Solubility of the Single Gases Methane and Xenon in the Ionic Liquid bmimCH3SO4.

Solubility measurements of methane and of xenon in the ionic liquid 1-n-butyl-3-methylimidazolium methyl sulfate (bmimCH3SO4) were performed with a high-pressure view-cell technique based on the synthetic method. The temperature ranged from 293.1 K to 413.2 K, and the maximum pressure (the maximum gas molality) was 8.9 MPa (0.19 mol·kg-1) for methane and 11.3 MPa (0.65 mol·kg-1) for xenon. Both gases become less soluble in bmimCH3SO4with rising temperature, but xenon shows a significantly higher solubility at all conditions investigated. An extension of Henry's law is employed to correlate the solubility pressures in both cases. The final results for the Henry's constant (at zero pressure) of methane and xenon in bmimCH3SO4(on the molality scale) are correlated within the experimental uncertainty (about ± 1.3 %) by ln(%@mt;sys@%%@ital@%k%@rsf@%%@sx@%H,%@/hd@%CH%@sb@%4%@sbx@%%@be@%%@/hd@%%@fn;(;vis;full;auto@%0%@fnx;);vis;full@%%@/hd@%%@sxx@%%@mx@%/MPa) 6.216 − 564.5/(T/K) − 0.002566(T/K) and ln(%@mt;sys@%%@ital@%k%@rsf@%%@sx@%H,%@/hd@%Xe%@be@%%@/hd@%%@fn;(;vis;full;auto@%0%@fnx;);vis;full@%%@/hd@%%@sxx@%%@mx@%/MPa) 5.5906 − 928/(T/K) − 0.00141(T/K), respectively. [ABSTRACT FROM AUTHOR]