Abstract
Tie-line data for ternary systems containing methanol (CH 4O), ethanol (C 2H 6O), water (H 2O), toluene (C 7H 8), and 2,2,4-trimethylpentane (C 8H 18) were investigated. Phase diagrams of { w 1H 2O+ w 2CH 4O+(1− w 1− w 2) C 7H 8}, { w 1CH 4O+ w 2C 7H 8+(1− w 1− w 2)C 8H 18}, { w 1 H 2O+ w 2 C 8H 18+(1−w 1−w 2)C 7H 8}, and { w 1H 2O+ w 2C 2H 6O+(1− w 1− w 2)C 7H 8} ternary systems were obtained at 303.15 K, while data of the other partially miscible ternary systems: { w 1H 2O+ w 2C 2H 6O+(1− w 1− w 2)C 8H 18}, { w 1H 2O+ w 2C 7H 8+(1− w 1− w 2)C 8H 18}, and { w 1H 2O+ w 2CH 4O+(1− w 1− w 2)C 8H 18} were taken from the literature. The quaternary systems { w 1CH 4O+ w 2C 7H 8+ w 3C 8H 18+(1− w 1− w 2− w 3)H 2O} and { w 1C 2H 6O+ w 2C 7H 8+w 3 C 8H 18+(1− w 1− w 2− w 3)H 2O} were also studied at the same temperature. From our experimental results we conclude that these quaternary systems present a very small water tolerance and that phase separation could produce a considerable loss of CH 4O or C 2H 6O drawn into their respective aqueous phases. On the other hand, the aqueous phase generally contains a higher concentration of C 7H 8 than of C 8H 18 for both quaternaries. All the pairs of UNIQUAC interaction parameters obtained from the four ternary subsystems included in each quaternary system were averaged and then used to predict both quaternaries liquid–liquid equilibria (LLE) with this model. The UNIFAC group contribution method was used with the same purpose. The UNIQUAC equation appears to be more accurate than the UNIFAC method, particularly for { w 1CH 4O+ w 2C 7H 8+(1− w 1− w 2)C 8H 18} ternary system where UNIFAC predicts an immiscibility region much larger than experimentally observed, while for the { w 1H 2O+ w 2CH 4O+(1− w 1− w 2)C 7H 8} ternary one it predicts a smaller region. Therefore, the UNIFAC method only provides qualitative results for these ternary systems. However, both the UNIFAC and UNIQUAC methods predict the quaternary systems with small and similar deviations.
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