![]() Fernandez-Peruchena, Steen Solvang Jensen, Anders Branth Pedersen, Is concentrated solar power (CSP) a feasible option for Sub-Saharan Africa?: Investigating the techno-economic feasibility of CSP in Tanzania, Renewable Energy, 2019, vol. 318–321.īutuzov, V.A., Butuzov, V.V., Bryantceva, E.V., and Gnatyuk, I.S., Results of long-term operation of solar thermal plants in Russia, Appl. Khaitmukhamedov, A.E., Development dynamics of concentrating solar power technologies, Appl. Parrado, C., et al., 2050 LCOE (Levelized Cost of Energy) projection for a hybrid PV (photovoltaic)-CSP (concentrated solar power) plant in the Atacama Desert, Chile, Energy, 2016, vol. Pizzolato, A., et al., CSP plants with thermocline thermal energy storage and integrated steam generator-Techno-economic modeling and design optimization, Energy, 2017, vol. 7884–7897.Ĭasati, E., Casella, F., and Colonna, P., Design of CSP plants with optimally operated thermal storage, Sol. Zhang, Y., et al., Modeling the potential for thermal concentrating solar power technologies, Energy Policy, 2010, vol. Yamani, N., Khellaf, A., and Mohammedi, K., Parametric study of tower power plant performances for its implementation in Algeria, in Progress in Clean Energy, Dincer, I., Colpan, C., Kizilkan, O., and Ezan, M., Eds., Cham: Springer, 2015, vol. 2nd International Symposium on Environment-Friendly Energies and Applications, Northumbria University, 2012. ![]() and Moummi, A., Design of parabolic trough collector solar field for future solar thermal power plants in Algeria, in Proc. McEwan, M.R., Plataforma solar de Almeria, Annual Report, 2017. Pavlović, T.M., Radonjić, I.S., Milosavljević, D.D., and Pantić, L.S., A review of concentrating solar power plants in the world and their potential use in Serbia, Renewable Sustainable Energy Rev., 2012, vol. Renewable Power Generation Costs in 2014, Abu Dhabi: International Renewable Energy Agency, 2015. Advancing Concentrating Solar Power Technology, Performance, and Dispatchability, Golden, CO: National Renewable Energy Laboratory (NREL), 2016. Mehos, M., et al., On the Path to SunShot. Jorgenson, J., Denholm, P., and Mehos, M., Estimating the Value of Utility-Scale Solar Technologies in California under a 40% Renewable Portfolio Standard, Golden, CO: National Renewable Energy Laboratory (NREL), 2014. Hamed Khodayar Sahebi, Siamak Hoseinzadeh, Hossein Ghadamian, Mohammad Hadi Ghasemi, Farbod Esmaeilion, and Davide Astiaso Garcia, Techno-economic analysis and new design of a photovoltaic power plant by a direct radiation amplification system, Sustainability, 2021, vol. Hoseinzadeh, S., Using computational fluid dynamics for different alternatives water flow path in a thermal photovoltaic (PVT) system, Int. Renewable Capacity Statistics 2020, Abu Dhabi: International Renewable Energy Agency, 2020. ![]() Therefore, the energetic potential in the selected site is estimated to be 400 GW.Īli Sohani, Mohammad Hassan Shahverdian, Hoseyn Sayyaadi, Siamak Hoseinzadeh, and Saim Memon, Enhancing the renewable energy payback period of a photovoltaic power generation system by water flow cooling, Int. The Central Receiver Tower Power Solar Plant with storage thermal energy and backup systems using molten salt as heat transfer fluid and storage medium should be an option to take into account in the development of the Algerian system power compared to other solutions (SM opt = 2.8 LCOE opt = 15.11 Cent/kWh CF opt = 87% Annual Energy = 376 GW FLH opt = 15 h). The results show that the technical parameters (plant efficiency, annual energy produced, the solar field’s size, and the amount of STE) depend greatly on the plant’s technology, variations in DNI, and average atmospheric conditions especially ambient temperature and relative humidity. ![]() This takes into account the influence of various determinants and new technologies such as Stored Thermal Energy (STE), and backup system. In this study, CSP plant potential in selected regions of southern Algeria was optimized using the System Advisor Model (SAM) software. Concentrated Solar Power (CSP) plants are one of the available renewable technologies which have more potential in regions with high direct solar radiations. Algeria has high levels of untapped solar potential and it is necessary to find solutions that take advantage of this fact. ![]()
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