Abstract
Microporous triclinic AlPO4-34, known as APO-Tric, serves as an excellent water adsorbent in thermal energy storage, especially for low temperature thermochemical energy storage. Increased water adsorption capacity of thermochemical material usually leads to higher thermal energy storage capacity, thus offering improved performance of the adsorbent. The main disadvantage of aluminophosphate-based TCM materials is their high cost due to the use of expensive organic templates acting as structure directing agents. Using ionic liquids as low cost solvents with associated structure directing role can increase the availability of these water adsorbents for TES applications. Here, a green synthesis of APO-Tric crystals at elevated and ambient pressure by using 1-ethyl-3-methyl imidazolium bromide ionic liquid is presented. Large 200 µm romboid shaped monocrystals were obtained at 200 °C after 6 days. The structure of APO-Tric and the presence of 1,3-dimetylimidazolium cation in the micropores were determined by single crystal XRD at room temperature and 150 K. Water sorption capacity of APO-Tric prepared by ionothermal synthesis at elevated pressure increased in comparison to the material obtained at hydrothermal synthesis most probably due to additional structural defects obtained after calcination. The reuse of exhausted ionic liquid was also confirmed, which adds to the reduction of toxicity and cost production of the aluminophosphate synthesis.
Highlights
Microporous aluminophosphates are zeolite-like or zeotype materials which gain a lot of attention in the last years as the advanced water adsorbents for low temperature adsorption heat transformation applications such as thermal energy storage (TES), heat pumps and chillers [1]
Pure APO-Tric crystals were crystallized at an elevated pressure ionothermal synthesis only after longer crystallization time (6 days)
Pure APO-Tric powder was obtained via ionothermal route at shorter crystallization time (5 days), only when lower amount of the ionic liquid was used for the ionogel preparation
Summary
Microporous aluminophosphates are zeolite-like or zeotype materials which gain a lot of attention in the last years as the advanced water adsorbents for low temperature adsorption heat transformation applications such as thermal energy storage (TES), heat pumps and chillers [1]. These adsorbents known as thermochemical materials (TCMs) rely on reversible physical adsorption and desorption process of gases on porous solids, an essentially exothermic phenomenon. These templates are used, for example, for the synthesis of SAPO-34 [4], which is known as the best proven catalyst for methanol to olefin (MTO) conversion since 1990 [5]
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