Investigation of aqueous and organic co-solvents roles in fabricating seawater reverse osmosis membrane

The addition of co-solvents in aqueous or organic phases of interfacial polymerization is a feasible strategy to tune the performance of aromatic polyamide (PA) thin-film composite (TFC) membrane for brackish water desalination, however, limited progress has been made in developing co-solvent-tailor...

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Published inJournal of membrane science Vol. 645; p. 120187
Main Authors Li, Can, Zhao, Yali, Lai, Gwo Sung, Wang, Rong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 05.03.2022
Subjects
brackish water
Co-solvent
crosslinking
desalination
Interfacial polymerization
Mechanistic insight
microstructure
permeability
Polyamide
polyamides
polymerization
polyvinyl alcohol
reverse osmosis
seawater
Seawater reverse osmosis
solubility
surface tension
wettability
Interfacial polymerization
Polyamide
Mechanistic insight
Co-solvent
Seawater reverse osmosis
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Abstract The addition of co-solvents in aqueous or organic phases of interfacial polymerization is a feasible strategy to tune the performance of aromatic polyamide (PA) thin-film composite (TFC) membrane for brackish water desalination, however, limited progress has been made in developing co-solvent-tailored seawater reverse osmosis (SWRO) membrane. Herein, SWRO membranes were prepared by adding various types of aqueous and organic co-solvents to reveal their impacts on the formation of the PA crumples. It was found that the aqueous/organic co-solvents affected the solubility parameter distance and interfacial tension between two immiscible phases, facilitating the diamine diffusion rate and resulting in a significant change in PA structure. The PA layer with modulated microstructure and varied surface features such as widened void structure, rougher surface, better wettability, and controlled cross-linking degree can be derived from the high interfacial instability that existed between the co-solvent and initial PA film due to the close mutual affinity. Besides, the additional polyvinyl alcohol coating layer atop the PA membrane successfully further enhanced the membrane selectivity. Overall, the mechanistic insights attained in this study revealed the relationship of diamine diffusion, physicochemical properties of PA layer and membrane separation performance for co-solvent-assisted membrane fabrication to render resultant SWRO membrane with more comparable permselectivity. The optimized TFC-SWRO membranes exhibited pure water permeability of 2.2 and 3.2 L m−2 h−1 bar−1 upon the assistance of aqueous and organic co-solvents, respectively, while maintaining excellent NaCl rejection of approximately 99% under seawater desalination tests. [Display omitted] ✓Aqueous or organic co-solvents were used aiming to flexibly design high-performance SWRO membrane.✓The synergistic impacts of solubility parameter and interfacial tension were established to elucidate diamine diffusion behavior.✓The relationship of “monomer diffusion - structure property - separation performance” was elaborated.✓The formation of a PVA coating layer enhanced the selectivity of co-solvent-assisted SWRO membrane.
AbstractList The addition of co-solvents in aqueous or organic phases of interfacial polymerization is a feasible strategy to tune the performance of aromatic polyamide (PA) thin-film composite (TFC) membrane for brackish water desalination, however, limited progress has been made in developing co-solvent-tailored seawater reverse osmosis (SWRO) membrane. Herein, SWRO membranes were prepared by adding various types of aqueous and organic co-solvents to reveal their impacts on the formation of the PA crumples. It was found that the aqueous/organic co-solvents affected the solubility parameter distance and interfacial tension between two immiscible phases, facilitating the diamine diffusion rate and resulting in a significant change in PA structure. The PA layer with modulated microstructure and varied surface features such as widened void structure, rougher surface, better wettability, and controlled cross-linking degree can be derived from the high interfacial instability that existed between the co-solvent and initial PA film due to the close mutual affinity. Besides, the additional polyvinyl alcohol coating layer atop the PA membrane successfully further enhanced the membrane selectivity. Overall, the mechanistic insights attained in this study revealed the relationship of diamine diffusion, physicochemical properties of PA layer and membrane separation performance for co-solvent-assisted membrane fabrication to render resultant SWRO membrane with more comparable permselectivity. The optimized TFC-SWRO membranes exhibited pure water permeability of 2.2 and 3.2 L m−2 h−1 bar−1 upon the assistance of aqueous and organic co-solvents, respectively, while maintaining excellent NaCl rejection of approximately 99% under seawater desalination tests. [Display omitted] ✓Aqueous or organic co-solvents were used aiming to flexibly design high-performance SWRO membrane.✓The synergistic impacts of solubility parameter and interfacial tension were established to elucidate diamine diffusion behavior.✓The relationship of “monomer diffusion - structure property - separation performance” was elaborated.✓The formation of a PVA coating layer enhanced the selectivity of co-solvent-assisted SWRO membrane.
The addition of co-solvents in aqueous or organic phases of interfacial polymerization is a feasible strategy to tune the performance of aromatic polyamide (PA) thin-film composite (TFC) membrane for brackish water desalination, however, limited progress has been made in developing co-solvent-tailored seawater reverse osmosis (SWRO) membrane. Herein, SWRO membranes were prepared by adding various types of aqueous and organic co-solvents to reveal their impacts on the formation of the PA crumples. It was found that the aqueous/organic co-solvents affected the solubility parameter distance and interfacial tension between two immiscible phases, facilitating the diamine diffusion rate and resulting in a significant change in PA structure. The PA layer with modulated microstructure and varied surface features such as widened void structure, rougher surface, better wettability, and controlled cross-linking degree can be derived from the high interfacial instability that existed between the co-solvent and initial PA film due to the close mutual affinity. Besides, the additional polyvinyl alcohol coating layer atop the PA membrane successfully further enhanced the membrane selectivity. Overall, the mechanistic insights attained in this study revealed the relationship of diamine diffusion, physicochemical properties of PA layer and membrane separation performance for co-solvent-assisted membrane fabrication to render resultant SWRO membrane with more comparable permselectivity. The optimized TFC-SWRO membranes exhibited pure water permeability of 2.2 and 3.2 L m⁻² h⁻¹ bar⁻¹ upon the assistance of aqueous and organic co-solvents, respectively, while maintaining excellent NaCl rejection of approximately 99% under seawater desalination tests.
ArticleNumber 120187
Author Wang, Rong
Lai, Gwo Sung
Zhao, Yali
Li, Can
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  organization: Singapore Membrane Technology Centre, Nanyang Environment and Water Research Institute, Nanyang Technological University, 1 Cleantech Loop, 637141, Singapore
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Keywords Interfacial polymerization
Polyamide
Mechanistic insight
Co-solvent
Seawater reverse osmosis
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Snippet The addition of co-solvents in aqueous or organic phases of interfacial polymerization is a feasible strategy to tune the performance of aromatic polyamide...
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SubjectTerms brackish water
Co-solvent
crosslinking
desalination
Interfacial polymerization
Mechanistic insight
microstructure
permeability
Polyamide
polyamides
polymerization
polyvinyl alcohol
reverse osmosis
seawater
Seawater reverse osmosis
solubility
surface tension
wettability
Title Investigation of aqueous and organic co-solvents roles in fabricating seawater reverse osmosis membrane
URI https://dx.doi.org/10.1016/j.memsci.2021.120187
https://www.proquest.com/docview/2636500078
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