Guide to rational membrane selection for oily wastewater treatment by membrane distillation
Membrane wetting and fouling are two major challenges in membrane distillation (MD), especially when the feed has components with low surface tension. A series of membranes with different wettability were developed herein to provide rational guidelines for membrane selection to treat these wastewate...
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sg-ntu-dr.10356-1701012023-08-28T05:00:26Z Guide to rational membrane selection for oily wastewater treatment by membrane distillation Zhang, Xiaocheng Liao, Xiangjun Shi, Minghao Liao, Yuan Razaqpur, Abdul Ghani You, Xiaofei Nanyang Environment and Water Research Institute Singapore Membrane Technology Centre Engineering::Environmental engineering Oily Wastewater Janus embrane Membrane wetting and fouling are two major challenges in membrane distillation (MD), especially when the feed has components with low surface tension. A series of membranes with different wettability were developed herein to provide rational guidelines for membrane selection to treat these wastewaters. The membranes with different wettability, and Janus membranes composing of same hydrophilic surface but different substrates (hydrophobicity, superhydrophobicity, superomniphobicity), were made by electrospinning and modifications. It was found that when the feeds had anionic and cationic surfactants, the superhydrophobic and superomniphobic modifications improved their anti-fouling/wetting properties. However, both membranes were rapidly wetted when the feeds had nonionic surfactant Tween-20. The Janus membranes could not delay membrane fouling/wetting when treating the feeds with free surfactants. It even worsened membrane performance as the hydrophilic layer absorbed the surfactants and accelerated membrane fouling/wetting. Regarding the emulsified oily wastewaters, the hydrophilic layer on Janus membranes did show obvious improvement in their anti-fouling/wetting abilities. The underwater hydrophobic layer formed a protective layer and impeded oil contact with the underlying substrate, but the choice of the substrate still needed attention. The superomniphobic substrate showed the most excellent stability as it could reject surfactants even if some managed to pass through. This work was supported by Nankai University & Cangzhou Bohai New Area Institute of Green Chemical Engineering Fund (20220142), National Natural Science Foundation of China (21906086), National One Thousand Talents Foreign Experts Program of the Ministry of Science and Technology of China and Tianjin Government (040-BE044741, 040-C021801601). 2023-08-28T05:00:26Z 2023-08-28T05:00:26Z 2023 Journal Article Zhang, X., Liao, X., Shi, M., Liao, Y., Razaqpur, A. G. & You, X. (2023). Guide to rational membrane selection for oily wastewater treatment by membrane distillation. Desalination, 549, 116323-. https://dx.doi.org/10.1016/j.desal.2022.116323 0011-9164 https://hdl.handle.net/10356/170101 10.1016/j.desal.2022.116323 2-s2.0-85144750303 549 116323 en Desalination © 2022 Elsevier B. V. All rights reserved. |
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Engineering::Environmental engineering Oily Wastewater Janus embrane |
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Engineering::Environmental engineering Oily Wastewater Janus embrane Zhang, Xiaocheng Liao, Xiangjun Shi, Minghao Liao, Yuan Razaqpur, Abdul Ghani You, Xiaofei Guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| description |
Membrane wetting and fouling are two major challenges in membrane distillation (MD), especially when the feed has components with low surface tension. A series of membranes with different wettability were developed herein to provide rational guidelines for membrane selection to treat these wastewaters. The membranes with different wettability, and Janus membranes composing of same hydrophilic surface but different substrates (hydrophobicity, superhydrophobicity, superomniphobicity), were made by electrospinning and modifications. It was found that when the feeds had anionic and cationic surfactants, the superhydrophobic and superomniphobic modifications improved their anti-fouling/wetting properties. However, both membranes were rapidly wetted when the feeds had nonionic surfactant Tween-20. The Janus membranes could not delay membrane fouling/wetting when treating the feeds with free surfactants. It even worsened membrane performance as the hydrophilic layer absorbed the surfactants and accelerated membrane fouling/wetting. Regarding the emulsified oily wastewaters, the hydrophilic layer on Janus membranes did show obvious improvement in their anti-fouling/wetting abilities. The underwater hydrophobic layer formed a protective layer and impeded oil contact with the underlying substrate, but the choice of the substrate still needed attention. The superomniphobic substrate showed the most excellent stability as it could reject surfactants even if some managed to pass through. |
| author2 |
Nanyang Environment and Water Research Institute |
| author_facet |
Nanyang Environment and Water Research Institute Zhang, Xiaocheng Liao, Xiangjun Shi, Minghao Liao, Yuan Razaqpur, Abdul Ghani You, Xiaofei |
| format |
Article |
| author |
Zhang, Xiaocheng Liao, Xiangjun Shi, Minghao Liao, Yuan Razaqpur, Abdul Ghani You, Xiaofei |
| author_sort |
Zhang, Xiaocheng |
| title |
Guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| title_short |
Guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| title_full |
Guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| title_fullStr |
Guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| title_full_unstemmed |
Guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| title_sort |
guide to rational membrane selection for oily wastewater treatment by membrane distillation |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170101 |
| _version_ |
1779156501512847360 |