Alkanes are key components in gasoline, jet and diesel fuels and considerably influence the
combustion behavior of these fuels because of their wide range of reactivity. An improved …

The flame speeds of premixed stoichiometric n-heptane/21% O 2-79% Ar (so-called
“airgon”) flames with different extents of pre-flame auto-ignition chemistry were …

Ignition delay times (IDT) of n-heptane, iso-octane, n-dodecane, and iso-octane/n-dodecane
blends, in stoichiometric mixtures with air, were measured behind reflected shock waves in a …

The oxidation of n-heptane was performed in a jet-stirred reactor (JSR) at 10 atm, an
equivalence ratio of 0.5, and an initial fuel concentration of 1000 ppm at a residence time of …

The impact of chain length on the time histories of key intermediate species that form upon
first-stage ignition was studied experimentally in a shock tube using multi-color laser …

The diversity of reactivities, intermediates, and pathways associated with the low-
temperature (low-T) oxidation of various component classes that constitute real fuels is …

One of the ultimate goals of chemical kinetic study is to understand and predict autoignition
in engines. In this study, utilizing toluene primary reference fuels (TPRF) as a gasoline …

The temperature, CO, and CO 2 time-histories for the fuel-rich (equivalence ratio ϕ= 1.2 and
2.0) oxidation of n-heptane/diethyl ether/O 2/argon mixtures were measured simultaneously …

The development of methanol/diesel dual-fuel engines urgently requires further study on
chemical kinetic models for binary fuels. Ignition delay of lean and stoichiometric methanol/n …

To evaluate the use of diesel as a pilot fuel in natural gas combustion in two-stroke maritime
engines, research on high-pressure oxidation of methane/n-heptane mixtures is of interest …