Interfacial polymerization on hydrophobic PVDF UF membranes surface: Membrane wetting through pressurization

Ju Sung Lee, Hyun Ho Lee, Jin Ah Seo, Hyun Sic Park, Jinwon Park, Byoung Ryul Min

Research output: Contribution to journalArticle

9 Citations (Scopus)

Abstract

PVDF is widely used in water treatment membranes because of it high chemical resistance and thermal stability levels, and desirable mechanical properties. On the other hand, it is seldom used as support membrane for RO membranes, as it is difficult to undertake interfacial polymerization by traditional methods due to characteristic of hydrophobic surface. However, if the MPD solution is applied at pressures which exceed the pressure at which the PVDF membrane pushes water away, then it can be wetted within the membrane and PA/PVDF composite membrane can be prepared through the reaction of the wetted MPD and TMC. The theoretical penetration pressure needed to wet MPD solution in PVDF with pore size of 10 nm, calculated using Jurin's Law, is 8.8 bar. In this study, PVDF membrane was immersed in MPD solution for 4 h at pressures higher than theoretical penetration pressure using N 2 gas at 25 °C. Interfacial polymerization with TMC was undertaken with surface of the PVDF membrane wetted in MPD solution in this manner to form a thin but consistent PA layer, which was verified through FT-IR and SEM. Salt rejection and permeation flux measurements for NaCl 5000 ppm was conducted for the PA/PVDF membranes prepared in this manner at 25 °C, 30 bar using cross-flow water permeation system. PA/PVDF composite membrane wetted with MPD solution and interfacial polymerization undertaken at 10, 16 and 20 bar with N 2 gas displayed salt rejection ratio of 37.94, 41.79 and 51.03%, and permeation flux of 7.38, 5.26 and 7.94LMH, respectively. The salt rejection ratio for membrane wetted with MPD at 16 bar with CO 2 gas displayed salt rejection ratio of 78.26% and permeation flux of 4.91LMH. The results confirmed the possibility of using PVDF UF membrane of superior properties as support membrane for NF and RO.

Original languageEnglish
Pages (from-to)1207-1213
Number of pages7
JournalApplied Surface Science
Volume356
DOIs
Publication statusPublished - 2015 Nov 30

All Science Journal Classification (ASJC) codes

  • Chemistry(all)
  • Condensed Matter Physics
  • Physics and Astronomy(all)
  • Surfaces and Interfaces
  • Surfaces, Coatings and Films

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