Combustion chemistry of alcohols: Experimental and modeled structures of premixed 2-methylbutanol flames

by A. Lucassen, S. Park, N. Hansen, S.M. Sarathy
Year:2015

Bibliography

Combustion chemistry of alcohols: Experimental and modeled structures of premixed 2-methylbutanol flames
A. Lucassen, S. Park, N. Hansen, S.M. Sarathy
Proc. Combust. Inst., 35:813-820, (2015)

Abstract

​​This paper presents a detailed investigation of 2-methylbutanol combustion chemistry in low-pressure premixed flames. This chemistry is of particular interest to study because this compound is potentially a lignocellulosic-based, next-generation biofuel. The detailed chemical structure of a stoichiometric low-pressure (25 Torr) flame was determined using flame-sampling molecular-beam mass spectrometry. A total of 55 species were identified and subsequently quantitative mole fraction profiles as function of distance from the burner surface were determined. In an independent effort, a detailed flame chemistry model for 2-methylbutanol was assembled based on recent knowledge gained from combustion chemistry studies for butanol isomers ([Sarathy et al. Combust. Flame 159 (6) (2012) 2028-2055]) and iso-pentanol (3-methylbutanol) [Sarathy et al. Combust. Flame 160 (12) (2013) 2712-2728]. Experimentally determined and modeled mole fraction profiles were compared to demonstrate the model’s capabilities. Examples of individual mole fraction profiles are discussed together with the most significant fuel consumption pathways to highlight the combustion chemistry of 2-methylbutanol. Discrepancies between experimental and modeling results are used to suggest areas where improvement of the kinetic model would be needed.

Keywords

Alcohol Combustion 2-Methylbutanol Biofuels Mass Spectrometry Kinetic Modeling
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