284 6 The Thermodynamics of Solutions
160150
Area of vapor statesTie line area –
one liquid phase,
one vapor phaseArea of states
of one liquidTie line area –
one liquid phase,
one vapor phaseTie line area –
two liquid phasesxf 5 0.478xf 5 0.0406xf 5 0.0917xf 5 Furfural mole fraction140130120110100900 0.2 0.4 0.6 0.8 1.0tC/^8 CFigure 6.16 Liquid–Vapor Temperature–Composition Phase Diagram of Furfural
and Water at 1.000 atm.After G. H. Mains,Chem. Met. Eng., 26 , 779 (1922).between the liquid and vapor phases disappears as the liquid–vapor critical point is
approached, as was shown in Figure 1.6.
There are a few mixtures, such as water and nicotine, that have both an upper and
a lower consolute point, so that the boundary of the tie-line region is a closed curve.
Below the lower consolute point at 61.5◦C water and nicotine mix in all proportions.
Above the upper consolute temperature at 233.0◦C they also mix in all proportions.^9
Between these temperatures there is a tie-line region in the diagram and the liquids
are only partially miscible. Another mixture with both a lower and an upper consolute
temperature is butoxyethanol and water, with a lower consolute temperature of 48.01◦C
and an upper consolute temperature of 130.7◦C.^10
If the positive deviation from ideality is even greater than that of Figure 6.15, the
two-phase region can extend to the liquid–vapor region and produce a phase diagram
like that of Figure 6.16, which shows the temperature–composition phase diagram
of furfural and water at a constant pressure of 1.000 atm. The horizontal tie line at(^9) A. N. Campbell, E. M. Kartzmark, and W. E. Falconer,Can. J. Chem., 36 , 1475 (1958).
(^10) Y. Izumiet al.,J. Physique, 42 , 544 (1981); H. L. Cox and L. H. Cretcher,J. Amer. Chem. Soc., 48 , 451
(1926).