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BIBTEX RIS

Optimization and kinetic study of ultrasonic-mediated in situ transesterification for biodiesel production from the almonds of Syagrus cearensis

2019; Elsevier BV; Volume: 147; Linguagem: Inglês

10.1016/j.renene.2019.09.122

1879-0682

Caio Victor Pereira Pascoal, André Luis Lima de Oliveira, Daniel Figueiredo, João Carlos da Costa Assunção,

Lubricants and Their Additives

In this research, the effectiveness of ultrasonic transesterification in situ was appraised with the aim of biodiesel synthesis from almonds of Syagrus cearensis, commonly known as Catolé. This raw material was investigated as an innovative and non-conventional alternative for biodiesel production. S. cearensis appears in this article as an energy source with valuable sustainable factors, allowing for financial savings and low environmental impact compared to fossil fuels. Influences of ultrasonic energy on different process variable were elucidated. An experimental design was applied, employing 4 main factors (type and proportion of catalyst, the proportion of methanol and reaction time) to evaluate the effect of the process variables and determine the optimal conditions for biodiesel production. The present study revealed two main factors interactions, ratio, and type of catalyst, which had significant effects on the ultrasonic-assisted in situ transesterification based on statistical evaluation. The results indicated as optimal conditions: basic catalyst (KOH), 5 wt % catalyst, 1:6 methanol: oil (molar ratio) and reaction time of 30 (min). Besides, a kinetic study exposed that the ultrasonic assistance in situ transesterification reaction complies properly with first-order kinetics and activation energy of 27.53 kJ.mol-1. Yields of up to 99.99% conversion to biodiesel were achieved in the present study. By the results, it is possible to affirm that the in situ transesterification of S. cearensis almonds associated with the ultrasound technique was effective for the production of biodiesel proving the benefit of utilizing S. cearensis a new feedstock for biofuels production in Brazil.