Gladys Moréac scite author profile

A detailed reaction mechanism for n-heptane oxidation has been compiled and subsequently simplified. The model is based on a kinetic model for C1-C4 fuel oxidation of Hoyermann et al. [Phys. Chem. Chem. Phys., 2004, 6, 3824] and a detailed mechanism for n-heptane oxidation developed by Curran et al. [Combust. Flame, 1998, 114, 149]. The generated mechanism is kept compact by limiting the application of the low temperature oxidation pathways to the fuel molecule. The first reaction steps and the complex low temperature paths in the oxidation process have been simplified and reorganized by linear chemical lumping. The reported procedure allows a decrease in number of species and reactions with only a minor loss of model accuracy. The simplified model is of very compact size and gives an advantageous starting point for further model reduction. By this chemically lumped general mechanism without further adjustments the large set of experimental data for the high and low temperature oxidation (ignition delay times, species concentration profiles, heat release and engine pressure profiles, flame speeds and flame structure data) for conditions ranging from very low to high temperatures (550-2300 K), very lean to extremely fuel rich (0.22 < phi < 3) mixtures and pressures between 1 and 42 bar is consistently described providing a basis for reliable predictions for future applications, (i) building reaction mechanisms for similar but chemically more complex fuels (e.g. iso-octane, n-decane,...) and (ii) calculating complex flow fields ("fluid dynamics") after further simplification with advanced reduction tools.

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Experimental determination of laminar burning velocity for butanol and ethanol iso-octane blends

Broustail

Seers

Halter

et al. 2011

Fuel

229

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Modelling of aromatics and soot formation from large fuel molecules

Marchal

Delfau

Vovelle

et al. 2009

Proceedings of the Combustion Institute

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Nitric oxide interactions with hydrocarbon oxidation in a jet-stirred reactor at 10 atm

Moréac

Dagaut

Roesler

et al. 2006

Combustion and Flame

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Gladys Moréac

A comprehensive and compact n-heptane oxidation model derived using chemical lumping

Experimental determination of laminar burning velocity for butanol and ethanol iso-octane blends

Modelling of aromatics and soot formation from large fuel molecules

Nitric oxide interactions with hydrocarbon oxidation in a jet-stirred reactor at 10 atm

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