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Kaynar, “Yenilenebilir Enerji Kaynaklarından Güneş Enerjisinin Amasya İlindeki Potansiyeli Potential of Solar Energy from Renewable Energy Sources in Amasya,” Bilge International Journal of Science and Technology Research, pp. HOMER Energy LLC, “HOMER Pro Version 3.7 User Manual,” HOMER Energy. Ramayya, “Techno-economic analysis of grid-integrated PV/wind systems for electricity reliability enhancement in Ethiopian industrial park,” Sustainable Cities and Society, vol. NASA-POWER, “NASA POWER, Prediction Of Worldwide Energy Resources.” (accessed Sep. REPA, “Wind energy potential atlas.” Accessed: Feb. GEPA, “Solar energy potential atlas.” (accessed Jun. Güler, “Economic analysis of grid-connected residential rooftop PV systems in Turkey,” Renewable Energy, vol. Veilleux et al., “Techno-economic analysis of microgrid projects for rural electrification: A systematic approach to the redesign of Koh Jik off-grid case study,” Energy for Sustainable Development, vol. Ramli, “Optimal design and analysis of grid-connected photovoltaic under different tracking systems using HOMER,” Energy Conversion and Management, vol. Mérida, “Hybrid energy systems for off-grid power supply and hydrogen production based on renewable energy: A techno-economic analysis,” Energy Conversion and Management, vol.
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Gupta, “Computational Simulation & Optimization of a Solar, Fuel Cell and Biomass Hybrid Energy System Using HOMER Pro Software,” Procedia Engineering, vol. Sharshir, “A systematic decision-making approach for planning and assessment of hybrid renewable energy-based microgrid with techno-economic optimization: A case study on an urban community in Egypt,” Sustainable Cities and Society, vol.
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Tabet, “Comparative analysis of hybrid renewable energy systems for off-grid applications in Southern Cameroons,” Renewable Energy, vol. Poustdouz, “A renewable energy solution for stand-alone power generation: A case study of KhshU Site-Iran,” Renewable Energy, vol. Senjyu, “Operation of conventional and unconventional energy sources to drive a reverse osmosis desalination plant in Sinai Peninsula, Egypt,” Renewable Energy, vol. Kennedy, “City-integrated renewable energy design for low-carbon and climate-resilient communities,” Applied Energy, vol. AJAYI, “Optimal Design and Cost Analysis of Hybrid Autonomous Distributed Generation System for a Critical Load,” EMITTER International Journal of Engineering Technology, vol. Sekerci, “Analysis of Economic Effects of Different Control Strategies in a Hybrid Energy System,” in 2020 Innovations in Intelligent Systems and Applications Conference (ASYU), Oct. “Ministry of Energy and Natural Resources.” (accessed Feb. Şekerci, “Dünyada ve Ülkemi̇zde Önemli̇ Elektri̇k Çöküntüleri̇,” ETUK - National Congress and Exhibition of Electrical Installation, pp. Strasser et al., “A Review of Architectures and Concepts for Intelligence in Future Electric Energy Systems,” IEEE Transactions on Industrial Electronics, vol. Sharma, “A review on configurations, control and sizing methodologies of hybrid energy systems,” Renewable and Sustainable Energy Reviews, vol. The CC was found to be more suitable for the research region than LF in terms of both Cost of Energy (COE) and Net Preset Cost (NPC). According to the results obtained as a result of the simulations, it has been revealed that the research region to operate with CC can supply to the electrical energy demand with lower capacity system architecture. In the paper, two different control strategies are determined as Cycle Charging (CC) and Load Following (LF), and then the control strategies are compared. It has been shown that how changes cost of the hybrid energy system sizing according to the control strategies by using the HOMER software. In this study, a feasibility analysis was carried out for a hybrid energy system using solar and wind energy sources to supply to uninterrupted electricity demand of a region with 100 villas in Izmir, Turkey. Nowadays, off-grid systems, which do not require grid connection investment instead of grid connected systems, have become quite feasible.