Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane
Membrane gas absorption (MGA) as an emerging technology exhibits superior advantages in comparison to conventional carbon dioxide (CO2) absorption processes. However, the decrease in membrane flux, induced by membrane wetting is a significant issue to be pondered upon. Thus, fabrication of an antiwe...
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my.utm.984722023-01-30T03:45:22Z http://eprints.utm.my/id/eprint/98472/ Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane Chang, Pei Thing Sarvveswaran, Paranthaman Rosli, Aishah Siew Chun, Low QD Chemistry Membrane gas absorption (MGA) as an emerging technology exhibits superior advantages in comparison to conventional carbon dioxide (CO2) absorption processes. However, the decrease in membrane flux, induced by membrane wetting is a significant issue to be pondered upon. Thus, fabrication of an antiwetting composite membrane is essential to retain and sustain the MGA performance. In this work, silica nanoparticles (SiNPs) is first coated with hydrophobic low-density polyethylene (LDPE). Then, integrating LDPE-HMDS/SiNPs fillers into the polyvinylidene fluoride (PVDF) matrix to increase its hydrophobicity. The incorporation of LDPE-coated silica into PVDF polymer enhanced the contact angle values from 71.8° to 111.8°, indicates the improvement of membrane anti-wetting ability. Despite the similar finger-like layer laid on top of the sponge-like structure for pristine and composite membranes, the incorporation of LDPE-HMDS/SiNPs has reduced in the length ratio of finger-like to sponge-like layer. The changed in the membrane morphology induced higher membrane hydrophobicity which prevent membrane from getting wet easily especially in long term of operation. In addition, EDX surface mapping and lining profiles clearly proved that the LDPE-HMDS/SiNPs were distributed evenly in the composite membranes indicates the good interfacial compatibility between PVDF polymer and LDPE-coated silica. In term of CO2 absorption flux, the embedment of LDPE-HMDS/SiNPs in PVDF polymer matrix demonstrated 2.4x10-3 mol/m2.s which was 2 times higher than that of the pristine membrane. This means the incorporation of LDPE-HMDS/SiNPs into the PVDF membrane has still played a pivotal role in overcoming membrane wetting drawbacks when in contact with the liquid absorbents. Penerbit UTM Press 2022-03 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/98472/1/AishahRosli2022_ManipulatingMembraneHydrophobicity.pdf Chang, Pei Thing and Sarvveswaran, Paranthaman and Rosli, Aishah and Siew Chun, Low (2022) Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane. ASEAN Engineering Journal, 12 (1). pp. 157-164. ISSN 2586-9159 http://dx.doi.org/10.11113/aej.v12.17336 DOI: 10.11113/aej.v12.17336 |
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QD Chemistry Chang, Pei Thing Sarvveswaran, Paranthaman Rosli, Aishah Siew Chun, Low Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane |
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Membrane gas absorption (MGA) as an emerging technology exhibits superior advantages in comparison to conventional carbon dioxide (CO2) absorption processes. However, the decrease in membrane flux, induced by membrane wetting is a significant issue to be pondered upon. Thus, fabrication of an antiwetting composite membrane is essential to retain and sustain the MGA performance. In this work, silica nanoparticles (SiNPs) is first coated with hydrophobic low-density polyethylene (LDPE). Then, integrating LDPE-HMDS/SiNPs fillers into the polyvinylidene fluoride (PVDF) matrix to increase its hydrophobicity. The incorporation of LDPE-coated silica into PVDF polymer enhanced the contact angle values from 71.8° to 111.8°, indicates the improvement of membrane anti-wetting ability. Despite the similar finger-like layer laid on top of the sponge-like structure for pristine and composite membranes, the incorporation of LDPE-HMDS/SiNPs has reduced in the length ratio of finger-like to sponge-like layer. The changed in the membrane morphology induced higher membrane hydrophobicity which prevent membrane from getting wet easily especially in long term of operation. In addition, EDX surface mapping and lining profiles clearly proved that the LDPE-HMDS/SiNPs were distributed evenly in the composite membranes indicates the good interfacial compatibility between PVDF polymer and LDPE-coated silica. In term of CO2 absorption flux, the embedment of LDPE-HMDS/SiNPs in PVDF polymer matrix demonstrated 2.4x10-3 mol/m2.s which was 2 times higher than that of the pristine membrane. This means the incorporation of LDPE-HMDS/SiNPs into the PVDF membrane has still played a pivotal role in overcoming membrane wetting drawbacks when in contact with the liquid absorbents. |
format |
Article |
author |
Chang, Pei Thing Sarvveswaran, Paranthaman Rosli, Aishah Siew Chun, Low |
author_facet |
Chang, Pei Thing Sarvveswaran, Paranthaman Rosli, Aishah Siew Chun, Low |
author_sort |
Chang, Pei Thing |
title |
Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane |
title_short |
Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane |
title_full |
Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane |
title_fullStr |
Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane |
title_full_unstemmed |
Manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in PVDF membrane |
title_sort |
manipulating membrane hydrophobicity by integrating polythylene-coated fume silica in pvdf membrane |
publisher |
Penerbit UTM Press |
publishDate |
2022 |
url |
http://eprints.utm.my/id/eprint/98472/1/AishahRosli2022_ManipulatingMembraneHydrophobicity.pdf http://eprints.utm.my/id/eprint/98472/ http://dx.doi.org/10.11113/aej.v12.17336 |
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