Abstract
Pervaporation may successfully be implemented for the separation of azeotropic mixtures which generally requires energy intensive separation procedures. Separation of methanol from methyl acetate by pervaporation is a representative application. In this study the commercial polyvinyl alcohol (PVA)-based membranes PERVAPTM 4155-30, PERVAPTM 4155-70, and PERVAPTM 4155-80 were used to recover methanol from binary methanol–methyl acetate mixtures. The separation performance was investigated for various operating parameters such as feed composition, feed temperature, and permeate pressure and discussed in terms of permeance and selectivity. An empirical model was developed to quantify the effect of membrane swelling on the permeate flux.
ACKNOWLEDGEMENTS
The authors are grateful to Sulzer Chemtech AG, Switzerland, for kindly providing membrane samples. Special thanks go to Eva Maria Maus and David Gladman for their efforts. The authors also thank Herta Luttenberger for her support with the analytics.