Dilute solution behavior of partly hydrolyzed poly(vinyl acetate) in selective solvent mixtures and the pervaporation performance of their membranes in benzene/cyclohexane separation

Abstract

The pervaporation (PV) performance of partly hydrolyzed poly(vinyl acetate) (PHPVAC) membranes in benzene/cyclohexane separaion was examined. The extremum and asymmetric changes of PV performance, the separation factor ( α) and the permeation flux ( J) of PHPVAC membrane with cast solvent composition (water/dioxane, H 2O/DIO) were observed. Also, the dilute solution behavior of PHPVAC in H 2O/DIO was investigated. The maximum of intrinsic viscosity [ η], the minimums of Huggins constant k H, flow active energy E η , and asymmetric changes with the solvent composition also occurred. Both extreme phenomena for both PV performance of PHPVAC membranes and the solution behavior of PHPVAC could be explained by the conformational transition of amphiphilic PHPVAC in the selective solvent mixtures.