Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41
Gaiser N, Zhang H, Bierkandt T, Schmitt S, Zinsmeister J, Kathrotia T, Hemberger P, Shaqiri S, Kasper T, Aigner M, Osswald P, et al. (2022)
Combustion and Flame 243: 112060.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Gaiser, Nina;
Zhang, HaoUniBi;
Bierkandt, Thomas;
Schmitt, SteffenUniBi;
Zinsmeister, Julia;
Kathrotia, Trupti;
Hemberger, Patrick;
Shaqiri, Shkelqim;
Kasper, Tina;
Aigner, Manfred;
Osswald, Patrick;
Koehler, Markus
Abstract / Bemerkung
Quantitative speciation data for alternative fuels is highly desired to assess their emission potential and to develop and validate chemical kinetic models. In terms of substitute choices for fossil diesel are oxymethylene ethers (OMEs) strongly discussed. Due to the absence of carbon-carbon bonds, soot emis-sions from combustion of OMEs are low, but significant emissions of unregulated pollutants such as alde-hydes emerge. The combustion behavior of OME fuels with different chain lengths, OME0-4, was investigated in lam-inar premixed low-pressure flames using complementary molecular-beam mass spectrometry (MBMS) techniques. MBMS sampling provides an in-situ access directly into the reaction zone of the flame. Al-most all chemical species involved in the oxidation process can be detected and quantified simultane-ously. Neat OME0-3 flames were analyzed by electron ionization (EI) MBMS with high mass resolution ( R approximate to 3900) providing exact elementary composition. To obtain isomer-specific information, an OME1- doped hydrogen flame and a stochiometric OME4 flame were studied by double-imaging photoelectron photoion coincidence (i2PEPICO) spectroscopy. Both, EI-MBMS detection and i2PEPICO spectroscopy, en-ables a complete overview of all intermediates. The results show a dominance of oxygenated intermediates for all measured conditions. Mole fraction profiles for the most important species are presented (i.e. formaldehyde, methanol, methyl formate and formic acid) and compared to modeling results. Hydrocarbons with more than four carbon atoms were not detected under the investigated conditions. Isomers such as ethanol/dimethyl ether (m/z = 46) and ethenol/acetaldehyde (m/z = 44) could be separated using threshold photoelectron spectra for clear iden-tification and photoionization efficiency curves for quantification. This investigation permits the discus-sion and analysis of systematic trends, including intermediate species, for the combustion of the studied series of oxymethylene ether fuels. (c) 2022 The Combustion Institute. Published by Elsevier Inc. All rights reserved.
Stichworte
Oxygenated fuels;
Oxymethylene ethers (OMES);
Polyoxymethylene dimethyl;
ethers;
(POMDMEs);
Molecular -beam mass spectrometry;
Laminar flames
Erscheinungsjahr
2022
Zeitschriftentitel
Combustion and Flame
Band
243
Art.-Nr.
112060
ISSN
0010-2180
eISSN
1556-2921
Page URI
https://pub.uni-bielefeld.de/record/2966980
Zitieren
Gaiser N, Zhang H, Bierkandt T, et al. Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41. Combustion and Flame. 2022;243: 112060.
Gaiser, N., Zhang, H., Bierkandt, T., Schmitt, S., Zinsmeister, J., Kathrotia, T., Hemberger, P., et al. (2022). Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41. Combustion and Flame, 243, 112060. https://doi.org/10.1016/j.combustflame.2022.112060
Gaiser, Nina, Zhang, Hao, Bierkandt, Thomas, Schmitt, Steffen, Zinsmeister, Julia, Kathrotia, Trupti, Hemberger, Patrick, et al. 2022. “Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41”. Combustion and Flame 243: 112060.
Gaiser, N., Zhang, H., Bierkandt, T., Schmitt, S., Zinsmeister, J., Kathrotia, T., Hemberger, P., Shaqiri, S., Kasper, T., Aigner, M., et al. (2022). Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41. Combustion and Flame 243:112060.
Gaiser, N., et al., 2022. Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41. Combustion and Flame, 243: 112060.
N. Gaiser, et al., “Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41”, Combustion and Flame, vol. 243, 2022, : 112060.
Gaiser, N., Zhang, H., Bierkandt, T., Schmitt, S., Zinsmeister, J., Kathrotia, T., Hemberger, P., Shaqiri, S., Kasper, T., Aigner, M., Osswald, P., Koehler, M.: Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41. Combustion and Flame. 243, : 112060 (2022).
Gaiser, Nina, Zhang, Hao, Bierkandt, Thomas, Schmitt, Steffen, Zinsmeister, Julia, Kathrotia, Trupti, Hemberger, Patrick, Shaqiri, Shkelqim, Kasper, Tina, Aigner, Manfred, Osswald, Patrick, and Koehler, Markus. “Investigation of the combustion chemistry in laminar, low-pressure oxymethylene ether flames (OME 0-4 ) .41”. Combustion and Flame 243 (2022): 112060.
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