The Energy Produced By 150 Watt Monocrystalline Solar Panels In Metro City

Muhammad Barkah Salim, Novita Intan Kusuma, Nyoto Suseno

Abstract


Researchers have conducted research on the energy produced by 150 watt solar panels in the city of metro. This research was conducted because many solar panels have been made, but it has not yet been identified how much energy is actually produced. In addition, to find out whether the city of metro is feasible to use solar panels. The purpose of this study was to determine the energy produced by 150 watt solar panels in the city of metro. The research method used is experimental research. Researchers conducted for five days from 08.00 AM to 04.00 PM. After doing the research, it was found that the energy that could be produced in the solar panel in one day was 876,507 joule. The value of the effectiveness of solar panels in the city of metro has a value of 100% with criteria for proper use.

Keywords


Solar Panel; Energy; Experimental Research

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References


BPS Kota Metro. (2018). Kota Metro Dalam Angka. BPS Kota Metro.

Walisiewicz, M. (2002). Energi Alternatif. Jakarta: Erlangga.

Halliday, D. (2010). Fisika Dasar. Jakarta: Erlangga.

Harjanto, N. T. (2016). Dampak lingkungan pusat listrik tenaga fosil dan prospek pltn sebagai sumber energi listrik nasional. PIN Pengelolaan Instalasi Nuklir, 1(01).

Latief. (2018). Pemerintah Terus Dorong Pemakaian Energi baru dan Terbarukan. [Online]. Available: https://ekonomi.kompas.com/read/2018/09/21/203200526/pemerintah-terus-dorong-pemakaian-energi-baru-dan-terbarukan.

Salim, M. B., & Rajabiah, N. (2019). Analisis Kemampuan Panel Surya Monokristalin 150 Watt pada Arus dan Pengisian yang Dihasilkan. JIPFRI (Jurnal Inovasi Pendidikan Fisika Dan Riset Ilmiah), 3(1): 29-35.

Sunaryo, S., Budi, A. R., Ruliana, R., & Kholimah, S. (2015). Kajian Fisis Energi Terbarukan Panel Surya Melalui Eksperimen Sederhana untuk Siswa SMA. Jurnal Penelitian & Pengembangan Pendidikan Fisika, 1(2): 81-88.

Iskandar , S., & Djuanda. (2017). Konversi Energi, 1st ed. Yogyakarta: DEEPUBLISH.

Saripudin, A. (2008). Fisika, 2A ed. Bandung: Grafindo.

Yuliananda, S., Sarya, G., & Hastijanti, R. R. (2015). Pengaruh perubahan intensitas matahari terhadap daya keluaran panel surya. JPM17: Jurnal Pengabdian Masyarakat, 1(02).

Parastiwi, A., Putri,, R. I., Adhisuwignjo, S., & Rifa, M. (2018). Photovoltaic Terapan: Photovoltaic Terapan (Vol. 1). UPT Percetakan dan Penerbitan Polinema.




DOI: http://dx.doi.org/10.26737/jipf.v5i2.1493

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