Green oil filter cartridge developed from kenaf for automotive application: a proof of concept

This study aimed to develop a proof of concept of green oil filter cartridge from kenaf forautomotive application. The methodology involved paper making process which includesoda pulping, fibre beating and pulp pr...

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Main Author:	Gayatthiri Thruselvan
Format:	thesis
Language:	eng
Published:	2021
Subjects:	QH Natural history
Online Access:	https://ir.upsi.edu.my/detailsg.php?det=8714
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record_format	uketd_dc
institution	Universiti Pendidikan Sultan Idris
collection	UPSI Digital Repository
language	eng
topic	QH Natural history
spellingShingle	QH Natural history Gayatthiri Thruselvan Green oil filter cartridge developed from kenaf for automotive application: a proof of concept
description	<p>This study aimed to develop a proof of concept of green oil filter cartridge from kenaf for</p><p>automotive application. The methodology involved paper making process which include</p><p>soda pulping, fibre beating and pulp pressing. The physical, mechanical, chemical and</p><p>thermal properties of the paper sheets produced at various beating degrees were</p><p>tested according to standard guidelines. The results highlight that the kenaf paper sheet</p><p>prepared at 4000 beating revolution exhibits the best tensile and burst indices</p><p>comparable to selected commercial filter media. Thermal analysis showed that the paper</p><p>sheet prepared at this parameter decomposed at a lower temperature (535C)</p><p>compared to the selected commercial filter media (700C). The kenaf paper prepared at</p><p>4000 beating revolution was selected to form proof of concept (POC) of oil filter cartridge.</p><p>Certain technical aspects of the POC were validated by industrial experts. An</p><p>international sustainable manufacturing guideline was adopted to evaluate green</p><p>indicators of the developed POC. The biodegradability of used POC and selected</p><p>commercial oil filter media was assessed at simulated landfill conditions. Many</p><p>attributes for input and product achieved high scores for green indicator. The used</p><p>POC showed faster biodegradability period compared to the selected commercial oil</p><p>filter media. In conclusion, some properties of the POC are better or comparable to</p><p>selected commercial oil filter media. This study implicates potential towards application</p><p>of kenaf paper for green oil filter cartridge manufacturing in the automotive industry.</p>
format	thesis
qualification_name
qualification_level	Master's degree
author	Gayatthiri Thruselvan
author_facet	Gayatthiri Thruselvan
author_sort	Gayatthiri Thruselvan
title	Green oil filter cartridge developed from kenaf for automotive application: a proof of concept
title_short	Green oil filter cartridge developed from kenaf for automotive application: a proof of concept
title_full	Green oil filter cartridge developed from kenaf for automotive application: a proof of concept
title_fullStr	Green oil filter cartridge developed from kenaf for automotive application: a proof of concept
title_full_unstemmed	Green oil filter cartridge developed from kenaf for automotive application: a proof of concept
title_sort	green oil filter cartridge developed from kenaf for automotive application: a proof of concept
granting_institution	Universiti Pendidikan Sultan Idris
granting_department	Fakulti Sains dan Matematik
publishDate	2021
url	https://ir.upsi.edu.my/detailsg.php?det=8714
_version_	1776104557550501888
spelling	oai:ir.upsi.edu.my:87142023-02-20 Green oil filter cartridge developed from kenaf for automotive application: a proof of concept 2021 Gayatthiri Thruselvan QH Natural history <p>This study aimed to develop a proof of concept of green oil filter cartridge from kenaf for</p><p>automotive application. The methodology involved paper making process which include</p><p>soda pulping, fibre beating and pulp pressing. The physical, mechanical, chemical and</p><p>thermal properties of the paper sheets produced at various beating degrees were</p><p>tested according to standard guidelines. The results highlight that the kenaf paper sheet</p><p>prepared at 4000 beating revolution exhibits the best tensile and burst indices</p><p>comparable to selected commercial filter media. Thermal analysis showed that the paper</p><p>sheet prepared at this parameter decomposed at a lower temperature (535C)</p><p>compared to the selected commercial filter media (700C). The kenaf paper prepared at</p><p>4000 beating revolution was selected to form proof of concept (POC) of oil filter cartridge.</p><p>Certain technical aspects of the POC were validated by industrial experts. An</p><p>international sustainable manufacturing guideline was adopted to evaluate green</p><p>indicators of the developed POC. The biodegradability of used POC and selected</p><p>commercial oil filter media was assessed at simulated landfill conditions. Many</p><p>attributes for input and product achieved high scores for green indicator. The used</p><p>POC showed faster biodegradability period compared to the selected commercial oil</p><p>filter media. In conclusion, some properties of the POC are better or comparable to</p><p>selected commercial oil filter media. This study implicates potential towards application</p><p>of kenaf paper for green oil filter cartridge manufacturing in the automotive industry.</p> 2021 thesis https://ir.upsi.edu.my/detailsg.php?det=8714 https://ir.upsi.edu.my/detailsg.php?det=8714 text eng closedAccess Masters Universiti Pendidikan Sultan Idris Fakulti Sains dan Matematik <p>Abdullahi, T., Harun, Z., Othman, M. H. D., Aminu, N., Gabriel, O., Aminu, T.,</p><p>Ibrahim, S. A., & Kamarudin, N. H. (2018). West African kenaf (Hibiscus</p><p>Cannabinus L.) natural fiber composite for application in automotive industry.</p><p>Malaysian Journal of Fundamental and Applied Sciences, 14(4), 397402.</p><p>https://doi.org/10.11113/mjfas.v14n4.1212</p><p></p><p>Adams, L. S., Brown, M. R., Peace, C., Petersen, G., & Leary, M. (2008). Evaluation</p><p>of High Efficiency Oil Filters in the State Fleet. June.</p><p></p><p>Adole, A. M., Yatim, J. M., Ramli, S. A., Othman, A., & Mizal, N. A. (2019). 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