د. حامد يهمانيد. سيرجي فيريمييف2024-12-102024-12-10https://dspace.academy.edu.ly/handle/123456789/748The escalating global energy demand, driven by population growth and industrial expansion, necessitates a shift towards clean, renewable energy sources. Presently, fossil fuels dominate global energy production, despite their adverse environmental impacts. Consequently, numerous countries are exploring renewable energy, with solar power leading the charge. Libya, grappling with energy challenges exacerbated by past conflicts, is focusing on enhancing its renewable energy sector, particularly solar and wind power. To this end, 2MW GCPV system was modelled using the MATLAB/SIMULINK software tool. The system was configured as a double-stage grid-connected system, comprising five PV arrays of 400kW each. The system underwent comprehensive evaluation from various perspectives. Initially, tests were conducted under diverse levels of irradiance and temperature, accompanied by FFT analysis. The findings reveal that solar irradiance exerts a more pronounced impact on the system's performance compared to temperature. The control strategy of the system demonstrated its efficacy on maintaining constant DC voltage, irrespective of changes in weather conditions.The escalating global energy demand, driven by population growth and industrial expansion, necessitates a shift towards clean, renewable energy sources. Presently, fossil fuels dominate global energy production, despite their adverse environmental impacts. Consequently, numerous countries are exploring renewable energy, with solar power leading the charge. Libya, grappling with energy challenges exacerbated by past conflicts, is focusing on enhancing its renewable energy sector, particularly solar and wind power. To this end, 2MW GCPV system was modelled using the MATLAB/SIMULINK software tool. The system was configured as a double-stage grid-connected system, comprising five PV arrays of 400kW each. The system underwent comprehensive evaluation from various perspectives. Initially, tests were conducted under diverse levels of irradiance and temperature, accompanied by FFT analysis. The findings reveal that solar irradiance exerts a more pronounced impact on the system's performance compared to temperature. The control strategy of the system demonstrated its efficacy on maintaining constant DC voltage, irrespective of changes in weather conditions.Feasibility of Solar Energy and its Ability to Support Libyan Grid in Facing its Energy Crisis