Design of Solar Rooftop Using Helioscope in The Gazebo of Pelabuhan Ratu Coal Power Plant
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Abstract
Research on simulating the design of a solar power plant in the village of Wantilan Antosari aims to promote the use of new renewable energy sources. The method of PLTS is completed by paying attention to and accounting for the tilt angle in the Helioscope Software, designing the positioning of solar panel modules, designing inverters, configuring circuits, accounting for the number of batteries used, choosing Battery Control Units, and calculating investment. According to the simulation run by the helioscope program, nine solar modules at an angle of 58.7 can power a battery with a 500Ah capacity. The simulation also establishes an inverter with a 24.06kW inverter that generates 4.0 kWp power.
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Accepted 2022-12-01
Published 2023-01-31
References
[1] Bambang Wijiatmoko, "NRE is important for the future of national energy security," Tuesday, November 7, 2017
[2] Institute for Essential Services Reform, "ENERGY UPDATE: Energy for Now and Later", November 8, 2018
[3] Sidik, A. D. W. M., & Akbar, Z. (2021). Analyzing the Potential for Utilization of New Renewable Energy to Support the Electricity System in the Cianjur Regency Region. Fidelity: Jurnal Teknik Elektro, 3(3), 46-51.
[4] Widodo, D. A., Purwanto, P., & Hermawan, H. (2020). Potential of solar energy in residential rooftop surface area in Semarang city, Indonesia. Advances in Science, Technology and Engineering Systems Journal, 5(4), 397-404.
[5] Genske, D. D., & Pradipta, G. M. (2022). Renewable Energy Potentials. In Establishing Plus-Minus-Energy-Regions: The Maluku Archipelago in Indonesia (pp. 95-110). Cham: Springer International Publishing.
[6] Ariyani, S., Wicaksono, D. A., Fitriana, F., Taufik, R., & Germenio, G. (2021). Studi Perencanaan dan Monitoring System Pembangkit Listrik Tenaga Surya di Remote Area. Techné: Jurnal Ilmiah Elektroteknika, 20(2), 113-124.
[7] Dwiyanto, A., Yudono, M. A. S., De Wibowo, A., Artiyasa, M., & Suryana, A. Potential Use of Building for Photovoltaic Rooftop in Giri Adipura Terminal, Wonogiri Regency, Central Java Province.
[8] Li, H. X., Zhang, Y., Edwards, D., & Hosseini, M. R. (2020, April). Improving the energy production of roof-top solar PV systems through roof design. In Building Simulation (Vol. 13, pp. 475-487). Tsinghua University Press.
[9] Tambunan, H. B. (2022, October). A Bibliometric Study of Solar Photovoltaic. In 2022 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP) (pp. 180-185). IEEE.
[10] Tambunan, H. B. (2022, October). Electric Vehicle Integration Into Electrical Power System: A Bibliometric Review. In 2022 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP) (pp. 65-70). IEEE.