An Analysis of Solar-Wind Hybrid Power Plants for Practical Learning
Keywords:
Hybrid, Sustainable_ Energy, Innovation
Abstract
A hybrid solar-wind power plant is a combination of two renewable energy sources, namely solar and wind energy, used to generate electricity. This study aims to analyze the performance and efficiency of a hybrid solar-wind power system as a practical learning tool. The research methodology involves collecting performance data from solar panels and wind turbines, as well as analyzing the integration of these two energy sources. The results show that the hybrid system can enhance the stability and continuity of electricity supply compared to using a single energy source. The implementation of a hybrid solar-wind power plant as a learning tool provides students with a deeper understanding of the application of renewable energy technologies and encourages innovation in the field of sustainable energy.
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References
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Anisah, S. (2024). Analysis of Hybrid Power Generation System (Solar Cells & Wind Turbine) for Residential Electricity. 13(2), 203–207.
Aryza S etal (2024) A ROBUST OPTIMIZATION TO DYNAMIC SUPPLIER DECISIONS AND SUPPLY ALLOCATION PROBLEMS IN THE MULTI-RETAIL INDUSTRY. Eastern-European Journal of Enterprise Technologies, (3).
Aris, M., Sunardi, A., & Ariyansah, R. (2023). Analysis of Wind Power Plants as Rooftop Area Lighting for Campus C Jgu. Journal of Mechanical, Electrical, Informatics, Marine and Science Engineering, 3(1), 10–16. https://doi.org/10.30598/metiks.2023.3.1.10-16
Basri, MH, & . D. (2019). Design and Construction of Savonious Model Wind Power Plant Prototype. Symmetric Journal, 9(2), 208–214. https://doi.org/10.31959/js.v9i2.411
Dewan, SJ, Nasional, E., & Siswanto, D. (nd). National Energy Mix 2020 Responsible Peer Reviewer.
Gunawan, G., Suanggana, D., & Priyanto, YTK (2020). Effect Of Deflector Angle Into Various Blades Configuration Of Single Stage Vertical Axis Savonius Hydro Turbine Performance. FLYWHEEL : Jurnal Teknik Mesin Untirta, 1(1), 1. https://doi.org/10.36055/fwl.v1i1.8950
Hadiatna, F., Fauziah, D., & Syahirah, E. (2023). Feasibility Study of Solar Wind Hybrid Power Plant in Bandung City. ELKOMIKA: Journal of Electrical Energy Engineering, Telecommunication Engineering, & Electronic Engineering, 11(3), 811. https://doi.org/10.26760/elkomika.v11i3.811
Hamdani, Hamdani; Tharo, Zuraidah; Anisah, Siti; Aryza, Solly (2018). Economical Value Comparison Using Generator Sets, Solar Power Plants And Rechargeable Batteries As A Backup Power Source In Residential
Jamal, J. (2018). The Effect of the Number of Blades on the Performance of U-Type Vertical Savonius Wind Turbines. Ujung Pandang State Polytechnic, 6(1), 64–68.
Latif, M. (2013). Savonius Turbine Prototype Efficiency at Low Wind Speed. Journal of Electrical Engineering, 10(3). Https://Doi.Org/10.17529/Jre.V10i3.1030
Seftyan Harry Wahyuda Tama. (2018). Design of Wind Power Plant Using Turbine Ventilator as Alternative Energy Source. Electrical Engineering, 12(3), 1–84.
Sepdian, S. (2020). Hybrid Power Plant Based on Solar Energy and Wind Energy. Journal of Applied Electrical Electronics and Information Technology, 1(1), 23. Https://Doi.Org/10.37338/E.V1i1.95
Tharo, Z. (2019). Combination of Solar and Wind Power Plants to Create Cheap and Environmentally Friendly Energy. 12(2).
Tharo, Z., & Andriana, M. (2022). Hybrid Solar and Wind Power Plants as Alternative Sources to Face the Fossil Energy Crisis in Sumatra.
Zuraidah Tharo, Erwin Syahputra, Rahmad Mulyadi (2022). Analysis Of Saving Electrical Load Costs With A Hybrid Source Of Pln-Plts 500 Wp. Journal of Applied Engineering and Technological Science (JAETS). Vol 4(1) 2022 : 235-243
Published
2024-11-29
How to Cite
Zuraidah Tharo, Siti Anisah, & Fatur Rahman. (2024). An Analysis of Solar-Wind Hybrid Power Plants for Practical Learning. INFOKUM, 12(04), 117-128. Retrieved from https://infor.seaninstitute.org/index.php/infokum/article/view/2856
Section
Articles
