Victoria Sanahuja-Embuena scite author profile

Although forward osmosis (FO) membranes have shown great promise for many applications, there are few studies attempting to create a systematization of the testing conditions at a pilot scale for FO membrane modules. To address this issue, hollow fiber forward osmosis (HFFO) membrane modules with different performances (water flux and solute rejection) have been investigated at different operating conditions. Various draw and feed flow rates, draw solute types and concentrations, transmembrane pressures, temperatures, and operation modes have been studied using two model feed solutions—deionized water and artificial seawater. The significance of the operational conditions in the FO process was attributed to a dominant role of concentration polarization (CP) effects, where the selected draw solute and draw concentration had the biggest impact on membrane performance due to internal CP. Additionally, the rejection of the HFFO membranes using three model solutes (caffeine, niacin, and urea) were determined under both FO and reverse osmosis (RO) conditions with the same process recovery. FO rejections had an increase of 2% for caffeine, 19% for niacin, and 740% for urea compared to the RO rejections. Overall, this is the first extensive study of commercially available inside-out HFFO membrane modules.

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Improved reverse osmosis thin film composite biomimetic membranes by incorporation of polymersomes

Górecki

Reurink

Khan³

et al. 2020

Journal of Membrane Science

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Employing the synergistic effect between aquaporin nanostructures and graphene oxide for enhanced separation performance of thin-film nanocomposite forward osmosis membranes

et al. 2021

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Enhancing selectivity of novel outer-selective hollow fiber forward osmosis membrane by polymer nanostructures

Sanahuja-Embuena

Lim

Górecki

et al. 2022

Chemical Engineering Journal

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Transport mechanisms behind enhanced solute rejection in forward osmosis compared to reverse osmosis mode

Sanahuja-Embuena

Frauholz²,

Oruc

et al. 2021

Journal of Membrane Science

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