Experiments and modeling of ignition delay times, flame structure and intermediate species of EHN-doped stoichiometric n-heptane/air combustion

Article ID	Journal	Published Year	Pages	File Type
6679405	Proceedings of the Combustion Institute	2009	8 Pages	PDF

Abstract

Numerical analysis suggests that the prevalent reason for the ignition-enhancing effect of EHN is the formation of highly reactive heptyl radicals by thermal decomposition of EHN. Due to this comparatively simple and generic mechanism, EHN is expected to have a similar ignition-enhancing effect also for other hydrocarbon fuels.

Keywords

eHN Ignition delay times Flame structure Kinetic mechanism

Related Topics

Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)

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Experiments and modeling of ignition delay times, flame structure and intermediate species of EHN-doped stoichiometric n-heptane/air combustion

Authors

M. Hartmann, K. Tian, C. Hofrath, M. Fikri, A. Schubert, R. SchieÃl, R. Starke, B. Atakan, C. Schulz, U. Maas, F. Kleine Jäger, K. Kühling,