Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell

Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell

Phase inversion-based extrusion was employed in this study to fabricate porous cathode-supported micro-tubular solid oxide fuel cell (MT-SOFC). The fibers were developed from two different perovskite materials; lanthanum strontium manganate (LSM) and lanthanum strontium cobalt ferrite (LSCF), which...

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Main Authors: Ab. Rahman, M., Othman, M. H. D., Fansuri, H., Harun, Z., Jamil, S. M., Omar, A. F., Rahman, M. A., Jaafar, J., Ismail, A. F.
Format: Article
Published: Springer 2021
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TP Chemical technology
Online Access:http://eprints.utm.my/id/eprint/95426/
http://dx.doi.org/10.1007/s41779-021-00620-2
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spelling my.utm.954262022-05-31T12:38:01Z http://eprints.utm.my/id/eprint/95426/ Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell Ab. Rahman, M. Othman, M. H. D. Fansuri, H. Harun, Z. Jamil, S. M. Omar, A. F. Rahman, M. A. Jaafar, J. Ismail, A. F. TP Chemical technology Phase inversion-based extrusion was employed in this study to fabricate porous cathode-supported micro-tubular solid oxide fuel cell (MT-SOFC). The fibers were developed from two different perovskite materials; lanthanum strontium manganate (LSM) and lanthanum strontium cobalt ferrite (LSCF), which mixed with yttria-stabilized zirconia (YSZ). The effect of high sintering temperature (1250–1450 °C) on both hollow fibers was examined. Both LSM/YSZ and LSCF/YSZ composites were composed of asymmetric structure that consists of sponge-like and finger-like voids. LSM/YSZ hollow fiber gave higher mechanical strength of 161 MPa with sufficient porosity of 22% compared to LSCF/YSZ which exhibited mechanical strength of 114 MPa at 1400 °C. Besides, the gas permeation for both composite cathode hollow fibers showed the same declining trends as the function of sintering temperature. Moreover, X-ray diffraction (XRD) result showed a formation of a resistive phase when the sintering temperature reached 1300 °C for LSCF/YSZ and destruction of cobalt phase occurred at 1400 °C. In contrary, LSM/YSZ showed a stable sign where only a small amount of pyrochlore phase was found. To sum, LSM/YSZ is more compatible and stable at high sintering temperature in term of its mechanical strength, gas permeability, desired crystal structure, and acceptable range of porosity. Springer 2021 Article PeerReviewed Ab. Rahman, M. and Othman, M. H. D. and Fansuri, H. and Harun, Z. and Jamil, S. M. and Omar, A. F. and Rahman, M. A. and Jaafar, J. and Ismail, A. F. (2021) Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell. Journal of the Australian Ceramic Society, 57 (4). ISSN 2510-1560 http://dx.doi.org/10.1007/s41779-021-00620-2 DOI: 10.1007/s41779-021-00620-2
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Ab. Rahman, M.
Othman, M. H. D.
Fansuri, H.
Harun, Z.
Jamil, S. M.
Omar, A. F.
Rahman, M. A.
Jaafar, J.
Ismail, A. F.
Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
description Phase inversion-based extrusion was employed in this study to fabricate porous cathode-supported micro-tubular solid oxide fuel cell (MT-SOFC). The fibers were developed from two different perovskite materials; lanthanum strontium manganate (LSM) and lanthanum strontium cobalt ferrite (LSCF), which mixed with yttria-stabilized zirconia (YSZ). The effect of high sintering temperature (1250–1450 °C) on both hollow fibers was examined. Both LSM/YSZ and LSCF/YSZ composites were composed of asymmetric structure that consists of sponge-like and finger-like voids. LSM/YSZ hollow fiber gave higher mechanical strength of 161 MPa with sufficient porosity of 22% compared to LSCF/YSZ which exhibited mechanical strength of 114 MPa at 1400 °C. Besides, the gas permeation for both composite cathode hollow fibers showed the same declining trends as the function of sintering temperature. Moreover, X-ray diffraction (XRD) result showed a formation of a resistive phase when the sintering temperature reached 1300 °C for LSCF/YSZ and destruction of cobalt phase occurred at 1400 °C. In contrary, LSM/YSZ showed a stable sign where only a small amount of pyrochlore phase was found. To sum, LSM/YSZ is more compatible and stable at high sintering temperature in term of its mechanical strength, gas permeability, desired crystal structure, and acceptable range of porosity.
format Article
author Ab. Rahman, M.
Othman, M. H. D.
Fansuri, H.
Harun, Z.
Jamil, S. M.
Omar, A. F.
Rahman, M. A.
Jaafar, J.
Ismail, A. F.
author_facet Ab. Rahman, M.
Othman, M. H. D.
Fansuri, H.
Harun, Z.
Jamil, S. M.
Omar, A. F.
Rahman, M. A.
Jaafar, J.
Ismail, A. F.
author_sort Ab. Rahman, M.
title Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
title_short Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
title_full Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
title_fullStr Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
title_full_unstemmed Effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
title_sort effect of sintering temperature on perovskite-based hollow fiber as a substrate for cathode-supported micro-tubular solid oxide fuel cell
publisher Springer
publishDate 2021
url http://eprints.utm.my/id/eprint/95426/
http://dx.doi.org/10.1007/s41779-021-00620-2
_version_ 1735386802668175360

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