Fabrication of Nano-Composite Membrane for FO Desalination
الملخص
The aim of this work is to solve the current issues experienced in forward
osmosis (FO) membranes such as low water flux, membrane fouling, and high reverse
solute flux (RSF). We also propose a novel technique to eradicate the problems faced
with electrospinning technique for the fabrication of nanofibers (NFB). Polysulfone
(PSF) and polyethersulfone (PES) are used to fabricate highly porous FO NFB
membrane with enhanced water flux and minimal RSF value. In this study, NFB are
produced by a novel solution blow spinning (SBS) technique. These fabricated NFB
are tested for the FO process and further modified by interfacial polymerization (IP)
technique to deposit polyamide (PA) layer incorporating nanomaterial (graphene oxide)
The structure and morphology of the NFB are characterized using (SEM),
(AFM), Contact angle measurement, (FTIR) and (XRD) studies. These techniques
confirmed the changes in the membrane morphology, formation of PA layer and
presence of graphene oxide (GO) in it.
The novelty of this work is the use of solution blown spinning technique for the NFB
membrane production, which has not been reported for use in membrane-based
desalination. NFB formed using this technique showed considerable enhancement in
water flux and decreased RSF. In addition, the prepared NFB membrane after the heat pressing post treatment exhibited good mechanical strength with an improvement in
young's modulus almost three to four times. The FO performance of the nanofiber
membrane showed a significant increase in flux of almost two-fold, while having
minimal RSF values below 0.2 g/m2h
DOI/handle
http://hdl.handle.net/10576/21604المجموعات
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