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Comparing line-focusing and central tower solar power plants with S-CO<inf>2</inf> binary mixture Brayton power cycles
Conference ObjectAbstract: State-of-the-art supercritical carbon dioxide (s-CO2) power cycles represent an important technicalPalabras claves:Autores:Coco-Enríquez L., Muñoz-Antón J., Robert Valencia-ChapiFuentes:googlescopusElectrical energy storage using a supercritical CO<inf>2</inf> heat pump
ArticleAbstract: This work proposes a new Pumped Thermal Energy Storage (PTES) configuration that works with supercriPalabras claves:Brayton cycle, Heat pump, RENEWABLE ENERGY, supercritical CO 2, thermal storageAutores:Fierros-Peraza O., López-Guillem M., Muñoz-Antón J., Robert Valencia-Chapi, Tafur-Escanta P.Fuentes:googlescopusSupercritical CO<inf>2</inf> binary mixtures for recompression brayton s-CO<inf>2</inf> power cycles coupled to solar thermal energy plants
ArticleAbstract: In this work, an evaluation and quantification of the impact of using mixtures based on supercriticaPalabras claves:Fluid mixture, Recompression Brayton cycle, Solar thermal plant, supercritical carbon dioxideAutores:Coco-Enríquez L., López-Paniagua I., Muñoz-Antón J., Robert Valencia-Chapi, Tafur-Escanta P.Fuentes:googlescopusSupercritical CO<inf>2</inf> mixtures for advanced brayton power cycles in line-focusing solar power plants
ArticleAbstract: This work quantifies the impact of using sCO2-mixtures (s-CO2/He, s-CO2/Kr, s-CO2/H2S, s-CO2/CH2, s-Palabras claves:Brayton cycle, Fluid mixture, Solar plant, supercritical CO 2Autores:Coco-Enríquez L., Muñoz-Antón J., Robert Valencia-ChapiFuentes:googlescopus