Perbandingan Nilai Daya Luaran Panel Surya Kapasitas 50Wp Terhadap Posisi Reflektor Cermin Datar

  • Arif Sumardiono Politeknik Negeri Cilacap
  • Fadhillah Hazrina Politeknik Negeri Cilacap
  • Arief Syaefulloh Politeknik Negeri Cilacap
Abstract views: 235 , PDF downloads: 236
Keywords: solar energy, power ouput, mirror reflector, solar panel

Abstract

Solar panel systems are widely used to meet energy needs at this time. Solar panels have optimal power for 4 hours, namely 10:00 to 14:00. but this is still said to be not optimal if the angle of the static solar panels does not follow the movement of the sun. This can also be caused by weather factors that are covered in clouds. Previous research conducted by Tri Wahyu Ardianto used mirror reflectors but was not equipped with sensors and data storage. Based on this, to optimize solar panel energy, a flat mirror reflector design for solar panels has been made, equipped with four flat mirror reflectors on each side to form a large square. The solar panel is placed in the middle between the four flat mirrors. In this study, the measurement of electric power was carried out by carrying 3 variable angles for reflector positions, namely 0°, 60°, and 70°. The decision of the three reflector positions is made to find out the ratio of the maximum output power values. This system is also equipped with current, voltage, and light intensity sensors. The results show that the maximum output power of solar panels is shown at the reflector position of 60° with an average power output of 19.70 Watt followed by a reflector position of 70° with an average output power of 19.18 Watt and finally the reflector position is 0° with an average output power value of 14.87 Watt.

References

R. A. Diantari, E. and C. Widyastuti, "Studi Penyimpanan Energi Pada Baterai PLTS," Jurnal Energi & Kelistrikan , vol. IX, no. 2, pp. 120-124, 2017.

A. Setiawan, Y. and S. Handoko, "Analisis Penggunaan Cermin Cekung, Cermin Datar, dan Kombinasi Cermin Cekung-Datar Untuk Meningkatkan Daya Keluran Pada Sel Surya," Transient, vol. IV, no. 4, pp. 1-7, Desember 2015.

Utomo, H. S., Hardianto, T., & Kaloko, B. S. . Optimalisasi daya dan energi listrik pada panel surya polikristal dengan teknologi scanning reflektor. Berkala Sainstek, 5(1), 45-49. 2017

M. Rizali, "Densitas Energi Pada Panel Surya Dengan Variasi Jumlah dan Sudut Reflektor," Al Ulum Sains dan Teknologi, vol. III, no. 2, pp. 97-101, Mei 2018.

Nadandi, Q., Wasistha, B. D., & Nadhiroh, N. . Rancang Bangun Pembangkit Listrik Tenaga Surya dengan Reflektor Alumunium dan Cermin berbasis LabVIEW. ELECTRICES, 3(2), 60-66. 2021

P. K. Tiyas and M. Widyartono, "Pengaruh Efek Suhu Terhadap Kinerja Panel Surya," Jurnal Teknik Elektro, vol. IX, no. 1, pp. 871-876, 2020.

PT. Podomoro Windownesia, "Windownesia," Windownesia, 1 January 2022. [Online]. Available: https://windownesia.co.id/jendela-aluminium-kaca-mati/. [Accessed 7 September 2022].

A. Makkulau, S. and S. Kevin, "Karakteristik Temperatur Pada Permukaan Sel Surya Polycrystalline Terhadap Efektifitas Daya Keluaran Pembangkit Listrik Tenaga Surya," Jurnal Ilmiah Sutet, vol. X, no. 2, pp. 69-78, Desember 2020.

A. "Sistem Parkir Cerdas Sederhana Bebasis Arduino Mega 2560 Rev3," Jurnal Electro Luceat, vol. IV, no. 1, p. Juli, 2018.

F. "Solar Cell Tracking System Dengan Lux Meter Berbasis Arduino Uno R3," Jurnal PROSISKO, vol. VII, no. 2, pp. 132-140, 2020.

S. Hariyanto, "Rancang Bangun REFLEKTOR Untuk Mengoptimalkan Daya Serap Matahari Pada Panel Surya Dengan Variasi Sudut Guna Menghasilkan Daya Optimal," Jurnal Ilmiah TELSINAS, vol. IV, no. 1, pp. 41-45, April 2021.

T. Ratnasari and A. Senen, "Perancangan Prototipe Alat Ukur Arus Listrik AC dan DC Berbasis Mikrokontroller Arduino dengan Sensor Arus ACS-712 30 Ampere," Jurnal SUTET, vol. VII, no. 2, pp. 28-33, 2017.

W. A. Suteja and A. S. Antara, "Analisis Sensor Arus Invasive ACS712 dan Sensor Arus Non Invasive SCT013 Berbasis Arduino," PROtek : Jurnal Ilmiah Teknik Elektro, vol. VIII, no. 1, pp. 13-21, 2021.

A. I. Darmansyah, Tempat Sampah Otomatis Berbasis IOT Menggunakan Sistem Hybrid PV-Grid, Cilacap: Politeknik Negeri Cilacap, 2021

H. W. Fahruri, W. Aribowo, M. Widyartono and A. C. Hermawan, "Monitoring Arus, Tegangan, dan Suhu Pada Prototype Thermoelectric Generator Berbasis IoT," Jurnal Teknik Elektro, vol. X, no. 1, pp. 137-144, 2021.

Kaban, S. A., Jafri, M., & Gusnawati, G. Optimalisasi Penerimaan Intensitas Cahaya Matahari Pada Permukaan Panel Surya (Solar Cell) Menggunakan Cermin. Jurnal Fisika: Fisika Sains dan Aplikasinya, 5(2), 108-117. 2020

Romadhon, H., & Budiyanto, B. (2020). Pemanfaatan Intensitas Radiasi Cahaya Lampu dengan Reflektor Panel Surya sebagai Energi Harvesting. RESISTOR (Elektronika Kendali Telekomunikasi Tenaga Listrik Komputer), 3(2), 45-56

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Published
2023-07-31