Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst

The development of heterogenous catalysts using renewable materials has received wide attention. A heterogenous catalyst has been a preferred choice as it evades the disadvantages of homogeneous catalysts, nevertheless, heterogenous catalysts has limited activity and a longer separation process. The...

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Main Authors: Krishnan S.G., Pua F.L., Fan Z.
Other Authors: 57190370972
Format: Article
Published: MDPI 2024
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spelling my.uniten.dspace-341822024-10-14T11:18:19Z Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst Krishnan S.G. Pua F.L. Fan Z. 57190370972 36024192100 56531001000 biomass catalyst energy magnetic oil palm oleic acid acidity biomass catalyst essential oil magnetic property The development of heterogenous catalysts using renewable materials has received wide attention. A heterogenous catalyst has been a preferred choice as it evades the disadvantages of homogeneous catalysts, nevertheless, heterogenous catalysts has limited activity and a longer separation process. The current study emphasises the preparation of a new magnetic catalyst using oil palm empty fruit bunch (EFB) fibre as a carbon-based support material. The effect of different alkaline pre-treatments over the methyl ester conversion rate were investigated. The catalyst preparation parameters were studied by using the single factor optimisation approach, including the fibre loading, impregnation time, calcination temperature, and calcination time. Their effects in the esterification of oleic acid were investigated in this study. The optimisation study shows that the Na2CO3-treated(T)-EFBC magnetic catalyst had the highest esterification rate of 93.5% with 7 g EFB fibre loading, a 2 h impregnation time and a calcination temperature of 500 �C for 2 h. The catalyst possessed a good acidity of 3.5 mmol/g with excellent magnetism properties. This study showed that the catalysts are magnetically separable and exhibited good stability with 82.1% after five cycles. The oil palm EFB supported magnetic acid catalyst indicates it as a potential option to the existing solid catalysts that is economical and environmentally friendly for the esterification process. � 2023 by the authors. Final 2024-10-14T03:18:19Z 2024-10-14T03:18:19Z 2023 Article 10.3390/su15118637 2-s2.0-85163094750 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85163094750&doi=10.3390%2fsu15118637&partnerID=40&md5=8aa50b346be527274cadcbe99797f3ae https://irepository.uniten.edu.my/handle/123456789/34182 15 11 8637 All Open Access Gold Open Access MDPI 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/
topic biomass
catalyst
energy
magnetic
oil palm
oleic acid
acidity
biomass
catalyst
essential oil
magnetic property
spellingShingle biomass
catalyst
energy
magnetic
oil palm
oleic acid
acidity
biomass
catalyst
essential oil
magnetic property
Krishnan S.G.
Pua F.L.
Fan Z.
Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst
description The development of heterogenous catalysts using renewable materials has received wide attention. A heterogenous catalyst has been a preferred choice as it evades the disadvantages of homogeneous catalysts, nevertheless, heterogenous catalysts has limited activity and a longer separation process. The current study emphasises the preparation of a new magnetic catalyst using oil palm empty fruit bunch (EFB) fibre as a carbon-based support material. The effect of different alkaline pre-treatments over the methyl ester conversion rate were investigated. The catalyst preparation parameters were studied by using the single factor optimisation approach, including the fibre loading, impregnation time, calcination temperature, and calcination time. Their effects in the esterification of oleic acid were investigated in this study. The optimisation study shows that the Na2CO3-treated(T)-EFBC magnetic catalyst had the highest esterification rate of 93.5% with 7 g EFB fibre loading, a 2 h impregnation time and a calcination temperature of 500 �C for 2 h. The catalyst possessed a good acidity of 3.5 mmol/g with excellent magnetism properties. This study showed that the catalysts are magnetically separable and exhibited good stability with 82.1% after five cycles. The oil palm EFB supported magnetic acid catalyst indicates it as a potential option to the existing solid catalysts that is economical and environmentally friendly for the esterification process. � 2023 by the authors.
author2 57190370972
author_facet 57190370972
Krishnan S.G.
Pua F.L.
Fan Z.
format Article
author Krishnan S.G.
Pua F.L.
Fan Z.
author_sort Krishnan S.G.
title Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst
title_short Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst
title_full Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst
title_fullStr Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst
title_full_unstemmed Effect of Chemical Pre-Treatment on the Catalytic Performance of Oil Palm EFB Fibre Supported Magnetic Acid Catalyst
title_sort effect of chemical pre-treatment on the catalytic performance of oil palm efb fibre supported magnetic acid catalyst
publisher MDPI
publishDate 2024
_version_ 1814061169654104064
score 13.214268