Thermal and oxidative stability of ethyl soybean biodiesel with cagaite (Eugenia dysenterica DC.) leaves extract as additive

Thermal and oxidative stability of ethyl soybean biodiesel with cagaite (Eugenia dysenterica DC.) leaves extract as additive

This work aimed to evaluate the thermal and oxidative stability of samples of ethyl soybean biodiesel (BES) added with the ethanol extract of Eugenia dysenterica DC. leaves (EFC), popularly known in Brazil as cagaite. The BES samples were added with EFC in quantities of 500, 1000 and 2000 ppm. For c...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry Vol. 147; no. 19; pp. 10363 - 10369
Main Authors: Rial, Rafael Cardoso, Merlo, Thais Cardoso, Santos, Piter Hernanny Michalski, Melo, Luiz Felipe Dias, Nazário, Carlos Eduardo Domingues, Viana, Luíz Henrique
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-10-2022
Springer
Springer Nature B.V
Subjects:
Additives
Analytical Chemistry
Antioxidants
Biodiesel fuels
Biofuels
Chemistry
Chemistry and Materials Science
Decomposition
Ethanol
Evaluation
Inorganic Chemistry
Measurement Science and Instrumentation
Medicine, Botanic
Medicine, Herbal
Physical Chemistry
Polymer Sciences
Room temperature
Stability analysis
Temperature
Thermal stability
Thermogravimetry
Ethyl soybean biodiesel
Oxidative stability
Ethanolic extract
Thermal stability
DC
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Summary:This work aimed to evaluate the thermal and oxidative stability of samples of ethyl soybean biodiesel (BES) added with the ethanol extract of Eugenia dysenterica DC. leaves (EFC), popularly known in Brazil as cagaite. The BES samples were added with EFC in quantities of 500, 1000 and 2000 ppm. For comparison sake, a sample of BES was added with 2000 ppm TBHQ. All samples were stored at room temperature and protected from light for thirty days. Thermal stability was evaluated using thermogravimetry/derived thermogravimetry (TGA/DTG) in which the initial temperature and final decomposition temperature were measured, in Celsius degrees. Thermal stability was analyzed through the induction period, in hours (h), using the Rancimat ® method. As the mass of EFC added in BES increased, there was an increase in the induction period of the stored samples, and the AB3 and AB4 samples showed induction periods longer than that stipulated by the ANP (8h) during the storage period. In addition, sample AB3 had the highest initial decomposition temperature, inferior only to the sample added with TBHQ (AB4). All the additives with EFC also showed an increase in decomposition temperatures and in the induction period and this shows the action of antioxidants present in the EFC in delaying the decomposition of BES, showing that it is an important additive to improve the quality of this biofuel.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-022-11267-x