Impact of Poly Vinyl Alcohol on Support Layer of Commercial Thin Film Composite Membranes: Enabling use of Reverse Osmosis Membranes in Forward Osmosis

abstract: In today's world where sustainability is of prime importance, energy efficient method for sea water desalination and waste water treatment is gaining attention. State of art Reverse Osmosis (RO) method has high power consumption; hence people are diverting their attention towards Forw...

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Bibliographic Details
Other Authors: Saraf, Aditi (Author)
Format: Dissertation
Language:English
Published: 2012
Subjects:
Online Access:http://hdl.handle.net/2286/R.I.16032
Description
Summary:abstract: In today's world where sustainability is of prime importance, energy efficient method for sea water desalination and waste water treatment is gaining attention. State of art Reverse Osmosis (RO) method has high power consumption; hence people are diverting their attention towards Forward Osmosis (FO). It has been determined that the support membrane hydrophilicity plays an important role impacting the water flux through membranes in forward osmosis processes. The support layer of commercially available thin film composite RO membranes has been modified with a hydrophilic polymer Polyvinyl Alcohol (PVA). Previous research has demonstrated that PVA coating of the top selective layer of RO membranes has decreased selective layer roughness and increased selective layer hydrophilicity. The role of PVA with 2 different PVA cross-linkers: Maleic Acid (MA) and Glutaraldehyde (GA) at 2 different concentrations of 10% and 50% have been investigated. The hydrophilicity, water flux, salt flux and rejection of the neat and modified membranes in Reverse Osmosis and Forward Osmosis are measured. Maleic Acid when used with PVA at a lower degree of cross linking (10%) shows significant improvement in water flux in SW membranes in comparison to Glutaraldehyde cross-linked PVA coated membranes. This improvement is not so significantly observed in BW membranes due to its lower porosity. PVA when used with a small amount of cross-linker shows promising results in increasing the hydrophilicity of TFC membranes enabling RO membranes to be used efficiently in FO processes. === Dissertation/Thesis === M.S. Chemical Engineering 2012