Electrical energy has become a human need along with economic improvements and technological advances that require an unlimited supply of energy. Its nature is limited to fossil energy sources and also causes environmental pollution, so it is necessary to use renewable energy as another energy source to overcome this problem. Solar energy is freely available, is an environmentally friendly energy source whose application results have been proven and have promising prospects for the future. This paper presents the results of a research review on the use of solar energy as an alternative source of renewable energy, the basic concept of obtaining it and some results of using this energy. Next, we will briefly review the potential and use of solar energy sources in Indonesia. The high potential of solar energy in Indonesia needs to be processed and regulations that support the development of solar energy power plants as an alternative energy. Technically, solar photovoltaic energy has the potential to become an alternative energy source for the masses in the future as a substitute for fossil energy and to meet the electrical energy needs of remote areas.

Renewable Energy, Solar Energy Power Plants, Alternative Energy, Remote Areas

Abdila, R. (2022). Potensi Energi Surya Indonesia Capai 207,8 Giga Watt, Kapasitas Terpasang Baru 200,1 Mega Watt. Tribunnews.Com.

Ahmadi, H., Made Hermanto, I., Samatowa, L., Rahman, I., Doholio, D. A., & Jau, S. (2023). Studi Eksperimental Penggunaan Kompor Surya Tipe Box Berbasis Energi Matahari Di Kabupaten Bone Bolango: Kinerja Dan Potensi Pemanfaatan Energi Terbarukan. Jurnal Normalita, 11(3), 510–515.

Akmal, S., Meliala, S., Amani, Y., & Jalil, S. M. (2024). Solar Energy Management in Electricity Load Application of Household Room Based on IoT. Journal of Renewable Energy, Electrical, and Computer Engineering, 4(1), 1–9. https://doi.org/10.29103/jreece.v4i1.13425

Al Hakim, R. (2020). Model Energi Indonesia, Tinjauan Potensi Energi Terbarukan Untuk Ketahanan Energi di Indonesia:Literature Review. Andasih, 1(1), 1–11.

Ali, M., & Windarta, J. (2020). Pemanfaatan Energi Matahari Sebagai Energi Bersih yang Ramah Lingkungan. Jurnal Energi Baru & Terbarukan, 1(2), 68–77.

Amba, M. I., & Dalimi, R. (2023). Economic Analysis of Hybrid Power Plant (Solar-Diesel) on Kawaluso Island, North Sulawesi. Jurnal EECCIS, 17(1), 13–21.

Assiddiq, H., Dinahkandy, I., Jurusan, ), Mesin, T., Kotabaru, P., Raya, J., Km, S., & Selatan, K. K. (2018). Studi Pemanfaatan Energi Matahari Sebagai Sumber Energi Alternatif Terbarukan Berbasis Sel Fotovoltaik Untuk Rumah Sederhana Di Daerah Terpencil. Jurnal Teknik Mesin UNISKA, 3(2), 88–93.

Bayu, H., & Windarta, J. (2021). Tinjauan Kebijakan dan Regulasi Pengembangan PLTS di Indonesia. Jurnal Energi Baru Dan Terbarukan, 2(3), 123–132.

Demirbas, M. F. (2007). Electricity Production Using Solar Energy. Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 29(6), 563–569.

Desideri, U., Zepparelli, F., Morettini, V., & Garroni, E. (2013). Comparative Analysis of Concentrating Solar Power and Photovoltaic Technologies: Technical and Environmental Evaluations. Applied Energy, 102, 765–784.

Devabhaktuni, V., Alam, M., Shekara Sreenadh Reddy Depuru, S., Green, R. C., Nims, D., & Near, C. (2013). Solar Energy: Trends and Enabling Technologies. In Renewable and Sustainable Energy Reviews, 19, 555–564.

Dwicaksono, M. B., & Rangkuti, C. (2018). Perancangan, Pembuatan dan Pengujian Kompor Energi Matahari Potabel Tipe Parabola Kipas. Jurnal Penelitian Dan Karya Ilmiah Lembaga Penelitian Universiats Trisakti, 3(2), 37–44.

