1. Demystifying the compaction effects of TFC polyamide membranes in the desalination of hypersaline brine via high-pressure RO.
- Author
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Lim, Yu Jie, Nadzri, Naeem, Lai, Gwo Sung, and Wang, Rong
- Subjects
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SALINE water conversion , *COMPOSITE membranes (Chemistry) , *POLYAMIDE membranes , *REVERSE osmosis , *COMPACTING , *YOUNG'S modulus , *FEED additives - Abstract
High-pressure reverse osmosis (HPRO) holds promise as a technology for the energy-efficient desalination of hypersaline brine (≥70 g/L total dissolved solids). In this work, we examined the effects of membrane compaction for four types of thin-film composite (TFC) RO membranes from DuPont Water Solutions (XLE, BW30, SW30HR, and XUS180808) using a crossflow filtration setup. The membranes were tested at a maximum applied pressure (ΔP) of 200 bar using a seawater desalination brine feed solution (70 g/L NaCl) to simulate conditions encountered in HPRO processes. Post-compaction membrane characterization revealed the densification of the support and selective layers of the TFC membranes (42–61% decrease in thicknesses and 15–22% reduction in polyamide heights, respectively) with respect to their pristine analogues. We also performed a mechanical strength analysis of the support layers that revealed the inverse relationship between the Young's modulus and magnitude of support layer compression. Our results suggest that support layers with a tensile strength ≥7 MPa and a Young's modulus ≥130 MPa are necessary to fabricate mechanically robust TFC membranes for HPRO application. In terms of desalination performance, the least compact-resistant membrane, XLE, displayed a drastic drop in water permeability and salt rejection from 1.63 L m−2 h−1 bar−1 and 97.5% in seawater RO test (ΔP: 55 bar, 35 g/L NaCl feed solution) to 0.39 L m−2 h−1 bar−1 and 95.0% in HPRO test (ΔP: 200 bar, 70 g/L NaCl feed solution). On the other hand, the most compact-resistant membrane, XUS180808, showed the least decline from 0.60 L m−2 h−1 bar−1 and 99.4% in seawater RO test to 0.35 L m−2 h−1 bar−1 and 99.2% in HPRO test. Overall, all four membranes showed irreversible decline in performance after HPRO tests whereby they could not regain their original permeability values at lower pressures (<200 bar). [Display omitted] • TFC membranes were tested in HPRO for brine desalination (ΔP: 200 bar; feed: 70 g/L NaCl). • Best-performing membrane showed a permeability of 0.35 L m−2 h−1 bar−1 (99.2 % rejection). • Compacted membranes displayed a densified support layer (42–61 % decrease in thickness). • Support layers with tensile strength ≥7 MPa and modulus ≥130 MPa are suitable for HPRO. • Nanovoids were preserved in the compacted polyamide layers (∼20 % decrease in height). [ABSTRACT FROM AUTHOR]
- Published
- 2024
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