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Clathrate Hydrate Equilibrium Data for the Gas Mixture of Carbon Dioxide and Nitrogen in the Presence of an Emulsion of Cyclopentane in Water
Carbon
dioxide and nitrogen gas separation is achieved through
clathrate hydrate formation in the presence of cyclopentane. A phase
diagram is presented in which the mole fraction of CO<sub>2</sub> in
the gas phase is plotted against the mole fraction of CO<sub>2</sub> in the carbon dioxide + nitrogen + cyclopentane mixed hydrate phase,
both defined with respect to total amount of CO<sub>2</sub> and N<sub>2</sub> in the respective phase. The curve is plotted for temperatures
ranging from 283.5 K to 287.5 K and pressures from 0.76 MPa to 2.23
MPa. The results show that the carbon dioxide selectivity is moderately
enhanced when cyclopentane is present in the mixed hydrate phase.
Carbon dioxide could be enriched in the hydrate phase by attaining
a mole fraction of up to 0.937 when the corresponding mole fraction
in the gas mixture amounts to 0.507. When compared to the three phase
hydrate–aqueous liquid–vapor equilibrium in the ternary
system {water + carbon dioxide + nitrogen}, the equilibrium pressure
of the mixed hydrate is reduced by 0.95 up to 0.97. The gas storage
capacity approaches 40 m<sup>3</sup> gas·m<sup>–3</sup> of hydrate. This value turns out to be roughly constant and independent
of the gas composition and the operating conditions