Abstract
The oil refining process undergoes various heat treatments, during which several cuts are obtained, including cuts of gasoline of different chemical composition. Determination of physicochemical properties is essential for our fuel classification. In the present study and by exploiting a rarely used spectroscopic method in the field of production and characterization of fuels, FTIR Fourier transform infrared spectroscopy (a method characterized by its reliability and speed), we identified a correlation between the molecular composition of the fuel (translated by chemical number) and its octane number NO (a quite important parameter for species classification). The results of AR1 aromaticity index show a strong linear relationship between the latter and its NO octane number. In addition, NO also occurs in many modes depending on two indicators DOC (degree of condensation) and AR1. Indeed, the ACL aliphatic chain length index varies depending on the quality of the fuel and precisely on the subsequent fuel production process. Furthermore, this method illustrates the molecular composition of the fuel, the correlation determined between the chemical indices and the octane number offering the possibility of predicting this physico-chemical parameter.
Published Version
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