Mechanisms for the formation of exhaust hydrocarbons in a single cylinder spark-ignition engine, fueled with deuterium-labeled ortho-, meta-, and para-xylene

Gregory, D; Jackson, R A; Bennett, P J

doi:10.1016/S0010-2180(99)00005-X

Title: Mechanisms for the formation of exhaust hydrocarbons in a single cylinder spark-ignition engine, fueled with deuterium-labeled ortho-, meta-, and para-xylene

Journal Article · Sun Aug 01 00:00:00 EDT 1999 · Combustion and Flame

DOI:https://doi.org/10.1016/S0010-2180(99)00005-X· OSTI ID:355736

Gregory, D; Jackson, R A ^[1]; Bennett, P J ^[2]

Univ. of Sussex, Brighton (United Kingdom). School of Chemistry, Physics and Environmental Science
BP Oil, Sunbury-on-Thames (United Kingdom)

Combustion studies in engines have investigated the chemistry leading to the formation in the exhaust of aromatic hydrocarbons from deuterium-labeled isomeric xylenes. These fuels were: ortho-xylene-d{sub 0} and ortho-xylene=d{sub 10} (1:1); para-xylene-d{sub 0} and para-xylene-d{sub 10} (1:1); and meta-xylene-2,4,5,6-d{sub 4}. Isotopic distributions within the exhausted hydrocarbons establish the postflame chemistry involved. There is an isotope effect in the consumption of residual fuel in the postflame region. The residual fuel from each experiment exhibits minimal H-D exchange. Toluene is an intermediate in the formation of ethylbenzene, and is produced through X{sup {sm_bullet}} atom (X{sup {sm_bullet}} = H or D) displacement of methyl radicals from the xylene fuel. Benzene is formed by direct demethylation, but there are other routes. Styrene from o- and p-xylene fuels is formed intramolecularly, probably involving xylylene and methylcycloheptatetraene intermediates. Ethyltoluene is formed by combination of methyl and methylbenzyl radicals.

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OSTI ID:: 355736

Journal Information:: Combustion and Flame, Vol. 118, Issue 3; Other Information: PBD: Aug 1999

Country of Publication:: United States

Language:: English

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Title: Mechanisms for the formation of exhaust hydrocarbons in a single cylinder spark-ignition engine, fueled with deuterium-labeled ortho-, meta-, and para-xylene

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