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W4281259969 abstract "Thermochemical heat storage is currently regarded as the most promising technology with capability of the systems to conserve the thermal energy as long as desired without heat losses due to their reversible sorption and chemical reactions. Design of efficient storage sorption materials with advanced properties is motivated by two driving forces: to increase of the energy storage density and to regenerate the sorbent at low temperature (80–140°C). Since the beginning, highly hydrophilic zeolites and weak hydrophilic silica gels with water vapor systems have been one of the most studied and tested adsorbent/adsorbate pairs for application in thermo-chemical heat storage. However, zeolites require high temperature for desorption (>200°C), while silica gels need lower desorption temperatures (~100°C), and both adsorbents have a low water loading within a adsorption/desorption cycle. Thus, an optimal sorption material should provide a moderate affinity toward water molecules that depends on particular operating conditions of the cycle. This chapter reviews sorption material developments on zeolites, aluminophosphates, metal organic frameworks (MOFs) and two-component sorbents (composites) containing porous matrices from zeolites to new mesostructured iron silicate and salt hydrates with high energy storage density. The developments in materials research promise novel and high performance storage materials in near future." @default.
W4281259969 created "2022-05-23" @default.
W4281259969 creator A5066464144 @default.
W4281259969 date "2022-04-25" @default.
W4281259969 modified "2023-10-16" @default.
W4281259969 title "Sorption Material Developments for <scp>TES</scp> Applications" @default.
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W4281259969 doi "https://doi.org/10.1002/9781119239390.ch27" @default.
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