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Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy

Within the framework of recycling and reusing carbon fibre, this study focused on the fabrication of a thermoelectric composite encompassing recycled carbon fibre and two thermoelectric fillers (i) bismuth telluride and (ii) bismuth sulphide. This study investigated the effect of the concentration o...

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Main Authors:	Jagadish, Priyanka R. , Khalid, Mohammad , Li, Lau Phei, Hajibeigy, Mohammad Taghi, Nowshad Amin,, Walvekar, Rashmi, Chan, Andy
Format:	Article
Published:	Elsevier 2018
Subjects:	TD Environmental technology. Sanitary engineering TP Chemical technology
Online Access:	http://eprints.sunway.edu.my/974/ http://doi.org/10.1016/j.jclepro.2018.05.238
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id	my.sunway.eprints.974
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spelling	my.sunway.eprints.9742019-04-25T07:44:52Z http://eprints.sunway.edu.my/974/ Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy Jagadish, Priyanka R. * Khalid, Mohammad * Li, Lau Phei Hajibeigy, Mohammad Taghi Nowshad Amin, Walvekar, Rashmi Chan, Andy TD Environmental technology. Sanitary engineering TP Chemical technology Within the framework of recycling and reusing carbon fibre, this study focused on the fabrication of a thermoelectric composite encompassing recycled carbon fibre and two thermoelectric fillers (i) bismuth telluride and (ii) bismuth sulphide. This study investigated the effect of the concentration of bismuth telluride and bismuth sulphide fillers respectively on the thermoelectric, morphology, structural and thermal stability of the recycled carbon fibre thermoelectric composites. The optimum thermoelectric filler concentration is 45 wt% for both fillers, which resulted in a power factor of 0.194 ± 9.70 × 10−3 μWK−2m−1 and 0.0941 ± 4.71 × 10−3 μWK−2m−1 for recycled carbon fibre-bismuth telluride and recycled carbon fibre-bismuth sulphide composites respectively. This study exhibited the energy harvesting capabilities of recycled carbon fibre composites from low grade waste heat when coated with thermoelectric materials. Elsevier 2018-05-29 Article PeerReviewed Jagadish, Priyanka R. * and Khalid, Mohammad * and Li, Lau Phei and Hajibeigy, Mohammad Taghi and Nowshad Amin, and Walvekar, Rashmi and Chan, Andy (2018) Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy. Journal of Cleaner Production, 195. pp. 1015-1025. ISSN 0959-6526 http://doi.org/10.1016/j.jclepro.2018.05.238 doi:10.1016/j.jclepro.2018.05.238
institution	Sunway University
building	Sunway Campus Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Sunway University
content_source	Sunway Institutional Repository
url_provider	http://eprints.sunway.edu.my/
topic	TD Environmental technology. Sanitary engineering TP Chemical technology
spellingShingle	TD Environmental technology. Sanitary engineering TP Chemical technology Jagadish, Priyanka R. * Khalid, Mohammad * Li, Lau Phei Hajibeigy, Mohammad Taghi Nowshad Amin, Walvekar, Rashmi Chan, Andy Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy
description	Within the framework of recycling and reusing carbon fibre, this study focused on the fabrication of a thermoelectric composite encompassing recycled carbon fibre and two thermoelectric fillers (i) bismuth telluride and (ii) bismuth sulphide. This study investigated the effect of the concentration of bismuth telluride and bismuth sulphide fillers respectively on the thermoelectric, morphology, structural and thermal stability of the recycled carbon fibre thermoelectric composites. The optimum thermoelectric filler concentration is 45 wt% for both fillers, which resulted in a power factor of 0.194 ± 9.70 × 10−3 μWK−2m−1 and 0.0941 ± 4.71 × 10−3 μWK−2m−1 for recycled carbon fibre-bismuth telluride and recycled carbon fibre-bismuth sulphide composites respectively. This study exhibited the energy harvesting capabilities of recycled carbon fibre composites from low grade waste heat when coated with thermoelectric materials.
format	Article
author	Jagadish, Priyanka R. * Khalid, Mohammad * Li, Lau Phei Hajibeigy, Mohammad Taghi Nowshad Amin, Walvekar, Rashmi Chan, Andy
author_facet	Jagadish, Priyanka R. * Khalid, Mohammad * Li, Lau Phei Hajibeigy, Mohammad Taghi Nowshad Amin, Walvekar, Rashmi Chan, Andy
author_sort	Jagadish, Priyanka R. *
title	Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy
title_short	Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy
title_full	Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy
title_fullStr	Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy
title_full_unstemmed	Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy
title_sort	cost effective thermoelectric composites from recycled carbon fibre: from waste to energy
publisher	Elsevier
publishDate	2018
url	http://eprints.sunway.edu.my/974/ http://doi.org/10.1016/j.jclepro.2018.05.238
_version_	1644324466611716096
score	13.211869

Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy

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