Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection
Membrane fouling and ammonium transmembrane diffusion simultaneously pose great challenges in membrane-based pre-concentration of domestic wastewater for efficient subsequent resources recovery (i.e., energy and nutrients). Herein, amine-functionalized osmotic membranes were fabricated by optimizing...
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sg-ntu-dr.10356-1595872022-06-28T01:09:18Z Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection Bao, Xian She, Qianhong Long, Wei Wu, Qinglian School of Civil and Environmental Engineering Singapore Membrane Technology Centre Nanyang Environment and Water Research Institute Engineering::Environmental engineering Primary Amine-Functionalization Forward Osmosis Membrane fouling and ammonium transmembrane diffusion simultaneously pose great challenges in membrane-based pre-concentration of domestic wastewater for efficient subsequent resources recovery (i.e., energy and nutrients). Herein, amine-functionalized osmotic membranes were fabricated by optimizing the grafting pathway of polyamidoamine (PAMAM) dendrimer to mitigate fouling and ammonium transmembrane diffusion. Compared to the control membrane, the PAMAM-grafted membranes with abundant primary amine groups possessed substantially increased hydrophilicity and positive charges (i.e., protonated primary amines) and thus exhibited superior anti-fouling capability and ammonium selectivity. With further increasing the PAMAM grafting ratio, the membrane exhibited a steady enhancement in ammonium selectivity and eventually achieved an ultra-high ammonium rejection of 99.4%. Nevertheless, the anti-fouling capability of such ammonium ultra-selective membrane was weakened due to the suppression of the adverse impact of excessive positive charges over the beneficial effect of increased surface hydrophilicity. This in turn leads to a drop of ammonium rejection below 90% during domestic wastewater concentration. This study demonstrates that the membrane with a moderate primary amine loading could achieve the highest anti-fouling capability with only less than 10% flux decline and meanwhile maintain an excellent ammonium rejection above 94% during raw domestic wastewater concentration. This work provides theoretical guidance for fabricating simultaneously enhanced anti-fouling and ammonia-rejecting membranes. Nanyang Technological University This research was supported by the Starting Funding of Sichuan University, China, for Young Teachers (1082204112279), the National Natural Science Foundation of China (52000132), and the Start-up Grant (SUG) from Nanyang Technological University (#002195-00001), Singapore. 2022-06-28T01:09:18Z 2022-06-28T01:09:18Z 2021 Journal Article Bao, X., She, Q., Long, W. & Wu, Q. (2021). Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection. Water Research, 190, 116678-. https://dx.doi.org/10.1016/j.watres.2020.116678 0043-1354 https://hdl.handle.net/10356/159587 10.1016/j.watres.2020.116678 33279747 2-s2.0-85097391027 190 116678 en 002195-00001 Water Research © 2020 Elsevier Ltd. All rights reserved. |
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Engineering::Environmental engineering Primary Amine-Functionalization Forward Osmosis Bao, Xian She, Qianhong Long, Wei Wu, Qinglian Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| description |
Membrane fouling and ammonium transmembrane diffusion simultaneously pose great challenges in membrane-based pre-concentration of domestic wastewater for efficient subsequent resources recovery (i.e., energy and nutrients). Herein, amine-functionalized osmotic membranes were fabricated by optimizing the grafting pathway of polyamidoamine (PAMAM) dendrimer to mitigate fouling and ammonium transmembrane diffusion. Compared to the control membrane, the PAMAM-grafted membranes with abundant primary amine groups possessed substantially increased hydrophilicity and positive charges (i.e., protonated primary amines) and thus exhibited superior anti-fouling capability and ammonium selectivity. With further increasing the PAMAM grafting ratio, the membrane exhibited a steady enhancement in ammonium selectivity and eventually achieved an ultra-high ammonium rejection of 99.4%. Nevertheless, the anti-fouling capability of such ammonium ultra-selective membrane was weakened due to the suppression of the adverse impact of excessive positive charges over the beneficial effect of increased surface hydrophilicity. This in turn leads to a drop of ammonium rejection below 90% during domestic wastewater concentration. This study demonstrates that the membrane with a moderate primary amine loading could achieve the highest anti-fouling capability with only less than 10% flux decline and meanwhile maintain an excellent ammonium rejection above 94% during raw domestic wastewater concentration. This work provides theoretical guidance for fabricating simultaneously enhanced anti-fouling and ammonia-rejecting membranes. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Bao, Xian She, Qianhong Long, Wei Wu, Qinglian |
| format |
Article |
| author |
Bao, Xian She, Qianhong Long, Wei Wu, Qinglian |
| author_sort |
Bao, Xian |
| title |
Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| title_short |
Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| title_full |
Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| title_fullStr |
Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| title_full_unstemmed |
Ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| title_sort |
ammonium ultra-selective membranes for wastewater treatment and nutrient enrichment: interplay of surface charge and hydrophilicity on fouling propensity and ammonium rejection |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159587 |
| _version_ |
1738844901794119680 |