Bacterial Cellulose and Biodegradable Superbase for Heterogeneous Transesterification to Alkyl Esters

Bacterial Cellulose and Biodegradable Superbase for Heterogeneous Transesterification to Alkyl Esters

Heterogeneous catalysts, basic, acidic or bifunctional, can catalyze transesterification reactions where the raw material has a significant content of FFA fatty acids, such as used cooking oils or other lipid-based residues, which do not have the purity required for homogeneous catalysis, in which c...

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Bibliographic Details
Main Authors: Cristina Ionela Gogoaşă, Cristian Eugen Răducanu, Laura Elisabeta Petraş, Doinița Roxana Cioroiu Tîrpan, Gabriel Vasilievici, Andreea Luiza Mîrţ, Tănase Dobre, Oana Cristina Pârvulescu
Format: Article
Language:English
Published: MDPI AG 2023-11-01
Series:Catalysts
Subjects:
bacterial cellulose
heterogeneous catalyst
superbases
transesterification
Plackett–Burman design
methyl esters
Online Access:https://www.mdpi.com/2073-4344/13/11/1431
Description
Summary:Heterogeneous catalysts, basic, acidic or bifunctional, can catalyze transesterification reactions where the raw material has a significant content of FFA fatty acids, such as used cooking oils or other lipid-based residues, which do not have the purity required for homogeneous catalysis, in which case the purity of the triglycerides above 99.5% is the first condition for the initiation of the reaction, to avoid saponification. In this work, a green supported catalyst was developed, using bacterial cellulose as catalytic support and biodegradable superbase as a chemical compound, for transesterification reaction to obtain alkyl esters, yielding over 99% of its content at 70 °C temperature and 7.5% catalyst loading (1.5/20 <i>w</i>/<i>w</i> catalyst:oil). A Plackett-–Burman design was used for screening experiments to explore the main effect in terms of catalytic activity and performance of the triglyceride conversion reaction.
ISSN:2073-4344

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