Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development

Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development

Edible oil-based feedstocks based biodiesel is still leading the industry around the world. Canola oil (Brassica napus L.) contributes significantly to that race. Process optimisation and the development of reaction kinetic models of edible oil feedstocks are still required since the knowledge of ki...

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Main Authors: Hazrat M.A., Rasul M.G., Khan M.M.K., Ashwath N., Fattah I.M.R., Ong H.C., Mahlia T.M.I.
Other Authors: 55936470700
Format: Article
Published: Springer Science and Business Media B.V. 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-271452023-05-29T17:40:11Z Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development Hazrat M.A. Rasul M.G. Khan M.M.K. Ashwath N. Fattah I.M.R. Ong H.C. Mahlia T.M.I. 55936470700 6603918185 26643125500 55962751500 57929684200 55310784800 56997615100 Edible oil-based feedstocks based biodiesel is still leading the industry around the world. Canola oil (Brassica napus L.) contributes significantly to that race. Process optimisation and the development of reaction kinetic models of edible oil feedstocks are still required since the knowledge of kinetics is needed for designing industrial facilities and evaluating the performance of catalysts during transesterification or other related processes in a biorefinery. This research focuses on the transesterification process for biodiesel production because of its higher output efficiency, reactivity with feedstock, techno-economic feasibility in terms of FFA content, and environmental sustainability. The response surface method with the Box�Behnken model was used to optimise the process. Multivariate analysis of variance (ANOVA) was also performed to investigate the effectiveness of the regression model. The optimal process conditions were found to be 5.89�M methanol, 0.5% (w/w) KOH, 60��C and 120�min. The predicted yield was 99.5% for a 95% confidence interval (99.1, 99.9). The experimental yield was 99.6% for these conditions. Two different kinetic models were also developed in this study. The activation energy was 16.9% higher for the pseudo-first-order irreversible reaction than for the pseudo-homogenous irreversible reaction. Such a comprehensive analysis will assist stakeholders in evaluating the technology for industrial development in biodiesel fuel commercialisation. � 2022, The Author(s). Article in Press 2023-05-29T09:40:11Z 2023-05-29T09:40:11Z 2022 Article 10.1007/s10668-022-02506-0 2-s2.0-85135258505 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85135258505&doi=10.1007%2fs10668-022-02506-0&partnerID=40&md5=0458706aa5938c359ac9f901b5a10283 https://irepository.uniten.edu.my/handle/123456789/27145 All Open Access, Hybrid Gold Springer Science and Business Media B.V. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Edible oil-based feedstocks based biodiesel is still leading the industry around the world. Canola oil (Brassica napus L.) contributes significantly to that race. Process optimisation and the development of reaction kinetic models of edible oil feedstocks are still required since the knowledge of kinetics is needed for designing industrial facilities and evaluating the performance of catalysts during transesterification or other related processes in a biorefinery. This research focuses on the transesterification process for biodiesel production because of its higher output efficiency, reactivity with feedstock, techno-economic feasibility in terms of FFA content, and environmental sustainability. The response surface method with the Box�Behnken model was used to optimise the process. Multivariate analysis of variance (ANOVA) was also performed to investigate the effectiveness of the regression model. The optimal process conditions were found to be 5.89�M methanol, 0.5% (w/w) KOH, 60��C and 120�min. The predicted yield was 99.5% for a 95% confidence interval (99.1, 99.9). The experimental yield was 99.6% for these conditions. Two different kinetic models were also developed in this study. The activation energy was 16.9% higher for the pseudo-first-order irreversible reaction than for the pseudo-homogenous irreversible reaction. Such a comprehensive analysis will assist stakeholders in evaluating the technology for industrial development in biodiesel fuel commercialisation. � 2022, The Author(s).
author2 55936470700
author_facet 55936470700
Hazrat M.A.
Rasul M.G.
Khan M.M.K.
Ashwath N.
Fattah I.M.R.
Ong H.C.
Mahlia T.M.I.
format Article
author Hazrat M.A.
Rasul M.G.
Khan M.M.K.
Ashwath N.
Fattah I.M.R.
Ong H.C.
Mahlia T.M.I.
spellingShingle Hazrat M.A.
Rasul M.G.
Khan M.M.K.
Ashwath N.
Fattah I.M.R.
Ong H.C.
Mahlia T.M.I.
Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development
author_sort Hazrat M.A.
title Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development
title_short Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development
title_full Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development
title_fullStr Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development
title_full_unstemmed Biodiesel production from transesterification of Australian Brassica napus L. oil: optimisation and reaction kinetic model development
title_sort biodiesel production from transesterification of australian brassica napus l. oil: optimisation and reaction kinetic model development
publisher Springer Science and Business Media B.V.
publishDate 2023
_version_ 1806426613786607616

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