Faisal, A., & Martin, A. (2022). Tinjauan Potensi dan Kebijakan Energi Surya di Indonesia. Jurnal Engine: Energi, Manufaktur, Dan Material , 6(1), 43–52.

Fathoni, A. M., Utama, N. A., & Kristianto, M. A. (2014). A Technical and Economic Potential of Solar Energy Application with Feed-in Tariff Policy in Indonesia. Procedia Environmental Sciences, 20, 89–96.

Ford, D. H., Rand, J. A., Delledonne, E. J., Ingram, A. E., Bisaillon, J. C., Feyock, B. W., Mauk, M. G., Hall, R. B., & Barnett, A. M. (1999). Briefs High Current, Thin Silicon-on-Ceramic Solar Cell. In IEEE TRANSACTIONS ON ELECTRON DEVICES, 46(10), 2162-2164.

Green, M. A. (2002). Photovoltaic Principles. Physica E, 14, 11–17.

Gultom, T. T. (2015). Pemanfaatan Photovoltaik Sebagai Pembangkit Listrik Tenaga Surya. Jurnal Mundira Indure, 1(3), 33–42.

Helwa, N. H., Bahgat, A. B. G., El Shafee, A. M. R., & El Shenawy, E. T. (2000). Maximum Collectable Solar Energy by Different Solar Tracking Systems. Energy Sources, 22(1), 23–34.

Hutajulu, O. Y., Siregar, B. M., & Mendoza, M. D. (2022). Studi Kelayakan Potensi Penyinaran Matahari 34 Propinsi di Indonesia Untuk Pembangkit Listrik Skala Rumah Tangga. Jurnal Insinyur Profesional, 2(1), 9–15.

Jäger-Waldau, A. (2006). European Photovoltaics in World Wide Comparison. Journal of Non-Crystalline Solids, 352, 1922–1927.

Kannan, N., & Vakeesan, D. (2016). Solar Energy for Future World: - A Review. Renewable and Sustainable Energy Reviews, 62, 1092–1105.

Kershman, S. A., Rheinlander, J., & Gabler, H. (2002). Seawater Reverse Osmosis Powered Tom Renewable Energy Sources-Hybrid Wind/Photovoltaic/Grid Power Supply for Small-Scale Desalination in Libya. DESALINATION , 153, 17–23.

Khan, F. A., Pal, N., & Saeed, S. H. (2018). Review of Solar Photovoltaic and Wind Hybrid Energy Systems For Sizing Strategies Optimization Techniques and Cost Analysis Methodologies. In Renewable and Sustainable Energy Reviews , 92, 937–947.

Kholiq, I. (2015). Pemanfaatan energi Alternatif Sebagai Energi Terbarukan Untuk Mendukung Substitusi BBM. Jurnal IPTEK, 19(2), 75–91.

Kumar, R., & Rosen, M. A. (2011). A Critical Review of Photovoltaic-Thermal Solar Collectors for Air Heating. In Applied Energy, 88 (11), 3603–3614.

Lambert, D. W. H., Holland, R., & Crawley, K. (2000). Appropriate battery technology for a new, rechargeable, micro-solar lantern. Journal of Power Sources, 88, 108–114.

Li, K., Liu, C., Jiang, S., & Chen, Y. (2019). Review on Hybrid Geothermal and Solar Power Systems. Journal of Cleaner Production, 19.

Mekhilef, S., Saidur, R., & Safari, A. (2011). A Review on Solar Energy Use in Industries. In Renewable and Sustainable Energy Reviews, 15(4), 1777–1790.

Mills, D. (2004). Advances In Solar Thermal Electricity Technology. Solar Energy, 76, 19–31.

N.S., M., N.A., G., & G.A., A. (2022). Role of Renewable Energy Sources in the World. Journal of Renewable Energy, Electrical, and Computer Engineering, 2(2), 63. https://doi.org/10.29103/jreece.v2i2.8779

Napitupulu, R. A. M., Manurung, C. S. P., & Naibaho, W. (2022). Pengaruh Material Reflektor Terhadap Kinerja Kompor Energi Surya. Jurnal Of Mechanical Engginering, 3(2), 94–105.

