Open AccessThe effect of oxygenate molecular structure on soot production in direct-injection diesel engines.
Author(s) -
Charles K. Westbrook,
William J. Pitz,
C. Mueller,
Glen C. Martin,
Lyle M. Pickett
Publication year - 2003
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/918204
Subject(s) - oxygenate , soot , diesel fuel , combustion , diesel exhaust , chemical engineering , chemistry , oxygen , work (physics) , carbon fibers , materials science , catalysis , organic chemistry , thermodynamics , physics , composite number , composite material , engineering
A combined experimental and kinetic modeling study of soot formation in diesel engine combustion has been used to study the addition of oxygenated species to diesel fuel to reduce soot emissions. This work indicates that the primary role of oxygen atoms in the fuel mixture is to reduce the levels of carbon atoms available for soot formation by fixing them in the form of CO or COz. When the structure of the oxygenate leads to prompt and direct formation of CO2, the oxygenate is less effective in reducing soot production than in cases when all fuel-bound 0 atoms produce only CO. The kinetic and molecular structure principles leading to this conclusion are described
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