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AuthorRalph Rolly, Gonzales
AuthorAbdel-Wahab, Ahmed
AuthorHan, Dong Suk
AuthorMatsuyama, Hideto
AuthorPhuntsho, Sherub
AuthorShon, Ho Kyong
Available date2022-12-19T05:24:28Z
Publication Date2021-07-01
Publication NameJournal of Membrane Science
Identifierhttp://dx.doi.org/10.1016/j.memsci.2021.119567
CitationGonzales, R. R., Abdel-Wahab, A., Han, D. S., Matsuyama, H., Phuntsho, S., & Shon, H. K. (2021). Control of the antagonistic effects of heat-assisted chlorine oxidative degradation on pressure retarded osmosis thin film composite membrane surface. Journal of Membrane Science, 636, 119567.
ISSN0376-7388
URIhttps://www.sciencedirect.com/science/article/pii/S0376738821005147
URIhttp://hdl.handle.net/10576/37382
AbstractDuring pressure retarded osmosis (PRO) operation, thin film composite (TFC) membranes are continuously exposed to chemicals present in the stream that can deteriorate the membrane's selective layer with exposure time. Following this observation, TFC membranes are placed in controlled oxidative degradation conditions using aqueous NaOCl solutions. Active chlorine, along with heat, can thin out the dense layer and, when controlled and optimized, can tune the membrane surface properties and separation efficiency as desirable for specific applications. The chlorine oxidative degradation is optimized in terms of chlorine exposure (a factor of both exposure time and chemical dosage), solution pH, and the subsequent heating time. After the chemical modification process, the membrane surface properties were characterized and the PRO performance as well as the osmotic energy harvesting capability were determined. The modified membranes exhibited different levels of polyamide degradation and increase in water permeability, which came along with decrease in selectivity. Optimization of the chlorine oxidative degradation using response surface methodology was performed to maximize the water permeability and extractable osmotic power while keeping salt rejection satisfactory. After performing chlorine oxidation at the following optimized conditions: 3025 ppm Cl2·h, pH 10.72, and 3 min heating time, initial non-pressure retarded water flux of 73.2 L m−2 h−1, specific reverse solute flux of 1.17 g L−1, and power density of 18.71 W m−2 (corresponding to water flux of 56.1 L m-2 h-1) at 12 bar were obtained using 0.6 M NaCl as draw and deionized water as feed.
Sponsor- Qatar National Research Fund (QNRF) grant #NPRP 10-1231-160069. - Australian Research Council (ARC) grant #IH170100009.
Languageen
PublisherElsevier
SubjectPressure retarded osmosis
Thin film composite membrane
Chlorine
Oxidative degradation
Response surface methodology
TitleControl of the antagonistic effects of heat-assisted chlorine oxidative degradation on pressure retarded osmosis thin film composite membrane surface
TypeArticle
Volume Number636
ESSN1873-3123
dc.accessType Abstract Only


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