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A systematic evaluation of sorption-based thermochemical energy storage for building applications: Material development, reactor design, and system integration (2025)
Journal Article
Liu, X., Yang, F., Liu, X., & Wu, Y. (2025). A systematic evaluation of sorption-based thermochemical energy storage for building applications: Material development, reactor design, and system integration. Renewable Energy, 245, Article 122831. https://doi.org/10.1016/j.renene.2025.122831

Sorption-based thermochemical energy storage (TCES) has attracted substantial attention due to its remarkable potential for long-term and high-capacity heat storage. The efficacy of a TCES system hinges on the seamless integration and coordinated ope... Read More about A systematic evaluation of sorption-based thermochemical energy storage for building applications: Material development, reactor design, and system integration.

Experimental investigation of low-temperature fluidised bed thermochemical energy storage with salt-mesoporous silica composite materials (2024)
Journal Article
Liu, X., Liu, X., Yang, F., & Wu, Y. (2024). Experimental investigation of low-temperature fluidised bed thermochemical energy storage with salt-mesoporous silica composite materials. Applied Energy, 362, Article 122953. https://doi.org/10.1016/j.apenergy.2024.122953

Low-temperature thermochemical energy storage (TCES) with composites ‘salt in porous matrix’ (CSPMs) is widely recognized as a sustainable and efficient solution for harnessing low-grade heat and off-peak electricity. However, many high-performance C... Read More about Experimental investigation of low-temperature fluidised bed thermochemical energy storage with salt-mesoporous silica composite materials.

Development of MgSO4/mesoporous silica composites for thermochemical energy storage: the role of porous structure on water adsorption (2022)
Journal Article
Liu, X., Wang, H., Liu, X., Yang, F., Guan, L., Sani, S., Sun, C., & Wu, Y. (2022). Development of MgSO4/mesoporous silica composites for thermochemical energy storage: the role of porous structure on water adsorption. Energy Reports, 8, 4913-4921. https://doi.org/10.1016/j.egyr.2022.03.137

Composites ‘salt in porous matrix’ has been considered as a promising candidate for thermal energy storage due to their large sorption capacity, energy density and high cyclic stability. In this study, novel salt composites were prepared by using dif... Read More about Development of MgSO4/mesoporous silica composites for thermochemical energy storage: the role of porous structure on water adsorption.