Base-Catalysed Epoxidation of Cooking Oil <i>via In Situ</i> Peracid Formation

Rahim, Norin Hafizah; Hamizi, Muhammad Anwar; Febriasari, Arifina; Riduan, Mohd Azril; Addli, Mohammad `Aathif; Jalil, Mohd Jumain

doi:10.15255/KUI.2025.029

Kemija u industriji : Časopis kemičara i kemijskih inženjera Hrvatske, Vol. 75 No. 5-6, 2026.

Izvorni znanstveni članak

https://doi.org/10.15255/KUI.2025.029

Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation

Norin Hafizah Rahim ; Faculty of Chemical Engineering, Universiti Teknologi MARA, Cawangan Johor, Kampus Pasir Gudang, Malezija
Muhammad Anwar Hamizi ; Faculty of Chemical Engineering, Universiti Teknologi MARA, Cawangan Johor, Kampus Pasir Gudang, Malezija
Arifina Febriasari ; Department of Chemical Engineering, Universitas Serang Raya, Indonezija
Mohd Azril Riduan ; Comgreat Solution Sdn Bhd, Perak, Malezija
Mohammad `Aathif Addli ; Faculty of Chemical Engineering, Universiti Teknologi MARA, Cawangan Johor, Kampus Pasir Gudang, Malezija
Mohd Jumain Jalil ; Faculty of Chemical Engineering, Universiti Teknologi MARA, Cawangan Johor, Kampus Pasir Gudang, Malezija

Puni tekst: engleski pdf 725 Kb

str. 265-272

preuzimanja: 0

citiraj

APA 6th Edition

Rahim, N.H., Hamizi, M.A., Febriasari, A., Riduan, M.A., Addli, M.`. i Jalil, M.J. (2026). Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation. Kemija u industriji, 75 (5-6), 265-272. https://doi.org/10.15255/KUI.2025.029

MLA 8th Edition

Rahim, Norin Hafizah, et al. "Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation." Kemija u industriji, vol. 75, br. 5-6, 2026, str. 265-272. https://doi.org/10.15255/KUI.2025.029. Citirano 08.06.2026.

Chicago 17th Edition

Rahim, Norin Hafizah, Muhammad Anwar Hamizi, Arifina Febriasari, Mohd Azril Riduan, Mohammad `Aathif Addli i Mohd Jumain Jalil. "Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation." Kemija u industriji 75, br. 5-6 (2026): 265-272. https://doi.org/10.15255/KUI.2025.029

Harvard

Rahim, N.H., et al. (2026). 'Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation', Kemija u industriji, 75(5-6), str. 265-272. https://doi.org/10.15255/KUI.2025.029

Vancouver

Rahim NH, Hamizi MA, Febriasari A, Riduan MA, Addli M`, Jalil MJ. Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation. Kemija u industriji [Internet]. 2026 [pristupljeno 08.06.2026.];75(5-6):265-272. https://doi.org/10.15255/KUI.2025.029

IEEE

N.H. Rahim, M.A. Hamizi, A. Febriasari, M.A. Riduan, M.`. Addli i M.J. Jalil, "Base-Catalysed Epoxidation of Cooking Oil via In Situ Peracid Formation", Kemija u industriji, vol.75, br. 5-6, str. 265-272, 2026. [Online]. https://doi.org/10.15255/KUI.2025.029

Sažetak

The conversion of vegetable oils into high-value epoxidised derivatives has gained increasing relevance as industries seek renewable and safer alternatives to petroleum-based materials; however, conventional acid-catalysed systems remain limited by corrosiveness, difficult separation, and environmental concerns. Addressing these challenges, this study evaluates the epoxidation of palm cooking oil via an in situ peracid mechanism using sodium hydroxide (NaOH) as a base catalyst and hydrochloric acid (HCl) as an acid catalyst, with the aim of elucidating their comparative performance and reaction behaviour. The reactions were conducted using formic acid and hydrogen peroxide under controlled conditions, with catalyst loadings varied to assess their influence on oxirane formation. Samples were collected at 10-minute intervals for titrimetric quantification of oxirane oxygen. Kinetic modelling was applied to determine rate constants and to interpret the mechanistic differences between the catalytic systems. NaOH achieved the highest relative conversion to oxirane (RCO), reaching 59.96 % at 40 min, compared with 50.12 % for HCl, while FTIR analysis confirmed the successful formation of epoxide functionalities in both pathways. These findings highlight the potential of base-catalysed epoxidation as a greener and operationally safer route for producing epoxidised vegetable oils suitable for downstream polymer applications.