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Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel

Solubilizations of methanol and ethanol in crude palm oil (CPO) and red palm oil (RPO) were studied by using different hydrocarbon chain-length alkanols (C4-C12) as solubilizers. Ternary phase diagrams of oil/methanol/alkanol and oil/ethanol/alkanol were constructed to determine the solubilization (...

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Main Authors: Dzulkefly, K., Lim, W.H., Hamdan, S., Norlizah, S.
Format: Article
Language:English
Published: Japan Oil Chemists' Society 2002
Online Access:http://psasir.upm.edu.my/id/eprint/114027/1/114027.pdf
http://psasir.upm.edu.my/id/eprint/114027/
https://www.jstage.jst.go.jp/article/jos/51/4/51_4_237/_article
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spelling my.upm.eprints.1140272024-12-08T07:53:49Z http://psasir.upm.edu.my/id/eprint/114027/ Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel Dzulkefly, K. Lim, W.H. Hamdan, S. Norlizah, S. Solubilizations of methanol and ethanol in crude palm oil (CPO) and red palm oil (RPO) were studied by using different hydrocarbon chain-length alkanols (C4-C12) as solubilizers. Ternary phase diagrams of oil/methanol/alkanol and oil/ethanol/alkanol were constructed to determine the solubilization (isotropic) region. Results showed that the solubilization of methanol and ethanol is more favourable in unsaturated RPO than in saturated CPO in the presence of long-chain alkanols. The relatively large isotropic regions were formed with long-chain alkanols in both the methanol and ethanol systems. The order of decreasing isotropic regions in both methanol and ethanol systems was dodecanol > decanol > octanol > octan-2-ol > hexanol > pentanol > butanol > t-butanol. The branched chain alkanols and mixed oleyl alcohol/alkanol do not promote solubilization. Cold-stability test has shown all isotropic solutions were stable at 24°C for both methanol and ethanol systems. Kinematic viscosity of the selected isotropic solutions increased with the increase in both the chain length and percentage of alkanols. Long-chain alkanols (dodecanol, decanol and octanol) showed a steady increased in kinematic viscosity with increasing alkanol content. Solubilization of RPO/methanol/mediumchain alkanols (butanol, pentanol and hexanol) systems significantly reduced the kinematic viscosity of RPO from 43.7 mmV to the range allowable for No. 2 diesel fuel (1.9-4.1 mmV at 40.0°C). Japan Oil Chemists' Society 2002 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/114027/1/114027.pdf Dzulkefly, K. and Lim, W.H. and Hamdan, S. and Norlizah, S. (2002) Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel. Journal of Oleo Science, 51 (4). pp. 237-242. ISSN 1345-8957; eISSN: 1347-3352 https://www.jstage.jst.go.jp/article/jos/51/4/51_4_237/_article 10.5650/jos.51.237
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Solubilizations of methanol and ethanol in crude palm oil (CPO) and red palm oil (RPO) were studied by using different hydrocarbon chain-length alkanols (C4-C12) as solubilizers. Ternary phase diagrams of oil/methanol/alkanol and oil/ethanol/alkanol were constructed to determine the solubilization (isotropic) region. Results showed that the solubilization of methanol and ethanol is more favourable in unsaturated RPO than in saturated CPO in the presence of long-chain alkanols. The relatively large isotropic regions were formed with long-chain alkanols in both the methanol and ethanol systems. The order of decreasing isotropic regions in both methanol and ethanol systems was dodecanol > decanol > octanol > octan-2-ol > hexanol > pentanol > butanol > t-butanol. The branched chain alkanols and mixed oleyl alcohol/alkanol do not promote solubilization. Cold-stability test has shown all isotropic solutions were stable at 24°C for both methanol and ethanol systems. Kinematic viscosity of the selected isotropic solutions increased with the increase in both the chain length and percentage of alkanols. Long-chain alkanols (dodecanol, decanol and octanol) showed a steady increased in kinematic viscosity with increasing alkanol content. Solubilization of RPO/methanol/mediumchain alkanols (butanol, pentanol and hexanol) systems significantly reduced the kinematic viscosity of RPO from 43.7 mmV to the range allowable for No. 2 diesel fuel (1.9-4.1 mmV at 40.0°C).
format Article
author Dzulkefly, K.
Lim, W.H.
Hamdan, S.
Norlizah, S.
spellingShingle Dzulkefly, K.
Lim, W.H.
Hamdan, S.
Norlizah, S.
Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
author_facet Dzulkefly, K.
Lim, W.H.
Hamdan, S.
Norlizah, S.
author_sort Dzulkefly, K.
title Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
title_short Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
title_full Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
title_fullStr Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
title_full_unstemmed Effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
title_sort effects of alkanols on the solubilization of methanol and ethanol in red palm oil for biofuel
publisher Japan Oil Chemists' Society
publishDate 2002
url http://psasir.upm.edu.my/id/eprint/114027/1/114027.pdf
http://psasir.upm.edu.my/id/eprint/114027/
https://www.jstage.jst.go.jp/article/jos/51/4/51_4_237/_article
_version_ 1818835913791242240
score 13.223943

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