Large-eddy simulation analysis of knock in a direct injection spark ignition engine - IFPEN - IFP Energies nouvelles Access content directly
Journal Articles International Journal of Engine Research Year : 2019

Large-eddy simulation analysis of knock in a direct injection spark ignition engine

Abstract

Downsized spark ignition (SI) engines running under high loads have become more and more attractive for car manufacturers because of their increased thermal efficiency and lower CO2 emissions. However, the occurrence of abnormal combustions promoted by the thermodynamic conditions encountered in such engines limits their practical operating range, especially in high efficiency and low fuel consumption regions. One of the main abnormal combustion is knock, which corresponds to an autoignition of end gases during the flame propagation initiated by the spark plug. Knock generates pressure waves which can have long term damages on the engine, that is why the aim for car manufacturers is to better understand and predict knock appearance. However an experimental study of such recurrent but non-cyclic phenomena is very complex, and these difficulties motivate the use of CFD for better understanding them. In the present paper, Large-Eddy Simulation (LES) is used as it is able to represent the instantaneous engine behavior and thus to quantitatively capture cyclic variability and knock. The proposed study focuses on the LES analysis of knock for a direct injection SI engine. A spark timing sweep available in the experimental database is simulated, and 15 LES cycles were performed for each spark timing. Wall temperatures, which are a first order parameter for knock prediction, are obtained using a conjugate heat transfer study. Present work points out that LES is able to describe the in-cylinder pressure envelope whatever the spark timing, even if the sample of LES cycles is limited compared to the 500 cycles recorded in the engine test bench. The influence of direct injection and equivalence ratio stratifications on combustion is also analyzed. Finally, focusing on knock, a MAPO (Maximum Amplitude Pressure Oscillation) analysis is conducted for both experimental and numerical pressure traces pointing out that LES well reproduces experimental knock tendencies.
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Dates and versions

hal-02333717 , version 1 (25-10-2019)

Identifiers

Cite

Anthony Robert, Karine Truffin, Nicolas Iafrate, Stéphane Jay, Olivier Colin, et al.. Large-eddy simulation analysis of knock in a direct injection spark ignition engine. International Journal of Engine Research, 2019, 20 (7), pp.765-776. ⟨10.1177/1468087418796323⟩. ⟨hal-02333717⟩

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