期刊
CRYSTALS
卷 11, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/cryst11111422
关键词
ZIF-8; ZIF-90; DSC; adsorption; TCM materials
资金
- Slovenian Research Agency Research program
This study examined the potential heat storage applications of two different sodalite-type ZIF structures (ZIF-8 and ZIF-90) for adsorption of water, methanol and ethanol, with ZIF-90-water showing the best desorption enthalpy, fastest sorption kinetics and highest potential for heat storage/reallocation applications. This was attributed to ZIF-90's significantly smaller particle size, higher specific surface area, and presence of mesoporosity and polar groups compared to ZIF-8.
The increasing demand for heating/cooling is of grave concern due to the ever-increasing population. One method that addresses this issue and uses renewable energy is Thermochemical Energy Storage (TCES), which is based on the reversible chemical reactions and/or sorption processes of gases in solids or liquids. Zeolitic imidazolate frameworks (ZIFs), composed of transition metal ions (Zn, Co, etc.) and imidazolate linkers, have gained significant interest recently as porous adsorbents in low temperature sorption-based TES (sun/waste heat). In this study, we examined two different sodalite-type ZIF structures (ZIF-8 and ZIF-90) for their potential heat storage applications, based on the adsorption of water, methanol and ethanol as adsorbates. Both ZIF structures were analysed using PXRD, TGA, SEM and N-2 physisorption while the % adsorbate uptake and desorption enthalpy was evaluated using TGA and DSC analysis, respectively. Among the studied adsorbent-adsorbate pairs, ZIF-90-water showed the highest desorption enthalpy, the fastest sorption kinetics and, therefore, the best potential for use in heat storage/reallocation applications. This was due to its significantly smaller particle size and higher specific surface area, and the presence of mesoporosity as well as polar groups in ZIF-90 when compared to ZIF-8.
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