Effect of Nonsolvent Additives on the Pore Size and the Pore Size Distribution of Aromatic Polyamide Ro Membranes

Nguyen, Tuyen Duong Thanh; Matsuura, Takeshi; Sourirajan, S.

doi:10.1080/00986448708911895

Cited by 42 publications

(11 citation statements)

References 13 publications

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“…PDMS membranes (thickness, 25 pm) were generously supplied by General Electric Company. PA membranes were laboratory prepared by the method described by Nguyen et al (9). PA (poly-rn-phenylene-iso(70)-co-tere(30)-phthalamide, 10.3 wt%), LiCl (3.8 wt%), and dimethyl acetamide (85.9 wt%) were mixed and cast on a glass plate.…”

Section: Methodsmentioning

confidence: 99%

A Study of Polydimethylsiloxane/Aromatic Polyamide Laminated Membranes for Separation of Acetic Acid/Water Mixtures by Pervaporation Process

Deng

Sourirajan

Matsuura

1994

Separation Science and Technology

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Separation of acetic acid/water mixtures by pervaporation was attempted over a range of compositions using polydimethylsiloxane (PDMS). aromatic polyamide (PA), and laminated polydimethylsiloxane-aromatic polyamide membranes. PDMS membranes are hydrophobic and acetic acid selective. whereas PA membranes are hydrophilic and water selective. When PDMS and PA membranes were laminated, with PDMS on the top side and in contact with the feed, water selectivity of the bottom PA membrane was intensified. On the other hand, when the PA membrane was on the top side and in contact with the feed, the selectivity was lowered.

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Section: Methodsmentioning

confidence: 99%

A Study of Polydimethylsiloxane/Aromatic Polyamide Laminated Membranes for Separation of Acetic Acid/Water Mixtures by Pervaporation Process

Deng

Sourirajan

Matsuura

1994

Separation Science and Technology

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“…Further, the presence of additive also improved the flux behavior of membranes 13. A broad variety of morphologically different polymeric membranes have been reported by changing the parameters such as the composition and concentrations of the polymer, solvent, and additive 3, 14–16…”

Section: Introductionmentioning

confidence: 99%

Polyurethane and carboxylated polysulfone blend ultrafiltration membranes. I. Preparation and characterization

Latha

Shanthanalakshmi

Mohan

et al. 2005

J of Applied Polymer Sci

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Polysulfone was functionalized by carboxylation and blended with polyurethane (ether type). Blend membranes were prepared in the presence and absence of the additive poly(ethylene glycol) 600 and subjected to ultrafiltration characterizations such as compaction, pure water flux, water content, and hydraulic resistance. Morphological studies of the membranes were performed with scanning electron microscopy. The effects of the polymer composition and additive concentrations on the above parameters were analyzed and the results compared.

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“…[TI) = m,,, 01 (2) The polymer-solvent-additive intrinsic viscosity, [TI' (cm3 g-'), is compared to the Mark-Houwink constants K (cm3 g-') and a, as determined for the polymer in pure solvent only. Then Mapp is equal to M, unless the additive causes an intrinsic viscosity change.…”

Section: Linear Polymer Solutions and Their Resultant Filmsmentioning

confidence: 99%

Some Design Aspects of Aromatic Polyamide Reverse‐Osmosis Membranes

Wood

Sourirajan

1993

Dev. Chem. Eng. Mineral Process.

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Linear-polymer solutions are comparable to a suspension of macromolecule spheres.Macromolecules concentrate at the interface during the membrane-forming procedure. They coalesce with each other suficiently for the su$ace to become a sheet of interconnected macromolecules. Interstitial voids are formed whose magnitude is dependent on the size and packing arrangement of the macromolecules, and is also influenced by the extent of coalescence occurring in the interstitial voids. A subsequent gelation procedure renders the macromolecules paracrystalline. During operation, the membrane allows permeation of solution components primarily through the interstitial voids.Membrane design requires the ability to predict membrane pe~ormance from the precursor casting conditions. This paper illustrates the practical utility of the interstitial void model for membrane design purposes. Some design aspects are presented for various reverse-osmosis membranes made from an aromatic polyamide polymer.

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Effect of Nonsolvent Additives on the Pore Size and the Pore Size Distribution of Aromatic Polyamide Ro Membranes

Cited by 42 publications

References 13 publications

A Study of Polydimethylsiloxane/Aromatic Polyamide Laminated Membranes for Separation of Acetic Acid/Water Mixtures by Pervaporation Process

A Study of Polydimethylsiloxane/Aromatic Polyamide Laminated Membranes for Separation of Acetic Acid/Water Mixtures by Pervaporation Process

Polyurethane and carboxylated polysulfone blend ultrafiltration membranes. I. Preparation and characterization

Some Design Aspects of Aromatic Polyamide Reverse‐Osmosis Membranes

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