Nozik, A. J. (2003). Photoelectrochemistry Applications to Solar Energy Conversion. Annual Review of Physical Chemistry, 29(1), 189–222.

Nugraha, Y. T., & Irwanto, M. (2022). Modelling Demand for Energy Sources as Alternative Energy in the Province of North Sumatra. Journal of Renewable Energy, Electrical, and Computer Engineering, 2(2), 84. https://doi.org/10.29103/jreece.v2i2.9278

Panwar, N. L., Kaushik, S. C., & Kothari, S. (2011). Role of renewable energy sources in environmental protection: A review. In Renewable and Sustainable Energy Reviews, 15(3), 1513–1524.

Parida, B., Iniyan, S., & Goic, R. (2011). A review of solar photovoltaic technologies. In Renewable and Sustainable Energy Reviews, 15(3), 1625–1636.

Powell, K. M., Rashid, K., Ellingwood, K., Tuttle, J., Iverson, B. D., Powell, K. M., Rashid, K., Iverson, &, Powell, K. M. ;, Rashid, K. ;, Ellingwood, K. ;, Tuttle, J. ;, & Hybrid, ". (2017). Hybrid Concentrated Solar Thermal Power Systems: A Review. BYU ScholarsArchive, 80, 215–237.

Putra, B. R., Kariongan, J., Aryo, J., Bay, P. B., Liga, M., Sinaga, A. S., Wuri, D. T., Disetujui, ;, & Abstrak, P. B. B. (2023). Perancangan Pembangkit Listrik Tenaga Hybrid (Photovoltaic-Mikrohidro) Menuju Desa Mandiri Energi Di Kampung Dosay, Distrik Sentani Barat, Kabupaten Jayapura, Papua. Teletronic, 1(1), 1–11.

Safrizal, Muhammad, G., Azizah, N., Darmoto, Ariyanto, D., & Amelia, V. R. (2022). Program Kemitraan Masyarakat Inovasi Reserve Energy Hybrid (Wind Turbine, Solar Cell Dan Generator) Di Pemerintah Desa Tegal Sambi Kabupaten Jepara. Indonsian Collaboration Journal of Community Servises, 2(3), 187–192.

Samsurizal, Christiono, & Husada, H. (2020). Studi Kalayakan Pemanfaatan Energi Matahari... Jurnal Ilmiah Setrum, 9(1), 75–83.

Sari, L. K., Munawwir, Z., & Umamah, C. (2024). Efficiency of Solar Cookers with Different Geometric Shapes Over the Last Decade: A Comprehensive Review. Journal of Renewable Energy, Electrical, and Computer Engineering, 4(1), 32–41. https://doi.org/10.29103/jreece.v4i1.13764

Sawle, Y., Gupta, S. C., & Bohre, A. K. (2016). PV-Wind Hybrid System: A Review with Case Study. Cogent Engineering, 3(1), 1–31.

Shafiee, S., & Topal, E. (2009). When will fossil fuel reserves be diminished? Energy Policy, 37(1), 181–189.

Sibarani, E. S., Maizana, D., Mungkin, M., Isa, M., & Pandey, G. P. (2022). Design and development of 10 WP Solar panel tracking system based on RTC and Arduino. Journal of Renewable Energy, Electrical, and Computer Engineering, 2(2), 55. https://doi.org/10.29103/jreece.v2i2.8568

Sitepu, T., Malau, A. T., Cholish, & Abdullah. (2021). Design and Build Solar Panels as Source Rice Thresher Motor Energy. Journal of Renewable Energy, Electrical, and Computer Engineering, 1(2), 58. https://doi.org/10.29103/jreece.v1i2.5233

Soelistio, A. T. (2016). Paper Pembangkit Listrik Tenaga Surya (PLTS).

Solar Energy Technologies Office. (n.d.). Concentrating Solar-Thermal Power Basics. U.S. DEPARTEMENT OF ENERGY. Retrieved 2 March 2024, from https://www.energy.gov/eere/solar/concentrating-solar-thermal-power-basics

Wullur, C. W., Sahupala, P., & Pareden, D. (2020). Penggunaan Kompor Energi Matahari Untuk Rumah Tangga. MUSTEK ANIM HA, 9(1), 1–6.