Study on Nanocomposite Membranes with Enhanced Performance for Forward Osmosis

Abstract

Nanocomposite membranes with enhanced performance were investigated for forward osmosis (FO) by incorporation of nanoporous materials. The incorporation of zeolite into both polysulfone (PSf) substrates and polyamide (PA) rejection layer of thin film composite (TFC) membrane (PSf-TFC) could effectively improve FO membrane performance. In the case of zeolite loading into PA layer, the resulted PSf based thin film nanocomposite (PSf-TFN) membrane showed improved but limited water permeability of the rejection layer, corresponding to ~1.76 times water flux higher than PSf-TFC membrane. Significantly, the polysulfone nanocomposite (PSfN) based TFC membrane (PSfN-TFC), which formed by embedding zeolite nanoparticles in PSf substrates, not only enhanced water permeability of the polyamide rejection layer but also reduced internal concentration polarization (ICP) effect, and thus improved FO membrane performance significantly, which corresponding to ~2.50 times water flux higher than PSf-TFC membrane.