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Estimation of the oxidation temperature of biodiesels from a limited number of chemical parameters
[Display omitted] ► Experimental mixture design with fatty acid methyl esters was performed to study oxidative stability. ► The oxidation temperature (OT) was obtained applying non-isothermal PDSC. ► A pseudo-molecular formula CaHbHc∗Hd∗∗He∗∗∗O2(OH)f to represent the mixtures of FAME was developed....
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Published in: | Fuel (Guildford) 2012-12, Vol.102, p.585-591 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | [Display omitted]
► Experimental mixture design with fatty acid methyl esters was performed to study oxidative stability. ► The oxidation temperature (OT) was obtained applying non-isothermal PDSC. ► A pseudo-molecular formula CaHbHc∗Hd∗∗He∗∗∗O2(OH)f to represent the mixtures of FAME was developed. ► A quadratic relationship for OT with H∗, H∗∗ and (OH) was found.
Biodiesel is a fuel composed by fatty acid esters, usually methyl esters (FAME), have common structural features, as allylic hydrogens, bis-allylic hydrogens and secondary hydroxyl, that determinate its oxidative stability. In this study, the oxidation temperature (OT) of biodiesels formulated from a mixture design of methyl stearate, methyl oleate, methyl linoleate and methyl ricinoleate was determined by pressurized differential scanning calorimetry (PDSC). The generic representation CaHbHc∗Hd∗∗He∗∗∗O2(OH)f for the mixtures was developed and their coefficients were used as parameters to describe the OT. A non-linear dependence of OT with the descriptors of allylic hydrogen Hc∗, bis-allylic hydrogen Hd∗∗ and secondary hydroxyls (OH)f were observed in the empirical domain Dexp={(a;c,d,f) ∈R3; 0⩽c⩽4 and 0⩽d⩽2 and 0⩽f⩽1 and a=19}, where the Ca parameter for chain length was kept fixed. |
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ISSN: | 0016-2361 1873-7153 |
DOI: | 10.1016/j.fuel.2012.07.056 |