Carbon Dioxide Solubility in Three Bis Tri (Fluromethylsulfonyl) Imide-Based Ionic Liquids

This study delves into the necessity of mitigating carbon dioxide (CO ) emissions, focusing on effective capture methods to combat global warming by investigating the solubility of CO in three ionic liquids (ILs), 1-Decyl-3-MethylimidazoliumBis (Trifluromethylsulfonyl Imide) [IL1], 1-Hexadecyl-3-Met...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2024-06, Vol.29 (12), p.2784
Main Authors: Quaye, Eric, Henni, Amr, Shirif, Ezeddin
Format: Article
Language:English
Subjects:
Accuracy
Atmospheric pressure
Carbon dioxide
Climatic changes
CO2 capture
Energy consumption
Energy efficiency
Entropy
Gas absorption
Gas flow
Gases
intelligent gravimetric analyzer (IGA)
ionic liquids
Membrane separation
Natural gas
Solvents
Temperature
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Summary:This study delves into the necessity of mitigating carbon dioxide (CO ) emissions, focusing on effective capture methods to combat global warming by investigating the solubility of CO in three ionic liquids (ILs), 1-Decyl-3-MethylimidazoliumBis (Trifluromethylsulfonyl Imide) [IL1], 1-Hexadecyl-3-Methyl imidazoliumBis (Trifluromethylsulfonyl Imide) [IL2] and Triethytetradecyl Ammonium Bis (Trifluromethylsulfonyl Imide) [IL3]. Solubility experiments were conducted at (30, 50 and 70) °C with pressures up to 1.5 MPa. The research shows [IL2] as the superior candidate for CO capture, with its longer alkyl chain, and is confirmed by its lower Henry's Law constant. Utilizing the Peng Robinson equation of state, the study correlates well with the solubility measurements using three mixing rules. The study reveals promising results for IL1, IL2 and IL3 surpassing all other published ionic liquids including Selexol/Genesorb 1753, except for 1-Methyl-3-octylimidazolium bis(trifluoromethylsulfonyl)imide. Insights into the enthalpy and entropy of absorption underscore the significant impact of IL structure on CO solubility, emphasizing the potential of tailored ILs for advanced carbon capture strategies. In summary, this research highlights [IL2] as the optimal choice for CO capture, offering valuable contributions to the ongoing efforts in combating climate change.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules29122784