ABSTRACT
In the present study, a novel poly(vinyl alcohol) membrane system was developed by a systematic approach for the pervaporation separation of water–isopropanol azeotropic mixtures. Poly(vinyl alcohol) with 5 vol% cross-linked membranes showed water permeance of 4166 gpu with intrinsic selectivity 47. To further enhance the separation efficiency a hydrophilic nanofiller, bentonite nanoclay, is reinforced with cross-linked poly(vinyl alcohol) (5 vol% glutraldehyde) membranes. The water permeance of the membranes increased to 8232 gpu, which is 100% more than that of cross-linked membranes. Membrane selectivity and the overall pervaporation performance also showed about 63 and 157% increment, respectively.
GRAPHICAL ABSTRACT
![](/cms/asset/a3a92b4a-88dd-48e3-9b2f-d31777b22971/lpte_a_1132454_uf0001_oc.jpg)
Acknowledgments
The authors thank Sophisticated Analytical Instrument Facility (SAIF), Sophisticated Test and Instrumentation Centre, Cochin, Kerala, India for the analysis carried out.