simulation is capable of turning on a load equivalent to 1 lamp of 10 watts/12 VAC with an inverter. The measurement of the current and voltage of the generator shows that the average current reaches 11.75 mA and the average voltage produced is 2.11 VDC and the power generated is 24.82 mW. The resulting step-up voltage measurement to charge the battery is 13.04 VDC and the current is 12.4 mA and the battery charging power is 0.161 watts.

Author Biography

Afrizal, State Polytechnic of Cilacap

Electronics Engineering

References

V. Dwiyanto., “Analisis Pembangkit Listrik Tenaga Mikro Hidro (PLTMH) Studi Kasus Sungai Air Anak (Way Besai)”. Journal Rekayasa Sipil Dan Desain (JRSDD). Vol 4, No 3. 407 – 422. 2016.

H. Waluyo.. R. Purnama., B. Firmansyah., R. Fathoni., “Pengelompokan Wilayah Sungai di Indonesia dengan Analisis Komponen Utama”. Malang: Pusat Penelitian dan Pengembangan Sumber Daya Air, Badan Litbang Pekerjaan Umum dan Perumahaan Rakyat. 2021.

S. Sri., K. Adhi., “Perencanaan Pembangkit Listrik Tenaga Mikro Hidro (PLTMH) Jantur Tabalas Kalimantan Timur”. Semarang: Universitas Negeri Semarang. 2013.

H. Budi Harja., A. Halim., S. Yoewono., H. Riyanto., “Penentuan Dimensi Sudu Turbin Dan Sudut Kemiringan Poros Turbin Pada Turbin Ulir Archimedes”. Bandung : FTMD Institut Teknologi Bandung. 2014.

S.T. Mirzan., “Rancang Bangun Prototipe Pembangkit Listrik Tenaga Piko Hydro Dengan Menggunakan Turbin Ulir”. Darussalam, Banda Aceh. 2013.

Direktur Aneka Energi Baru Dan Energi Terbarukan. PowerPoint Presentation : Solusi Listrik Off-Grid Berbasis Energi Terbarukan di Indonesia. Jakarta. Kementerian Energi Dan Sumber Daya Mineral. 2016.

I Gede Widnyana Putra., Antonius Ibi Weking., Lie Jasa. “Analisa Pengaruh Tekanan Air Terhadap Kinerja PLTMH dengan Menggunakan Turbin Archimedes Screw”. Majalah Ilmiah Teknologi Elektro, Vol. 17, No.3. 2018.

Menteri Riset Dan Teknologi Republik Indonesia. Tekno, Oke zone. https://techno.okezone.com/read/2020 /01/23/56/2157020/pertama-di-indonesia-pembangkit-listrik-mikrohidro-gunakan-turbin-ulir (diakses pada 06 Juni 2022).

Surbakti, Filo Christian and Hendra, Eng and Hoten, Hendri Van. “Manufacturing Screw Turbin Untuk Pembangkit Listrik Tenaga Micro Hidro (PLTMH)”. Undergraduated thesis, Universitas Bengkulu. 2014.

Muyasar, Athariq Dias. “Optimalisasi Turbin Ulir Archimedes Pembangkit Listrik Tenaga Mikrohidro Skala Laboratorium Dengan Variasi Gearbox”. Undergraduate thesis, Institut Teknologi Sepuluh Nopember. 2021

Musyafiq, A. A., Firdaus, D. M., Aji, G. M., & Susanti, H. Prototipe Alat Pemarut Ubi Kayu Menggunakan sensor Infrared E18-D50nk Berbasis Mikrokontroler Atmega 2560 Dilengkapi Monitor Arus Dan Tegangan. TEKNO: Jurnal Teknologi Elektro dan Kejuruan, 32(1), 233-243. 2022.

Musyafiq, A. A., & Purwanto, R. Peramalan Permintaan Pasokan Energi Berdasarkan Intensitas Konsumsi Listrik dan Kapasitas Pembangkit Listrik Terpasang. Infotekmesin, 12(1), 65-70. 2021

Q. Ali, A. Raza, S. Narjis, S. Saeed, M. T. I. Khan, Potential Of Renewable Energy, Agriculture, And Financial Sector For The Economic Growth: Evidence From Politically Free, Partly Free And Not Free Countries, Renewable Energy, Vol. 162, p. 934-947, 2020.

Li, L., Yao, Z., You, S., Wang, C.H., Chong, C., Wang, X. Optimal Design Of Negative Emission Hybrid Renewable Energy Systems With Biochar Production. Jurnal Applied Energy, Vol. 243, 01 Juni 2019, hlm. 233-249. 2019.

Masaki, M.S., Zhang, L., Xia, X. A Hierarchical Predictive Control For Supercapacitor - Retrofitted Grid - Connected Hybrid Renewable Systems. Jurnal Applied Energy, Vol. 242, 15 Mei 2019, hlm. 393-402. 2019.

Luta, D.N., Raji, A.K. Optimal Sizing Of Hybrid Fuel Cell - Supercapacitor Storage System For Off-Grid Renewable Application. Jurnal Energy, Vol. 166, 01 Januari 2019, hlm. 530-540. 2019

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Published

2022-06-29

How to Cite

[1]
A. Abdi Musyafiq, N. Asma Ilahi, R. Prima Dewi, and U. Barokah, “Simulation of Piko Hydro Power Generator Using Thread Turbine With 10 Watt Power”, Jartel, vol. 12, no. 2, pp. 100-104, Jun. 2022.