This study explores the enhancement of a CaCl₂/silica gel composite sorbent for low-grade thermal energy storage (TES) and assesses its stability through modifications in the manufacturing process. Initially, the optimal calcium chloride concentration for incorporation into mesoporous silica gel via the DRY impregnation method was determined. Subsequently, the effects of three impregnation techniques (Dry (DRY), Wet (WET), and Airbrush (AB)) on the characteristics of the composite were investigated. Higher CaCl₂ concentrations reduced pore volume and surface area while increasing thermal storage capacity, though leading to structural instability due to deliquescence. The impregnation technique slightly affected the morphological and thermochemical properties of the composites.
Enhancement of CaCl2/silica gel composites sorbent stability for low-grade Thermal Energy Storage
Fotia, AntonioPrimo
;Brancato, Vincenza
;Calabrese, Luigi;Frazzica, Andrea
2025
Abstract
This study explores the enhancement of a CaCl₂/silica gel composite sorbent for low-grade thermal energy storage (TES) and assesses its stability through modifications in the manufacturing process. Initially, the optimal calcium chloride concentration for incorporation into mesoporous silica gel via the DRY impregnation method was determined. Subsequently, the effects of three impregnation techniques (Dry (DRY), Wet (WET), and Airbrush (AB)) on the characteristics of the composite were investigated. Higher CaCl₂ concentrations reduced pore volume and surface area while increasing thermal storage capacity, though leading to structural instability due to deliquescence. The impregnation technique slightly affected the morphological and thermochemical properties of the composites.| File | Dimensione | Formato | |
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2025_JES_Fotia.pdf
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