Characterization of gasoline/ethanol blends by infrared and excess infrared spectroscopy

Stella Corsetti, Florian M. Zehentbauer, David McGloin, Johannes Kiefer (Lead / Corresponding author)

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34 Citations (Scopus)

Abstract

Fuels for automotive propulsion are frequently blends of conventional gasoline and ethanol. However, the effects of adding an alcohol to a petrochemical fuel are yet to be fully understood. We report Fouriertransform infrared spectroscopy (FTIR) of ethanol/gasoline mixtures with systematically varied composition. Frequency shifts and excess infrared absorbance are analyzed in order to investigate the mixture behavior at the molecular level. The spectroscopic data suggest that the hydrogen bonding between ethanol molecules is weakened upon gasoline addition, but the hydrogen bonds do not disappear. This can
be explained by a formation of small ethanol clusters that interact via Van der Waals forces with the surrounding gasoline molecules. Furthermore, approaches for measuring the chemical composition of ethanol/gasoline blends by FTIR are discussed. For a simplistic approach based on the Beer–Lambert relation, an optimized set of parameters for quantitative measurements are determined. The best compromise
between measurement sensitivity and accuracy is found for the CO stretching mode of the alcohol. For the traditional method of calibrating the ratio of integrated band intensities of the CH and OH stretching
regions it is found that narrowing the spectral window of the CH stretch can significantly improve the measurement sensitivity.
Original languageEnglish
Pages (from-to)136-142
Number of pages7
JournalFuel
Volume141
Early online date28 Oct 2014
DOIs
Publication statusPublished - 1 Feb 2015

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