Jacek Kumełan scite author profile

A high-pressure view-cell technique based on the synthetic method was used to determine the solubility of carbon dioxide in the ionic liquid 1-n-butyl-3-methylimidazolium methyl sulfate ([bmim][CH 3 SO 4 ]). The temperature ranged from 293.2 K to 413.1 K, the pressure and the carbon dioxide molality reached up to ∼10 MPa and ∼3.3 mol of CO 2 ‚(kg of [bmim][CH 3 SO 4 ]) -1 , respectively. The (extended) Henry's law was successfully applied to correlate the solubility pressures. The final results for the Henry's constant (at zero pressure) of carbon dioxide in [bmim][CH 3 SO 4 ] (on the molality scale) are correlated within the estimated uncertainty (( 1.3 %) by ln(k H,CO 2 (0) /MPa) ) 7.2738 -1775/(T/K) -0.002033(T/K). Furthermore, some small corrections were applied to the experimental results for the solubility of carbon dioxide in the ionic liquid 1-n-butyl-3-methylimidazolium hexafluorophosphate ([bmim][PF 6 ]) reported in previous work. The corrected values for the Henry's constant of carbon dioxide in [bmim][PF 6 ] only slightly and systematically deviate (by about -2 % at given temperature) from the values reported previously.

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Solubility of the Single Gases Methane and Xenon in the Ionic Liquid [hmim][Tf₂N]

Kumełan

Kamps

Tuma

et al. 2007

Ind. Eng. Chem. Res.

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This work reports new experimental results for the solubility of two single gases (methane and xenon) in the ionic liquid 1-hexyl-3-methylimidazolium bis(trifluoromethylsulfonyl)amide ([hmim][Tf2N]). The solubility was measured with a high-pressure view-cell technique operating on the synthetic method. The temperature ranged from 293.3 to 413.3 K, and the maximum pressure (the maximum gas molality) was 9.3 MPa (0.51 mol·kg-1) for methane and 9.6 MPa (2.08 mol·kg-1) for xenon. Xenon shows a significantly higher solubility than methane at all conditions investigated. Both gases become less soluble in [hmim][Tf2N] with rising temperature. An extension of Henry's law is employed to correlate the solubility pressures. The final results for the Henry's constants (at zero pressure) of methane and xenon in [hmim][Tf2N] (on the molality scale) are represented within the experimental uncertainty (about 1.2% for methane and 1% for xenon) by ln( /MPa) = 6.4929 − 835.9/(T/K) − 0.003471(T/K) and ln( /MPa) = 6.3357 − 1321.4/(T/K) − 0.00265(T/K), respectively.

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Solubility of H₂ in the Ionic Liquid [bmim][PF₆]

et al. 2005

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New experimental results are presented for the solubility of hydrogen in the ionic liquid 1-N-butyl-3-methylimidazolium hexafluorophosphate ([bmim][PF 6 ]) for temperatures from 313 K to 373 K and pressures up to about 9 MPa. The extended Henry's law is applied to correlate the solubility pressures. The solubility of H 2 in [bmim] [PF 6 ] is low and increases slightly with temperature. For example, at T ≈ 313 K (373 K) and p ≈ 9 MPa, only about 0.078 mol (0.106 mol) of the gas is dissolved in 1 kg of the ionic liquid.

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Jacek Kumełan

Solubility of CO2 in the ionic liquid [hmim][Tf2N]

Solubility of CO in the ionic liquid [bmim][PF6]

Solubility of CO₂ in the Ionic Liquids [bmim][CH₃SO₄] and [bmim][PF₆]

Solubility of the Single Gases Methane and Xenon in the Ionic Liquid [hmim][Tf₂N]

Solubility of H₂ in the Ionic Liquid [bmim][PF₆]

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Jacek Kumełan

Solubility of CO2 in the ionic liquid [hmim][Tf2N]

Solubility of CO in the ionic liquid [bmim][PF6]

Solubility of CO2 in the Ionic Liquids [bmim][CH3SO4] and [bmim][PF6]

Solubility of the Single Gases Methane and Xenon in the Ionic Liquid [hmim][Tf2N]

Solubility of H2 in the Ionic Liquid [bmim][PF6]

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Product

Resources

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Solubility of CO₂ in the Ionic Liquids [bmim][CH₃SO₄] and [bmim][PF₆]

Solubility of the Single Gases Methane and Xenon in the Ionic Liquid [hmim][Tf₂N]

Solubility of H₂ in the Ionic Liquid [bmim][PF₆]