Fast Gc-Fid Method for Monitoring Acidic and Basic Catalytic Transesterification Reactions in Vegetable Oils to Methyl Ester Biodiesel Preparation

Sato, Renata Takabayashi; Stroppa, Pedro Henrique Fazza; Silva, Adilson David da; Oliveira, Marcone Augusto Leal de

doi:10.5935/0100-4042.20160027

Cited by 3 publications

(1 citation statement)

References 10 publications

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“…A Figura 1 apresenta a equação química de uma reação de transesterificação entre um triglicerídeo e um álcool de cadeia curta, produzindo três moléculas de éster de ácido graxo (biodiesel) e uma molécula de glicerol (VOLLHARDT & SCHORE, 2004). As reações com catalisadores básicos são as mais empregadas porque resultam em processos mais rápidos, com maiores rendimentos de alquil ésteres de ácidos carboxílicos de cadeia longa e requerem condições operacionais mais moderadas (SATO et al, 2016). Em relação aos alcoóis utilizados na produção do biodiesel, as indústrias de biodiesel, geralmente, empregam o metanol.…”

Section: Introductionunclassified

Otimização Estatística Da Produção De Biodiesel a Partir De Óleos Residuais De Frituras Em Rota Etílica

Pagan¹,

Luz²,

Ferreira³

2016

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Section: Introductionunclassified

Otimização Estatística Da Produção De Biodiesel a Partir De Óleos Residuais De Frituras Em Rota Etílica

Pagan¹,

Luz²,

Ferreira³

2016

Enci Bio

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Gas Chromatography Columns Using Ionic Liquids as Stationary Phase

Talebi

Patil

Armstrong

2020

Green Chemistry and Sustainable Technology

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Esterification Optimization of Crude African Palm Olein Using Response Surface Methodology and Heterogeneous Acid Catalysis

et al. 2018

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Abstract:In this work, the effect of zeolite montmorillonite KSF in the esterification of free fatty acids (FFAs) of crude African palm olein (Eleaias guinnesis Jacq) was studied. To optimize the esterification of FFAs of the crude African palm olein (CAPO), the response surface methodology (RSM) that was based on a central composite rotatable design (CCRD) was used. The effects of three parameters were investigated: (a) catalyst loading (2.6-9.4 wt %), (b) reaction temperature (133.2-166.2 • C), and (c) reaction time (0.32-3.68 h). The Analysis of variance (ANOVA) indicated that linear terms of catalyst loading (X 1 ), reaction temperature (X 2 ), the quadratic term of catalyst loading (X 2 1 ), temperature reaction (X 2 2 ), reaction time (X 2 3 ), the interaction catalyst loading with reaction time (X * 1 X 3 ), and the interaction reaction temperature with reaction time (X * 2 X 3 ) have a significant effect (p < 0.05 with a 95% confidence level) on Fatty Methyl Ester (FAME) yield. The result indicated that the optimum reaction conditions to esterification of FFAs were: catalyst loading 9.4 wt %, reaction temperature 155.5 • C, and 3.3 h for reaction time, respectively. Under these conditions, the numerical estimation of FAME yield was 91.81 wt %. This result was experimentally validated obtaining a difference of 1.7% FAME yield, with respect to simulated values.

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Fast Gc-Fid Method for Monitoring Acidic and Basic Catalytic Transesterification Reactions in Vegetable Oils to Methyl Ester Biodiesel Preparation

Cited by 3 publications

References 10 publications

Otimização Estatística Da Produção De Biodiesel a Partir De Óleos Residuais De Frituras Em Rota Etílica

Otimização Estatística Da Produção De Biodiesel a Partir De Óleos Residuais De Frituras Em Rota Etílica

Gas Chromatography Columns Using Ionic Liquids as Stationary Phase

Esterification Optimization of Crude African Palm Olein Using Response Surface Methodology and Heterogeneous Acid Catalysis

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