Modelling of Early Flame Kernel Growth Towards A Better Understanding of Cyclic Combustion Variability in SI Engines (CROSBI ID 219730)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Sjerić, Momir ; Kozarac, Darko ; Tatschl, Reinhard
engleski
Modelling of Early Flame Kernel Growth Towards A Better Understanding of Cyclic Combustion Variability in SI Engines
The analysis of particular effects that influence cyclic combustion variability in spark-ignition engines is presented in this paper. The cycle-simulations are performed over 16 knock-free full load operating conditions of a single cylinder engine fuelled with gasoline. For the modelling of early flame kernel growth a newly developed quasi-dimensional ignition model is applied. The ignition model includes a detailed description of the electric circuit, the electric spark length, the spark plug geometry and the flame kernel growth. The main turbulent combustion is calculated using the extended quasi-dimensional fractal combustion model requiring the correct prediction of in- cylinder turbulence level. The cyclic combustion variability is simulated by a variation of the in-cylinder turbulence level, the flow angle at spark plug and the stratification of air equivalence ratio from cycle-to-cycle. The statistical analysis of the indicated mean effective pressure (IMEP) gives a more detailed quantitative picture of the causes of the cyclic combustion variability in SI engines over the different operating conditions. The variation of in-cylinder turbulence is found to be the dominant factor that affects the cyclic variability (up to 66 %), while the variation in the early flame kernel growth rate is responsible for up to 18 % of the overall cyclic combustion variability in the modelled SI engine at full load conditions.
engine; spark-ignition; cyclic variability; combustion; turbulence
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Podaci o izdanju
103
2015.
895-909
objavljeno
0196-8904
10.1016/j.enconman.2015.07.031