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Selective CO 2 Capture from CO 2 /N 2 Gas Mixtures Utilizing Tetrabutylammonium Fluoride Hydrates.

Hyeonjin KimYun-Ho Ahn
Published in: Molecules (Basel, Switzerland) (2024)
Gas hydrates, a type of inclusion compound capable of trapping gas molecules within a lattice structure composed of water molecules, are gaining attention as an environmentally benign gas storage or separation platform. In general, the formation of gas hydrates from water requires high-pressure and low-temperature conditions, resulting in significant energy consumption. In this study, tetrabutylammonium fluoride (TBAF) was utilized as a thermodynamic promoter forming a semi-clathrate-type hydrate, enabling gas capture or separation at room temperature. Those TBAF hydrate systems were explored to check their capability of CO 2 separation from flue gas, the mixture of CO 2 and N 2 gases. The formation rates and gas storage capacities of TBAF hydrates were systematically investigated under various concentrations of CO 2 , and they presented selective CO 2 capture behavior during the hydrate formation process. The maximum gas storage capacities were achieved at 2.36 and 2.38 mmol/mol for TBAF·29.7 H 2 O and TBAF·32.8 H 2 O hydrate, respectively, after the complete enclathration of the feed gas of CO 2 (80%) + N 2 (20%). This study provides sufficient data to support the feasibility of TBAF hydrate systems to be applied to CO 2 separation from CO 2 /N 2 gas mixtures based on their CO 2 selectivity.
Keyphrases
  • room temperature
  • ionic liquid
  • carbon dioxide
  • gene expression
  • liquid chromatography
  • machine learning
  • high throughput
  • artificial intelligence
  • working memory
  • single cell