Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation

Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation

This work investigated the performances of ZIF-8 membranes coated on a low-cost ceramic hollow fiber (CHF) support developed from quarry dust (QD). The ceramic hollow fiber (CHF) was first fabricated using phase inversion and sintering techniques. The effects of the bore fluid flow rate (6–10 ml·min...

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Published in:Journal of the Australian Ceramic Society
Main Author: Jamal N.A.S.R.A.; Othman N.H.; Razak N.A.A.; Alias N.H.; Shayuti M.S.M.; Marpani F.; Razlan M.R.M.; Jumahat A.; Othman M.H.D.; Lau W.J.; Adam M.R.; Pauzan M.A.B.; Ismail A.F.
Format: Article
Language:English
Published: Springer 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85196307548&doi=10.1007%2fs41779-024-01044-4&partnerID=40&md5=deb819401212e00276d8a09ef37b5492
id 2-s2.0-85196307548
spelling 2-s2.0-85196307548
Jamal N.A.S.R.A.; Othman N.H.; Razak N.A.A.; Alias N.H.; Shayuti M.S.M.; Marpani F.; Razlan M.R.M.; Jumahat A.; Othman M.H.D.; Lau W.J.; Adam M.R.; Pauzan M.A.B.; Ismail A.F.
Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
2024
Journal of the Australian Ceramic Society


10.1007/s41779-024-01044-4
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85196307548&doi=10.1007%2fs41779-024-01044-4&partnerID=40&md5=deb819401212e00276d8a09ef37b5492
This work investigated the performances of ZIF-8 membranes coated on a low-cost ceramic hollow fiber (CHF) support developed from quarry dust (QD). The ceramic hollow fiber (CHF) was first fabricated using phase inversion and sintering techniques. The effects of the bore fluid flow rate (6–10 ml·min− 1) and sintering temperature (1050–1150 °C) on the morphology and mechanical strength of the final CHF were systematically evaluated. A larger finger-like macrovoid structure was observed when a longer air gap distance was used. A higher sintering temperature enhances the mechanical properties of CHFs due to pore densification, but it also leads to a less porous CHF, which can affect their permeation flux. The relatively low sintering temperature needed for QD-based CHF (< 1150 °C) leads to a reduction in energy consumption, which is economically attractive for future commercialization. By controlling the ZIF-8 loading (0.4–1.6 wt%) in the coating solution, a uniform and well-coated ZIF-8 selective layer was coated to form a quarry dust ceramic hollow fiber membrane (QD-CHFM). A single gas permeation study was conducted at 2–6 bar, and it was observed that the permeability of gases was greater when the ZIF-8 loading was lower, particularly for CO2 (1.19 × 10− 4 cm3(STP)·cm·cm− 2·s− 1·cm− 1·Hg− 1). A further increase in the ZIF-8 concentration in the coating solution caused agglomeration, which simultaneously increased the path tortuosity. Therefore, the gas diffusion rate across the membrane decreased. The performances of ZIF-8/QD-CHFM were observed to be similar to those of other ceramic membranes available in the literature. This work indicated that ZIF-8 loading could significantly affect gas separation performance. In addition, reutilizing QDs as a raw material for ceramic membrane fabrication can help reduce disposal issues and reduce the overall cost of ceramic membranes for future development. © Australian Ceramic Society 2024.
Springer
25101560
English
Article
author Jamal N.A.S.R.A.; Othman N.H.; Razak N.A.A.; Alias N.H.; Shayuti M.S.M.; Marpani F.; Razlan M.R.M.; Jumahat A.; Othman M.H.D.; Lau W.J.; Adam M.R.; Pauzan M.A.B.; Ismail A.F.
spellingShingle Jamal N.A.S.R.A.; Othman N.H.; Razak N.A.A.; Alias N.H.; Shayuti M.S.M.; Marpani F.; Razlan M.R.M.; Jumahat A.; Othman M.H.D.; Lau W.J.; Adam M.R.; Pauzan M.A.B.; Ismail A.F.
Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
author_facet Jamal N.A.S.R.A.; Othman N.H.; Razak N.A.A.; Alias N.H.; Shayuti M.S.M.; Marpani F.; Razlan M.R.M.; Jumahat A.; Othman M.H.D.; Lau W.J.; Adam M.R.; Pauzan M.A.B.; Ismail A.F.
author_sort Jamal N.A.S.R.A.; Othman N.H.; Razak N.A.A.; Alias N.H.; Shayuti M.S.M.; Marpani F.; Razlan M.R.M.; Jumahat A.; Othman M.H.D.; Lau W.J.; Adam M.R.; Pauzan M.A.B.; Ismail A.F.
title Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
title_short Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
title_full Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
title_fullStr Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
title_full_unstemmed Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
title_sort Development of ceramic hollow fiber from recycled quarry dust: exploring its properties as a support for ZIF-8 membrane in gas separation
publishDate 2024
container_title Journal of the Australian Ceramic Society
container_volume
container_issue
doi_str_mv 10.1007/s41779-024-01044-4
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85196307548&doi=10.1007%2fs41779-024-01044-4&partnerID=40&md5=deb819401212e00276d8a09ef37b5492
description This work investigated the performances of ZIF-8 membranes coated on a low-cost ceramic hollow fiber (CHF) support developed from quarry dust (QD). The ceramic hollow fiber (CHF) was first fabricated using phase inversion and sintering techniques. The effects of the bore fluid flow rate (6–10 ml·min− 1) and sintering temperature (1050–1150 °C) on the morphology and mechanical strength of the final CHF were systematically evaluated. A larger finger-like macrovoid structure was observed when a longer air gap distance was used. A higher sintering temperature enhances the mechanical properties of CHFs due to pore densification, but it also leads to a less porous CHF, which can affect their permeation flux. The relatively low sintering temperature needed for QD-based CHF (< 1150 °C) leads to a reduction in energy consumption, which is economically attractive for future commercialization. By controlling the ZIF-8 loading (0.4–1.6 wt%) in the coating solution, a uniform and well-coated ZIF-8 selective layer was coated to form a quarry dust ceramic hollow fiber membrane (QD-CHFM). A single gas permeation study was conducted at 2–6 bar, and it was observed that the permeability of gases was greater when the ZIF-8 loading was lower, particularly for CO2 (1.19 × 10− 4 cm3(STP)·cm·cm− 2·s− 1·cm− 1·Hg− 1). A further increase in the ZIF-8 concentration in the coating solution caused agglomeration, which simultaneously increased the path tortuosity. Therefore, the gas diffusion rate across the membrane decreased. The performances of ZIF-8/QD-CHFM were observed to be similar to those of other ceramic membranes available in the literature. This work indicated that ZIF-8 loading could significantly affect gas separation performance. In addition, reutilizing QDs as a raw material for ceramic membrane fabrication can help reduce disposal issues and reduce the overall cost of ceramic membranes for future development. © Australian Ceramic Society 2024.
publisher Springer
issn 25101560
language English
format Article
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