One-pot conversion of non-edible oil into sustainable biodiesel using novel bifunctional heterogeneous catalyst

This study aims to produce biodiesel from indigenous non-edible feedstock of wild olive seed oil using novel bifunctional xK2O/ZrO2-Bi2O3 catalyst. The designed catalyst was prepared using sol gel-impregnation method. The textural and surface properties of the synthesized catalyst were elucidated us...

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Bibliographic Details
Published in:Renewable energy 2025-01, Vol.238, p.121939, Article 121939
Main Authors: Ihsan, Rida, Naeem, Abdul, Farooq, Muhammad, Saeed, Tooba, Noman, Muhammad, Abid, Ghazala, Malik, Tabassum
Format: Article
Language:English
Subjects:
Bifunctional heterogeneous catalyst
Sustainable biodiesel
Trans-esterification
Wild olive seed oil
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Summary:This study aims to produce biodiesel from indigenous non-edible feedstock of wild olive seed oil using novel bifunctional xK2O/ZrO2-Bi2O3 catalyst. The designed catalyst was prepared using sol gel-impregnation method. The textural and surface properties of the synthesized catalyst were elucidated using various analytical techniques including EDX, FTIR, XRD, SEM, BET and XPS. The catalyst provided highest biodiesel yield of 95.2 % under the optimized reaction conditions. The successful synthesis of biodiesel was confirmed by GCMS, NMR and FTIR analysis, whereas; the various physiochemical properties were investigated according to the ASTM and EN standards. The designed catalyst showed substantial reproducibility and recyclability up to four times. The mechanism for xK2O/ZrO2-Bi2O3 catalyzed transesterification reaction of WOSO was also proposed. The kinetics studies revealed that the reaction follows pseudo first order and the Ea was calculated to be 32.58 kJ mol−1. [Display omitted] •Synthesized bifunctional catalyst of SA 360 m2/g for conversion of oil to biodiesel.•Wild olive seed oil as a potential raw material for sustainable biodiesel.•Designed catalyst with 95.2 % yield is a viable option for biodiesel production.•The catalyst showed substantial reusability upto four successful cycles.
ISSN:0960-1481
DOI:10.1016/j.renene.2024.121939