Abstract Compositions and molar volumes of the three phases in liquid—liquid—gas equilibrium are reported for ternary mixtures of isopropanol, water and CO2 at elevated pressures and at temperatures of 50 and 60°C. Phase compositions and molar volumes were also obtained for three-phase, liquid—liquid—liquid equilibrium and four-phase, liquid—liquid—liquid—gas equilibrium at 40°C. Gas—liquid and liquid—liquid critical endpoints, which represent pressure bounds on the liquid—liquid—gas region at 60°C, were determined from observations of critical opalescence. The phase behavior exhibited by the isopropanol—water—CO2 system is quite complex, particularly at conditions near the critical point of CO2. These conditions are well within the range of operating conditions proposed for supercritical-fluid extraction of organic compounds from water using CO2. Therefore, the existence of multiple coexisting phases can be an important factor in designing and operating such extraction processes.
[1]
Donald B. Robinson,et al.
Hydrate formation in systems containing methane, ethane, propane, carbon dioxide or hydrogen sulfide in the presence of methanol
,
1985
.
[2]
K. D. Luks,et al.
Partial miscibility behavior in cryogenic natural gas systems
,
1983
.
[3]
M. Paulaitis,et al.
Phase Equilibria Related to Supercritical-Fluid Solvent Extractions (Invited Lecture)
,
1984
.
[4]
F. Orr,et al.
Use of Carbon Dioxide in Enhanced Oil Recovery
,
1984,
Science.
[5]
J. Elgin,et al.
Phase Equilibrium at Elevated Pressures in Ternary Systems of Ethylene and Water with Organic Liquids. Salting Out with a Supercritical Gas.
,
1959
.