Liquid—liquid equilibria for aniline + benzene + n-heptane and methanol + aniline + n-heptane + benzene at 25°C

## Ž . Ä Ž The liquid q liquid equilibria for x CH CN q x C H NH q 1 y x y

The (liquid+liquid) equilibria of ( x1CH3CN+x2c and {x1CH3OH+x2CH3CN+x3c-C6H12+(1-x1-x2-x3)CH3(CH2)5CH3} have been measured at the temperature 298.15 K. The experimental values have been well correlated with extended UNIQUAC and modified Wilson models having binary, ternary, and quaternary paramete

The (liquid + liquid) equilibria of {x1CH3CN at the temperature T = 313.15 K, and {x1C6H5NH2 + x2CH3OH + (1 -x1 -x2)c-C6H12} at T = 298.15 and T = 300.15 K have been measured. At T = 298.15 K the last mixture has only one region of immiscibility, while at T = 300.15 K the mixture has two separate b

The increasing importance of vacuum distillation in the petroleum, chemical and allied industries has drawn attention to the need for accurate vapour-liquid equilibria results at reduced pressure. Vapour-liquid equilibria results are presented for the azeotropic systems n-butanol ethylbenzene, and

The (liquid + liquid) equilibria of {x1C6H5NH2 CH2)5CH3} at the temperature 298.15 K have been measured. The experimental values have been well correlated with extended UNIQUAC and modified Wilson models having binary, ternary, and quaternary parameters.