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Grant support
The authors express their gratitude to the Eduardo Torroja Institute for Construction Science for providing the location and entire infra-structure to enable the installation of this solar furnace. This infrastructure has been supported by the grant MAT2017-83025-R funded by MCIN/AEI/10.13039/501100011033. A. Gallo wishes to thank the University of Almeria for his Margarita Salas post-doctoral fellowship RR_A_2021_11 funded by the European Union within the framework of the "Recovery, Transformation and Resilience Plan" promoted by the Spanish government. C.-A. Asselineau wishes to acknowledge the funding provided by the Ramon-y-Cajal fellowship grant RYC2022-038071-I funded by MICIU/AEI/10.13039/501100011033 and the ESF + . Additionally, the authors extend their thanks to P. Pizarro (Green Oil Energy Systems SL) for his contribution during the design, procurement and construction of the facility.
Análisis de autorías institucional
Gallo, AlessandroAutor (correspondencia)Asselineau, Charles-AlexisAutor o CoautorDesign solutions and characterization of a small scale and very high concentration solar furnace using a Fresnel lens
Publicado en:Applied Thermal Engineering. 255 124044- - 2024-10-15 255(), DOI: 10.1016/j.applthermaleng.2024.124044
Autores: Gonzalez-Camarillo, H; Gallo, A; Padilla, I; Perez-Rabago, CA; Asselineau, CA; Romero, M; Lopez-Delgado, A
Afiliaciones
Resumen
The use of Fresnel lenses for solar energy concentration technology dates back to the 1950 s. These lenses feature a plano-convex optical design with a series of discontinuous convex grooves. Typically made from materials like polymethyl methacrylate, Fresnel lenses are lightweight, resistant to sunlight, thermally stable, and costeffective. This study presents a novel Fresnel lens-based solar furnace configuration installed at the Eduardo Torroja Institute for Construction Science in Madrid, Spain. The novelty of this work lies in the exceptional performance and operability of the facility. Experimental characterization revealed a record peak irradiance over 7 MW m- 2 for an incident target power exceeding 800 W. Comparison with ray tracing simulations shows good agreement with experimental results. This setup enables high temperature experiments up to 2000 degrees C with rapid execution times. A fixed receiver, a shutter system and a closed-loop heliostat tracking control system allow for flexible operation up to 5000 suns and straightforward maintenance. The concentrator element costs less than 300 USD (2022) m- 2, offering an economical solution to solar-powered high concentration and temperature applications. This innovative design overcomes previous operational challenges, providing a robust and economical method for high-temperature material processing and other industrial applications.
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Indicios de calidad
Impacto bibliométrico. Análisis de la aportación y canal de difusión
El trabajo ha sido publicado en la revista Applied Thermal Engineering debido a la progresión y el buen impacto que ha alcanzado en los últimos años, según la agencia WoS (JCR), se ha convertido en una referencia en su campo. En el año de publicación del trabajo, 2024 aún no existen indicios calculados, pero en 2023, se encontraba en la posición 52/171, consiguiendo con ello situarse como revista Q1 (Primer Cuartil), en la categoría Energy & Fuels.
2025-06-17:
- WoS: 1
- Scopus: 1
Impacto y visibilidad social
Análisis de liderazgo de los autores institucionales
Este trabajo se ha realizado con colaboración internacional, concretamente con investigadores de: Australia; Mexico.
el autor responsable de establecer las labores de correspondencia ha sido GALLO, ALESSANDRO.