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Modeling the phase equilibrium of multicomponent systems involving solids, supercritical fluids, and consolvents
GarcÃa-Jiménez, Margarita
GarcÃa-Jiménez, Margarita
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Abstract
Carbon dioxide is one of the most commonly used supercritical fluids. However, its uses
are limited due to its low solubility capacity for polar substances. Addition of cosolvents
improves the solubility of polar and non-polar solutes in CO2. Many authors have used
equations of state combined with mixing rules to develop mathematical models for the
determination of solubilities of systems composed of a solute, a solvent, and a cosolvent.
In this work, the Peng-Robinson equation of state with the van der Waals mixing rules
were used to formulate a mathematical model for the solubility of solids in supercritical fluids
with cosolvents, i.e., in ternary systems. All three binary interaction parameters involved were
determined for nine ternary systems for which experimental data were available (for a total of 22
isotherms); these parameters were used to calculate the solubilities for those systems. Results
obtained showed that the model fitted very well the experimental data for all the systems studied.
Also, simulation runs were done varying the cosolvent concentration to evaluate the
impact that it had in the systems under study. The practical use of this exercise is to know how
much cosolvent to use in a given application. An increase of the cosolvent concentration
improved significantly the solubility of the solutes in carbon dioxide except for 2-naphthol for
which it was observed that, beyond a certain point, an increase in pressure or cosolvent
concentration reduced the solubility of the solute in CO2.
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Date
2006
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Keywords
Supercritical fluids, Cosolvents