Autor: |
Palladino, Valeria, Di Somma, Marialaura, Cancro, Carmine, Gaggioli, Walter, De Lucia, Maurizio, D'Auria, Marco, Lanchi, Michela, Bassetti, Fulvio, Bevilacqua, Carla, Cardamone, Stefano, Nana, Francesca, Montagnino, Fabio Maria, Graditi, Giorgio |
Předmět: |
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Zdroj: |
Energies (19961073); Jan2024, Vol. 17 Issue 2, p360, 34p |
Abstrakt: |
The modernization, efficiency, and decarbonization of the energy supply systems are among the new challenges to be faced in the coming decades to achieve the targets and objectives dictated by European strategic policies. Despite the countless benefits related to renewable energy sources (RES) integration, this brings key challenges to the power system, such as the risk of imbalance between energy generation and demand, sudden changes in flows in transmission lines with a need for expensive and time-consuming upgrades, and the withdrawal of conventional generation systems with consequent demands for new solutions and innovation to support grid services. A potential solution to limit the huge intermittence and fluctuation in power generation from RES is Concentrated Solar Power (CSP) technology integrated with thermal energy storage. The aim of this paper is to discuss the potential benefits related to the use of CSP technology by presenting innovative industrial solutions developed in the Italian SOLARGRID Project, namely the hybridization of CSP–PV systems and the solar thermo-electric system developed by MAGALDI, the parabolic trough collector of Eni, and the new linear Fresnel reflector configuration of IDEA S.r.l. These plant and component solutions are developed for improving the technical performance of CSP technology and reducing the levelized cost of electricity, thereby fostering an effective and massive deployment and encouraging the creation of new business models. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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