期刊
RENEWABLE ENERGY
卷 175, 期 -, 页码 880-886出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.renene.2021.04.132
关键词
Biodiesel; Oxidation stability; GC-MS; Information entropy; Weight analysis
资金
- National Natural Science Foundation of China [51766007]
- National Natural Science Foundation of Yunnan [2018FB092]
- NSFC-Yunnan Joint Fund Project [U1602272]
- Yunnan Provincial Department of Education [2020Y0081]
This study explores the trends of different FAMEs during the oxidation process of biodiesel, finding that methyl linoleate is the main reason for biodiesel oxidation. Through experimental analysis, it was determined that different FAMEs have varying effects on the stability of biodiesel, with methyl linoleate showing the fastest oxidation rate. The study proposed a mathematical equation to calculate the trend of FAMEs and used information entropy theory to calculate the weighting coefficients, with methyl linoleate having a high coefficient of 0.6797.
To explore the trend of fatty acid methyl esters (FAMEs) during the oxidation process of biodiesel, this study uses gas chromatography -mass spectrometry (GC-MS) combined with information entropy theory to propose a new method to analyze the effect of FAMEs on the stability of biodiesel (especially with different amounts of unsaturated FAMEs). The induction periods of the main FAMEs in biodiesel were determined by the Rancimat method. The results showed that the longest induction period of methyl stearate was 248 h, while the induction of methyl linoleate was only 0.12 h. Accelerated oxidation of biodiesel, using GC-MS analysis showed that the oxidation trends of FAMEs was different. The oxidation rate of methyl linoleate was the fastest. A mathematical equation was proposed to calculate the trend of FAMEs. The results showed that during the 5 h accelerated an oxidation process, the content of methyl linoleate decreased from 28.35% to 2.10%, while the content of methyl oleate decreased by 18.21%. Using information entropy, the weighting coefficients of FAMEs in the oxidation process of biodiesel were calculated. The weighting coefficient of methyl linoleate was as high as 0.6797. Methyl linoleate was the main reason why biodiesel was easily oxidized . (c) 2021 Published by Elsevier Ltd.
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