Phase Equilibria of (Pyrrole + Benzene, Cyclohexane, and Hexane) and Density of (Pyrrole + Benzene and Cyclohexane) Binary Systems †

Vapor-liquid equilibria of two binary systems, benzene-n-hexane and benzene-cyclohexane, were measured at pressures from 4 to 18 atm. The three-constant Redlich-Kister equation was found satisfactory for correlation. With the benzene-n-hexane system no azeotrope occurred ; with the benzene-cyclohex

Vapour-hqmd equdtbrmm data for the binary systems acetone-benzene, benzene-cyclohexane and acetonecyclohexane have been determmed experlmentally at 25°C The reduction producers based on Px -y as well as on P -x Isothermal data sets, which mcorporate usual thermodynamically consistent models expressm

Poly(vinyl alcohol) (PVA) membranes (both homogeneous and asymmetric) were studied for the pervaporation separation of benzene/ n-hexane and benzene/ cyclohexane mixtures. The asymmetric PVA membrane with skin and porous layers was prepared through the phase inversion technique. Both asymmetric and