Title of article
Combustion of butanol isomers – A detailed molecular beam mass spectrometry investigation of their flame chemistry
Author/Authors
Oكwald، نويسنده , , Patrick and Güldenberg، نويسنده , , Hanna and Kohse-Hِinghaus، نويسنده , , Katharina and Yang، نويسنده , , Bin and Yuan، نويسنده , , Tao and Qi، نويسنده , , Fei، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
14
From page
2
To page
15
Abstract
The combustion chemistry of the four butanol isomers, 1-, 2-, iso- and tert-butanol was studied in flat, premixed, laminar low-pressure (40 mbar) flames of the respective alcohols. Fuel-rich (ϕ = 1.7) butanol–oxygen–(25%)argon flames were investigated using different molecular beam mass spectrometry (MBMS) techniques. Quantitative mole fraction profiles are reported as a function of burner distance. In total, 57 chemical compounds, including radical and isomeric species, have been unambiguously assigned and detected quantitatively in each flame using a combination of vacuum ultraviolet (VUV) photoionization (PI) and electron ionization (EI) MBMS.
otron-based PI-MBMS allowed to separate isomeric combustion intermediates according to their different ionization thresholds. Complementary measurements in the same flames with a high mass-resolution EI-MBMS system provided the exact elementary composition of the involved species. Resulting mole fraction profiles from both instruments are generally in good quantitative agreement.
se flames of the four butanol isomers, temperature, measured by laser-induced fluorescence (LIF) of seeded nitric oxide, and major species profiles are strikingly similar, indicating seemingly analog global combustion behavior. However, significant variations in the intermediate species pool are observed between the fuels and discussed with respect to fuel-specific destruction pathways. As a consequence, different, fuel-specific pollutant emissions may be expected, by both their chemical nature and concentrations.
sults reported here are the first of their kind from premixed isomeric butanol flames and are thought to be valuable for improving existing kinetic combustion models.
Keywords
Molecular beam mass spectrometry , Combustion intermediates , Butanol flame , Bio-butanol combustion
Journal title
Combustion and Flame
Serial Year
2011
Journal title
Combustion and Flame
Record number
2275434
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