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International Journal of Automotive Technology > Volume 13(3); 2012 > Article
International Journal of Automotive Technology 2012;13(3): 389-399.
doi: https://doi.org/10.1007/s12239-012-0036-1
APPLICATION OF A THERMODYNAMIC MODEL WITH A COMPLEX CHEMISTRY TO A CYCLE RESOLVED KNOCK PREDICTION ON A SPARK IGNITION OPTICAL ENGINE
G. D’ERRICO1, T. LUCCHINI1, S. MEROLA2, C. TORNATORE2
1Politecnico di Milano
2CNR
ABSTRACT
A combination of experimental and numerical methodologies is proposed for the investigation of knocking in spark ignition engines to aid in better understanding the physical and chemical processes that occur and to exploit the capabilities of a developed computational tool. The latter consists of a thermo-fluid dynamics model, which is part of an advanced 1-D fluid dynamics code for the simulation of the entire engine, and a complex chemistry model, which can be embedded into the thermo-fluid dynamics model using the same integration algorithm for the conservation equations and the reacting species. Their mutual interaction in the energy balance will be considered. The experimental activity was carried out in the combustion chamber of an optically accessible, single-cylinder P.F.I. engine equipped with a commercial head. The experimental data consisted of optical measurements correlated to the combustion and auto-ignition processes within the cylinder. The optical measurements were based on 2-D digital imaging, UV visible natural emission spectroscopy and the chemiluminescence of radical species (OH and HCO). The engine parameters, the pressure signals of the related data and optical acquisition are compared on an individual cycle basis in the simulation by running the engine at a constant speed and varying the spark advance from normal combustion to heavy knock conditions.
Key Words: Knock, Thermodynamic model, Complex chemistry, Optical diagnostics, Emission spectra

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