Performance Study of Monocrystalline Type Solar Panels for Street Lighting in Sibolga Area
##plugins.themes.academic_pro.article.sidebar##
Download : 0
##plugins.themes.academic_pro.article.main##
Abstract
In the Sibolga area, there is still a shortage of electricity supply, especially for street lighting, so accidents often occur, meanwhile there has a relatively large average solar radiation intensity is 4,784 Wh/m2/day so that potential for PLTS installation. This research aims to determine the performance of monocrystalline solar panels with the addition of a heatsink cooling fan in street lighting. The method used is an experimental. The test begins with the survey, potential calculation, design, testing, data collection and analysis. The solar panel used monocrystalline 10 WP with a heatsink cooling fan. The parameters are the panel temperature, voltage, and current from the solar panel. The results obtained are the temperature on the solar panel without heatsink cooling fan reaches 56.10°C with efficiency 11% and on the solar panel with heatsink cooling fan only gets 45.50°C with efficiency increases to 13%. This shows that the addition of a heatsink cooling fan has succeeded in cooling the temperature of the solar panels and increasing the efficiency level of solar panel performance for street lighting.
##plugins.themes.academic_pro.article.details##
This work is licensed under a Creative Commons Attribution 4.0 International License.
Copyright (c): Yuli Mafendro Dedet Eka Saputra, Mochamamd Tendi Noer Ramadhan (2023)References
[2] EngelbertusTomy, “Perencanaan Pembangkit Listrik Tenanga Surya Untuk Catu Daya Tambahan Pada Hotel Kini Kota Pontianak.” 2018.
[3] A.B. Ajayi and O.A. Majekondumi, “Comparison of Power Output from Solar panle with Reflecctor and without Reflector” International Journal of Science and Engineering Applications, DOI: 10.7753,IJSEA0708.1013, 2018.
[4] D. Almanda and D. Bhaskara, “Studi Pemilihan Sistem Pendingin pada Panel Surya Menggunakan Water Cooler, Air Mineral dan Air Laut,” Resist. (elektRonika kEndali Telekomun. tenaga List. kOmputeR), vol. 1, no. 2, p. 43, 2018, doi: 10.24853/resistor.1.2.43-52
[5] A. Pawawoi and Z. Zulfahmi, “Penambahan Sistem Pendingin Heatsink Untuk Optimasi Penggunaan Reflektor Pada Panel Surya,” J. Nas. Tek. Elektro, vol. 8, no. 1, p. 1, 2019, doi: 10.25077/jnte.v8n1.607.2019.
[6] T. M. Sya’rani D, I. D. Sara, and L. Hilma Sari, “Pengaruh Heatsink Terhadap Kinerja Modul Surya,” J. Nas. Komputasi dan Teknol. Inf., vol. 2, no. 1, p. 13, 2019, doi: 10.32672/jnkti.v2i1.1051.
[7] D. S. Harafany, S. Prasetya, and ..., “Perbandingan Efisiensi Panel Surya Dengan Pemanfaatan Heatsink dan Pengaruh Instalasi Sensor Pada Panel Surya,” Semin. Nas. Tek. …, pp. 260–269, 2021, [Online]. Available: http://prosiding.pnj.ac.id/index.php/sntm/article/view/4103
[8] K. A. Fatoni et al “Solar Panel Performance Improvement usinng Heatsink Fan as the Cooling Effect” Journal of Physics Conference Series 1167(1): 012031, DOI:10.1088/1742-6586/1167/1/012031, 2019
[9] S. D. Kapasitas, “ANALISIS OUTPUT DAYA PADA PEMBANGKIT LISTRIK TENAGA,” vol. 4, no. 2, pp. 9–18, 2021.
[10] S. Eka, P. Pagan, I. D. Sara, and H. Hasan, “Komparasi Kinerja Panel Surya Jenis Monokristal Dan Polykristal Studi Kasus Cuaca Banda Aceh,” J. Karya Ilm. Tek. Elektro, vol. 3, no. 4, pp. 19–23, 2018.
[11] S. A. Rakino, “Sistem Pendingin Pasif untuk Meningkatkan Daya Keluaran Panel Sel Surya,” Repos. Institusi USU, p. 47, 2019, [Online]. Available: http://repositori.usu.ac.id
[12] A. Rahim, Yandri, and K. Hee Khwee, “Penggunaan Pendingin Thermo-Electric (Peltier) Untuk Menurunkan Temperatur Permukaan dalam Meningkatkan Daya Keluaran Panel Surya,” J. Tek. Elektro, vol. 1, no. 1, 2019.
[13] Rudy Arnax Priliawan, “Digital Digital Repository Repository Universitas Universitas Jember Jember Digital Digital Repository Repository Universitas Universitas Jember Jember Text Mining pada Media Sosial Twitter,” Skripsi, pp. 1–99, 2017.