Desain Sudut Elevasi Panel Surya Untuk Penerangan Jalan

Authors

  • Rosalina Universitas Muhammadiyah Prof. Dr. Hamka

Keywords:

Panel Surya, Sensor Panel Surya Mini, Sudut Elevasi Panel Surya

Abstract

Sun light that appears in the morning carries electron molecules which will radiate its rays across the surface of the earth. Utilizing this radiation from the sun, we will get the electric power carried by electromagnetic waves if we put it on the solar panel that we have prepared by directing it perpendicular to the rotating motion of the sun. The design of the solar panel elevation angle uses the Arduino ATmega2560 as a system controller and solar panel sensors to sense the direction of the sun's moti on. The purpose of this design is to find the maximum radiation based on the time of sunrise and sunset as well as the azimuth and elevation angles so as to increase battery charge. The results of the solar panel testing by making a computer programming application and assembling a rotary device using a motor and solar sensor were obtained the greatest power in the second test, which was 1.01867Watt, so that the battery charging time took ± 7 hours. The maximum radiation received on the solar panel is at an angle of 110o for azimuth, while for an elevation of 1o, it is 1233.0 (MJ / m2 / day). The amount of total radiation received by the solar panels for one day is 10690.2448Wms-2 in the third test. This means that directing the solar panels perpendicularly can maximize the work of the solar panels.

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Author Biography

Rosalina, Universitas Muhammadiyah Prof. Dr. Hamka

Department of Electrical Engineering
Faculty of Engineering

References

Y. Widiatmoko, “Prototype Pemanfaatan Solar Cell Sebagai Sumber Energi Pada Sistem Otomatisasi Lampu Penerangan Taman.”

W. Roni Syafrialdi, “Rancang Bangun Solar Tracker Berbasis Mikrokontroler Atmega8535 Dengan Sensor Ldr Dan Penampil Lcd,” vol. 4, no.2, pp. 113–122, 2015.

D. Suryana, “Otomatisasi pada Panel Surya menggunakan Sistem Tracking Aktif Tipe Single - Axis Automation Single Axis Type of Active System Tracking on,” vol. 2, no. 1, 2016. 4. B. Sitorus, I. H. Tumaliang, and L. S. P. St, “Perancangan Panel Surya Pelacak Arah Matahari Berbasis Arduino Uno,” vol. 5, no. 3, pp. 1–12, 2015.

F. Riskiya, “Sensor Cahaya,” 2015.

K. Pangestuningtyas, D L, Hermawan, “Analisis Pengaruh Sudut Kemiringan Panel Surya Terhadap Radiasi Matahari Yang Diterima Oleh Panel Surya Tipe Larik Tetap,” vol. 2 NO. 4, pp. 0–7, 2013.

H. Asy’ari, Jatmiko, and Angga, “Intensitas Cahaya Matahari Terhadap Daya Keluaran Panel Surya,” pp. 52–57, 2013.

B. Yuwono, “Optimalisasi Panel Sel Surya Dengan Menggunakan Sistem Pelacak Berbasis Mikrokontroler AT89C51,”.

A. E. Dewi, “Optimalisasi Rangkaian Panel Sel Surya Dengan Menggunakan Battery pb-acid Sebagai Sistem Penyimpanan Energi Surya.”

K. Fadhulullah, “Rancang Bangun Solar Tracking Sistem Berbasis Arduino,” 2017.

L. N. Zulita, “Perancangan Murtal Otomatis Menggunakan Mikrokontoller Arduino Mega 2560,” vol. 12, no. 1, pp. 89–98, 2016.

M. Saleh, “Rancang Bangun Sistem Keamanan Rumah Menggunakan Relay,” vol. 8, no. 3, pp. 181–186, 2017.

S. Nasution, J. T. Elektro, and P. N. Jakarta, “Analisis Sistem Kerja Inverter untuk Mengubah Kecepatan Motor Induksi Tiga Phasa sebagai Driver Robot,” vol. 3, no. 2, pp. 139–143, 2012.

A. Priyono, “Rancang Bangun Penggerak Panel surya Mengikuti Matahari Secara Vertikal Di,” vol. 78124, no. 0561.

H. E. Hardianto and R. S. Rinaldi, “Perancangan Prototype Penjejak Cahaya Matahari Pada AplikasiPembangkit Listrik,” vol. 2, no.

September, pp. 208– 215, 2012. 16. M. T. Kantori, Z. Sugianto, M. I. Nugraha, and A. Febriansyah, “Mobile Robot Pemain Bola : Aplikasi Pada KRSBI 2017,” 2017.

T. M. A. Pandria, P. Studi, T. Industri, F. Teknik, and U. T. Umar, “Penentuan Kemiringan Sudut Optimal,” vol. 3, pp. 123–131, 2017.

K. J. Pangestuningtyas Diah L, Hermawan, “Analisis Pengaruh Sudut Kemiringan Panel Surya Tipe Array Tetap terhadap Energi yang Dihasilkan pada Solar Home System ( SHS ).”

S. Pandey, “Solar Panel Tracking Control,” no. July, 2016.

S. V. Larios, Leonardo , Bryce Smith, “Sun Tracking Solar Panel,” no. 35, 2017.

E. Liedholm, “Tracking the maximum power point of solar panels,”.

Published

2021-01-01

How to Cite

Rosalina. (2021). Desain Sudut Elevasi Panel Surya Untuk Penerangan Jalan. Prosiding Seminar Nasional Teknoka, 5, 173–182. Retrieved from https://journal.uhamka.ac.id/index.php/teknoka/article/view/10272

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