From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration
Interfacial polymerization is an effective technique to synthesize high performance polyamide thin film membranes. However, it is still very challenging to apply this technique on ceramic hollow fibres or tubular membranes, especially when the substrate pore size is in the microfiltration range. In...
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sg-ntu-dr.10356-1503812021-05-29T20:11:34Z From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration Chong, Jeng Yi Wang, Rong School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Singapore Membrane Technology Centre Engineering::Environmental engineering Interfacial Polymerization Polyamide Thin Film Interfacial polymerization is an effective technique to synthesize high performance polyamide thin film membranes. However, it is still very challenging to apply this technique on ceramic hollow fibres or tubular membranes, especially when the substrate pore size is in the microfiltration range. In this study, we demonstrated that thin polyamide layer can be synthesized directly on microfiltration ceramic tubular membranes with a surface pore size of 0.1–0.2 μm via interfacial polymerization without an intermediate layer. A thin polyamide layer with a thickness 30–40 nm was coated on the inner surface of the ceramic substrate by circulating the monomers of branched polyethyleneimine (PEI), piperazine (PIP), and trimesoyl chloride (TMC) through the membrane lumen. The thin film layer showed good integration with the ceramic substrate and could withstand high pressure of at least 10 bar. The mechanical property of the polyamide layer was examined using AFM and the modulus was measured. The thin film composite membranes demonstrated excellent nanofiltration performance with a pure water permeability of 16–18 LMH bar−1 and a molecular weight cut-off of ∼250 Da. The membranes also showed good salt rejections (>90%) to CaCl2, MgCl2 and MgSO4, and still maintained high rejections of MgCl2 and sucrose at elevated temperature of 80 °C. The use of highly inert ceramic substrates has enabled the application of polyamide membranes under more challenging conditions. Economic Development Board (EDB) Accepted version The authors gratefully acknowledge the funding support from the Singapore Economic Development Board to the Singapore Membrane Technology Centre. 2021-05-24T03:16:20Z 2021-05-24T03:16:20Z 2019 Journal Article Chong, J. Y. & Wang, R. (2019). From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration. Journal of Membrane Science, 587, 117161-. https://dx.doi.org/10.1016/j.memsci.2019.06.001 0376-7388 https://hdl.handle.net/10356/150381 10.1016/j.memsci.2019.06.001 2-s2.0-85067193508 587 117161 en Journal of Membrane Science © 2019 Elsevier B.V. All rights reserved. This paper was published in Journal of Membrane Science and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Environmental engineering Interfacial Polymerization Polyamide Thin Film |
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Engineering::Environmental engineering Interfacial Polymerization Polyamide Thin Film Chong, Jeng Yi Wang, Rong From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| description |
Interfacial polymerization is an effective technique to synthesize high performance polyamide thin film membranes. However, it is still very challenging to apply this technique on ceramic hollow fibres or tubular membranes, especially when the substrate pore size is in the microfiltration range. In this study, we demonstrated that thin polyamide layer can be synthesized directly on microfiltration ceramic tubular membranes with a surface pore size of 0.1–0.2 μm via interfacial polymerization without an intermediate layer. A thin polyamide layer with a thickness 30–40 nm was coated on the inner surface of the ceramic substrate by circulating the monomers of branched polyethyleneimine (PEI), piperazine (PIP), and trimesoyl chloride (TMC) through the membrane lumen. The thin film layer showed good integration with the ceramic substrate and could withstand high pressure of at least 10 bar. The mechanical property of the polyamide layer was examined using AFM and the modulus was measured. The thin film composite membranes demonstrated excellent nanofiltration performance with a pure water permeability of 16–18 LMH bar−1 and a molecular weight cut-off of ∼250 Da. The membranes also showed good salt rejections (>90%) to CaCl2, MgCl2 and MgSO4, and still maintained high rejections of MgCl2 and sucrose at elevated temperature of 80 °C. The use of highly inert ceramic substrates has enabled the application of polyamide membranes under more challenging conditions. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Chong, Jeng Yi Wang, Rong |
| format |
Article |
| author |
Chong, Jeng Yi Wang, Rong |
| author_sort |
Chong, Jeng Yi |
| title |
From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| title_short |
From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| title_full |
From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| title_fullStr |
From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| title_full_unstemmed |
From micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| title_sort |
from micro to nano : polyamide thin film on microfiltration ceramic tubular membranes for nanofiltration |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150381 |
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1701270540693536768 |