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Simulating the Energy, Economic and Environmental Performance of Concentrating Solar Power Technologies Using SAM: Libya as a Case Study
According to the Libyan government's newly released strategic plan, renewable and environmentally friendly energy sources would provide 30% of the country's power by 2030. The goal of this research is to shed light on solar energy technologies that may be used to generate clean and sustain...
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Published in: | Solar energy and sustainable development $b (Online) 2023-09, Vol.12 (2), p.4-23 |
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Main Authors: | , , , , , , , , |
Format: | Article |
Language: | ara ; eng |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | According to the Libyan government's newly released strategic plan, renewable and environmentally friendly energy sources would provide 30% of the country's power by 2030. The goal of this research is to shed light on solar energy technologies that may be used to generate clean and sustainable electricity. An energy-economic-environmental study of five Concentration Solar Power (CSP) technologies (parabolic trough, solar dish, linear Fresnel reflector, solar tower, and concentrated PV solar cell) was conducted for 22 selected locations in Libya. The Levelized Cost Of Energy (LCOE) was chosen as a reference for identifying which technology would be most suited for each site. The economic estimates include the cost of environmental damage caused by carbon dioxide gas (CO2) emissions from fossil-fuel-powered power plants. This technique allows clean and renewable energy to compete fairly in the global energy market, even in countries that produce oil and subsidize electricity. According to the data, the solar mirror technology in Libya has the lowest LCOE of all the technologies evaluated in this study. The LCOE estimates varied from 0.01 to 0.04 dollars per kWh. The clean energy produced by the solar tower surpassed 100 MW, or about 400.332 GWh. Furthermore, the adoption of clean concentrating solar energy technology avoided the discharge of 4,235 tCO2/year/MWp. |
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ISSN: | 2411-9636 2414-6013 |
DOI: | 10.51646/jsesd.v12i2.153 |