6.6 Phase Diagrams of Nonideal Mixtures 285
97.9◦C connects three points representing the compositions of two liquid phases and
one gas phase that can coexist at equilibrium. By the Gibbs phase rule, only one
intensive variable is independent in a system of two components and three phases.
Since the pressure is fixed for this diagram, the compositions of all three phases and
the temperature are fixed.
To purify furfural by the process ofsteam distillation, water is added to impure
furfural and the two-phase mixture is boiled. If the impurities do not change the boiling
temperature very much, the two-phase mixture boils near 97.9◦C at 1.000 atm. The
vapor has a furfural mole fraction equal to 0.092. The vapor is condensed to two liquid
phases, and the furfural layer is recovered and dried. At 20◦C, this layer has a furfural
mole fraction of 0.78 before drying. The advantage of steam distillation is that it can be
carried out at a lower temperature than an ordinary distillation. The higher temperature
of an ordinary distillation might decompose the organic substance.Solid–Liquid Phase Diagrams
Figure 6.6 depicted the temperature–composition phase diagram of silicon and ger-
manium, which form a nearly ideal solid solution. Figure 6.17 shows the solid–liquid
temperature–composition phase diagram of gold and copper, which are completely
miscible in both the solid and liquid phases, but which do not form an ideal solid
solution. The lower area represents temperatures and compositions of a one-phase
system (a solid solution). The tie-line areas contain tie lines connecting the composi-
tion of a solid solution and the composition of the liquid solution at equilibrium with
that solid solution. The area above the tie-line region represents a liquid solution.
Just as liquids are purified by distillation, solids are sometimes purified byzone
refining, in which a rod-shaped piece of the solid is gradually pulled through a ring-
shaped furnace. A zone of the solid melts as it moves into the furnace and freezes
as it moves out of the furnace. This process is analogous to the vaporization and
recondensation of a liquid in distillation, except that the melting process gives a liquid
of the same composition as the solid, making the initial process correspond to a vertical
line segment in the diagram. In many cases the solid that freezes out approximates the
equilibrium composition at the other end of the tie line at the end of the vertical line11001000900800700600
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1. 0tC/CArea of solid statesArea of liquid statesTie line
areas889 C1063 CGold mole fraction1083 CFigure 6.17 Solid–Liquid Temperature–Composition Phase Diagram of Gold and
Copper.From M. Hansen,The Constitution of Binary Alloys, McGraw-Hill, New York,
1958, p. 199.