I think that answer would be:
Toluene and cyclohexane do not dissolve in water (since they are nonpolar), so I would first separate the water from the mixture with a separator funnel.
A mixture of cyclohexane and toluene would be separated by fractional distillation. Cyclohexane, which has a lower boiling point than toluene, would be eliminated from the mixture.
Is there anything wrong in my answer? Would there also be anything to add?
Need to check ternary phase diagram of cyclohexane:toluene:water. There are azeotropes water:toluene at 89 °C (0.49:0.51) and water:cyclohexane at 69 °C (30:70).
Hence, first separate water if you can on the basis of density (layer separation or extraction). And then separate cyclohexane and toluene by fractional distillation. In fractional distillation, you need to repeat the vaporization–condensation cycle to achieve your desired quality.
The first step will be to separate the water from the cyclohexane; a separatory funnel could be used, or the organic layer could be suctioned off with a pipette.
Toluene freezes at -95ºC; cyclohexane freezes at +6.46ºC. Dry ice (solid CO2) sublimes at -78ºC (Ref 1).
Get some dry ice, put the cyclohexane-toluene mix (in a test tube) into the dry ice, wait a little bit, pour off the toluene and let the cyclohexane melt. The separation will be ~90-95% complete. (The separation could be better on an industrial scale.)
The reference also describes some cooling bath temperatures above -78ºC. The very lowest temperature may not be needed, and higher temperatures might give better crystallization (i.e., large crystals of cyclohexane rather than a fine powder or a clunky solid mass).
Distillation
The most effective and easiest way to separate the mixture of toluene and cyclohexane is simple distillation. Cyclohexane has boiling point is about 81°C, and toluene’s boiling point is 111°C.
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