Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Concentrated solar power (CSP) is a promising form of renewable energy that harnesses the immense power of the sun to generate electricity. It employs various mechanisms to concentrate sunlight onto a receiver, thereby producing high-temperature heat. This heat can be stored and converted into electricity through conventional steam turbines or for other heating applications. One of CSP’s key advantages is its ability to store thermal energy for use during cloudy periods or at night, enhancing the reliability and dispatchability of solar power. This review article offers a comprehensive introduction to CSP including its principles, technological advancements, comparison analysis, and its potential to play a crucial role in the transition to a sustainable toward carbon neutral energy future. Various statistical charts on the operational CSP plants around the world have been presented in this review and showed that there is a notable interest in the MENA region for considering this technology in their energy mix. Jordan is part of the MENA region, therefore, possible deployment of this technology in the kingdom of Jordan has been assessed as well by studying the solar radiation measurements in the southern location of the country. Analysis has concluded that Ma’an governorate has the highest solar irradiance characteristics in the country and has the lowest values of diffuse irradiance. The annual average daily global irradiance is between 3.7 kWh/m2 in January to 8.5 kWh/m2 in June, equivalent to annual global radiation of more than 2200 kWh/m2. The results have been validated using Global Solar Atlas and ener MENA high precision meteorological station installed in Ma’an. The costs and current challenges faced by this technology will also be discussed.
Wydawca
Rocznik
Tom
Strony
152--163
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
autor
- Department of Renewable Energy Engineering, Middle East University, Amman 11831, Jordan
Bibliografia
- 1. Alam, M.I., Nuhash, M.M., Zihad, A., Nakib, T.H. and Ehsan, M.M., 2023. Conventional and Emerging CSP Technologies and Design Modifications: Research Status and Recent Advancements. International Journal of Thermofluids, 100406.
- 2. Alami, A.H., Olabi, A.G., Mdallal, A., Rezk, A., Radwan, A., Rahman, S.M.A., Shah, S.K. and Abdelkareem, M.A., 2023. Concentrating solar power (CSP) technologies: Status and analysis. International Journal of Thermofluids, 18, 100340.
- 3. Alrwashdeh, S.S., Alsaraireh, F.M. and Saraireh, M.A., 2018. Solar radiation map of Jordan governorates. International Journal of Engineering & Technology, 7(3), 1664–1667.
- 4. Al-Soud, M.S., Hrayshat, E.S. 2009. A 50 MW concentrating solar power plant for Jordan. Journal of Cleaner production, 17(6), 625–635.
- 5. As'ad, S., Halawani, M. 2020. Troubleshooting Maintenance of Concentrated Photovoltaic System–A Case Study. Journal of Ecological Engineering, 21(2).
- 6. Baharoon, D.A., Rahman, H.A., Omar, W.Z.W., Fadhl, S.O. 2015. Historical development of concentrating solar power technologies to generate clean electricity efficiently–A review. Renewable and Sustainable Energy Reviews, 41, 996–1027.
- 7. Chen, Q., Wang, Y., Zhang, J., Wang, Z. 2020. The knowledge mapping of concentrating solar power development based on literature analysis technology. Energies, 13(8), 1988.
- 8. De Souza, L.E.V., Cavalcante, A.M.G. 2017. Concentrated Solar Power deployment in emerging economies: The cases of China and Brazil. Renewable and Sustainable Energy Reviews, 72, 1094–1103.
- 9. Flamant, G. 2022. Solar Power Plants: State of the Art.Concentrating Solar Thermal Energy: Fundamentals and Applications; Wiley: Hoboken, NJ, USA, p.1.
- 10. Global Solar Atlas. https://globalsolaratlas.info (Accessed: September 24th, 2023).
- 11. He, Y.L., Qiu, Y., Wang, K., Yuan, F., Wang, W.Q., Li, M.J., Guo, J.Q. 2020. Perspective of concentrating solar power. Energy, 198, 117373.
- 12. International Energy Agency (IEA). SolarPACES, energy technology network. Available from: 〈http://www.Solarpaces.org〉 [retrieved 15.03.13].
- 13. Kiwan, S., Al-Gharibeh, E. 2020. Jordan toward a 100% renewable electricity system. Renewable Energy, 147, 423–436.
- 14. Mehta, A., Kapoor, A., Neopaney, H.K. 2014. Conceptual design of concentrated solar power plant using SPT-Solar power tower technology. Reviewer Committee, 77.
- 15. Müller-Steinhagen, H., Trieb, F. 2004. Concentrating solar power.A review of the technology. Ingenia Inform QR Acad Eng, 18, 43–50.
- 16. National Renewable Entergy Laboratory (NREL), https://solarpaces.nrel.gov/ (Accessed September 28th, 2023).
- 17. OECD/IEA. 2010. Technology Roadmap, Concentrating Solar Power, 2010.
- 18. Owhaib, W., Borett, A., AlKhalidi, A., Al-Kouz, W. and Hader, M., 2022, April. Design of a solar PV plant for Ma’an, Jordan. In IOP Conference Series: Earth and Environmental Science, 1008(1), 012012.
- 19. Pheng, L.G., Affandi, R., Ab Ghani, M.R., Gan, C.K., Jano, Z., Sutikno, T. 2014. A review of Parabolic Dish-Stirling Engine System based on concentrating solar power. TELKOMNIKA (Telecommunication Computing Electronics and Control), 12(4), 1142–1152.
- 20. Py, X., Azoumah, Y., Olives, R. 2013. Concentrated solar power: Current technologies, major innovative issues and applicability to West African countries. Renewable and Sustainable Energy Reviews, 18, 306–315.
- 21. Qader, M., Stückrad, S. 2016. Concentrated solar power. IASS (Institute for Advanced Sustainability), Postdam (Germany).
- 22. Răboacă, M.S., Badea, G., Enache, A., Filote, C., Răsoi, G., Rata, M., Lavric, A., Felseghi, R.A. 2019. Concentrating solar power technologies. Energies, 12(6), 1048.
- 23. SolarGIS, Direct Normal Irradiation 2023. Available online: https://solargis.com/maps-and-gis-data/download/world (Accessed August 14th, 2023).
- 24. Szczygiellski, P., Wagner, L. 2009. CSP-Concentrated Solar Power: Large Scale Alternatives to Traditional PV. Mora Associates, Internal research.
- 25. Timilsina, G.R., Shah, K.U. 2022. Economics of Renewable Energy: A Comparison of Electricity Production Costs Across Technologies. In Oxford Research Encyclopedia of Environmental Science.
- 26. Trieb, F., Fichter, T. and Moser, M., 2014. Concentrating solar power in a sustainable future electricity mix. Sustainability science, 9, 47–60.
- 27. Wang, Z. 2019. Design of solar thermal power plants. Academic Press.
- 28. World Energy Transitions Outlook, 2022. The International Renewable Energy Agency (IRENA).
- 29. Zafar, S. 2014. Solar Energy in Jordan. 28. January 2014.
- 30. Zayed, M.E., Zhao, J., Elsheikh, A.H., Li, W., Sadek, S., Aboelmaaref, M.M. 2021. A comprehensive review on Dish/Stirling concentrated solar power systems: Design, optical and geometrical analyses, thermal performance assessment, and applications. Journal of Cleaner Production, 283, 124664.
- 31. Zhang, H.L., Baeyens, J., Degrève, J., Cacères, G. 2013. Concentrated solar power plants: Review and design methodology.Renewable and sustainable energy reviews, 22, 466–481.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ad9f3cdc-d5f4-406c-9a3e-2e8ba9fa65a1