Richard D. Noble scite author profile

The ability to predict the solubility of gases in room-temperature ionic liquids, RTILs, would be very useful in determining the most efficient RTIL to use in an industrial process. This work uses data from CO 2 and C 2 H 4 solubility measurements to show that regular solution theory can be used to model gas solubilities in RTILs at low pressures. This work further discusses how changes in pressure and temperature affect the solubility of gases in RTILs.

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Regular Solution Theory and CO₂ Gas Solubility in Room-Temperature Ionic Liquids

Scovazzo

Camper

Kieft

et al. 2004

Ind. Eng. Chem. Res.

283

256

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This paper explores the arguments for using solubility parameters and the regular solution theory for modeling gas solubilities in five different room-temperature ionic liquids (RTILs) at low partial pressures (<1 atm) and low mole fractions (<0.1). The experimentally measured and reported carbon dioxide (CO2) solubilities at low mole fractions (<0.05) suggest positive deviations from Raoult's law for CO2/RTIL solutions. These CO2 solubility deviations from Raoult's law indicate that CO2/RTIL complexations are not the sole controlling factor in relative CO2 solubilities. The RTILs' energies of vaporization and molar volumes appear to be factors in determining relative CO2 solubilities between RTILs. The energies of vaporization for the RTILs were empirically estimated from their melting points.

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Richard D. Noble

Gas separations using non-hexafluorophosphate [PF6]− anion supported ionic liquid membranes

Gas Solubilities in Room-Temperature Ionic Liquids

Regular Solution Theory and CO₂ Gas Solubility in Room-Temperature Ionic Liquids

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About

Richard D. Noble

Gas separations using non-hexafluorophosphate [PF6]− anion supported ionic liquid membranes

Gas Solubilities in Room-Temperature Ionic Liquids

Regular Solution Theory and CO2 Gas Solubility in Room-Temperature Ionic Liquids

Contact Info

Product

Resources

About

Regular Solution Theory and CO₂ Gas Solubility in Room-Temperature Ionic Liquids