Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach

Epoxidized corn oil is of great interest because they are derived from sustainable, renewable natural resources and are environmentally friendly. There is a lack of extensive research on optimizing process parameters for the epoxidation of corn oil, which serves as the raw material. In this study, t...

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Published in:Environmental Progress and Sustainable Energy
Main Author: Kasmin N.D.; Azmi I.S.; Nurherdiana S.D.; Yusof F.A.M.; Jalil M.J.
Format: Article
Language:English
Published: John Wiley and Sons Inc 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85182148849&doi=10.1002%2fep.14362&partnerID=40&md5=c5ee391bf36f920bdba3b56d45ca821c
id 2-s2.0-85182148849
spelling 2-s2.0-85182148849
Kasmin N.D.; Azmi I.S.; Nurherdiana S.D.; Yusof F.A.M.; Jalil M.J.
Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
2024
Environmental Progress and Sustainable Energy
43
5
10.1002/ep.14362
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85182148849&doi=10.1002%2fep.14362&partnerID=40&md5=c5ee391bf36f920bdba3b56d45ca821c
Epoxidized corn oil is of great interest because they are derived from sustainable, renewable natural resources and are environmentally friendly. There is a lack of extensive research on optimizing process parameters for the epoxidation of corn oil, which serves as the raw material. In this study, the epoxidation of corn oil was carried out by reacting formic acid and hydrogen peroxide, employing an in situ peracids mechanism. The findings revealed that the optimal reaction conditions for producing epoxidized corn oil with the highest oxirane content were a catalyst type of sulfuric acid, reaction temperature of 35°C, a molar ratio of formic acid to linoleic acid of 1:1, and a molar ratio of hydrogen peroxide to linoleic acid of 1.75:1. By employing these optimal conditions, the maximum relative conversion of palm oleic acid to oxirane was achieved at 82%. After 100 iterations, the reaction rate constant based on optimized epoxidized corn oil production was obtained as follows: (Formula presented.) = 0.13 mol L−1 min−1, (Formula presented.) = 37.07 mol L−1 min−1, and (Formula presented.) = 10.00 mol L−1 min−1. The findings validated the kinetic model by showing good agreement between the simulation and experimental data. © 2024 American Institute of Chemical Engineers.
John Wiley and Sons Inc
19447442
English
Article

author Kasmin N.D.; Azmi I.S.; Nurherdiana S.D.; Yusof F.A.M.; Jalil M.J.
spellingShingle Kasmin N.D.; Azmi I.S.; Nurherdiana S.D.; Yusof F.A.M.; Jalil M.J.
Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
author_facet Kasmin N.D.; Azmi I.S.; Nurherdiana S.D.; Yusof F.A.M.; Jalil M.J.
author_sort Kasmin N.D.; Azmi I.S.; Nurherdiana S.D.; Yusof F.A.M.; Jalil M.J.
title Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
title_short Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
title_full Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
title_fullStr Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
title_full_unstemmed Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
title_sort Chemical modification of linoleic acid via catalytic epoxidation of corn oil: A sustainable approach
publishDate 2024
container_title Environmental Progress and Sustainable Energy
container_volume 43
container_issue 5
doi_str_mv 10.1002/ep.14362
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85182148849&doi=10.1002%2fep.14362&partnerID=40&md5=c5ee391bf36f920bdba3b56d45ca821c
description Epoxidized corn oil is of great interest because they are derived from sustainable, renewable natural resources and are environmentally friendly. There is a lack of extensive research on optimizing process parameters for the epoxidation of corn oil, which serves as the raw material. In this study, the epoxidation of corn oil was carried out by reacting formic acid and hydrogen peroxide, employing an in situ peracids mechanism. The findings revealed that the optimal reaction conditions for producing epoxidized corn oil with the highest oxirane content were a catalyst type of sulfuric acid, reaction temperature of 35°C, a molar ratio of formic acid to linoleic acid of 1:1, and a molar ratio of hydrogen peroxide to linoleic acid of 1.75:1. By employing these optimal conditions, the maximum relative conversion of palm oleic acid to oxirane was achieved at 82%. After 100 iterations, the reaction rate constant based on optimized epoxidized corn oil production was obtained as follows: (Formula presented.) = 0.13 mol L−1 min−1, (Formula presented.) = 37.07 mol L−1 min−1, and (Formula presented.) = 10.00 mol L−1 min−1. The findings validated the kinetic model by showing good agreement between the simulation and experimental data. © 2024 American Institute of Chemical Engineers.
publisher John Wiley and Sons Inc
issn 19447442
language English
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