A flame-kernel model is formulated for the analysis of data obtained using a recently developed spark plug equipped with fiber-optic flame-arrival detectors. The detectors measure the elapsed time from ignition to flame arrival at the detector locations for each engine cycle. The model, which assumes a flame kernel of elliptical cross section undergoing growth and convective displacement at constant rates, is used to estimate those rates from cycle-resolved measurements. It is shown that convection-rate estimation, ostensibly an interpolation of detector signals, in some cases involves an extrapolation that is sensitive to model assumptions. Implications concerning experimental procedure and data interpretation are discussed.
Flame-Kernel Model for Analysis of Fiber-Optic Instrumented Spark Plug Data
Sae Technical Papers
International Congress & Exposition ; 1990
01.02.1990
Aufsatz (Konferenz)
Englisch
Flame kernel model for analysis of fiber-optic instrumented spark plug data
Kraftfahrwesen | 1990
|Fiber-Optic Instrumented Spark Plug for Measuring Early Flame Development in Spark Ignition Engines
SAE Technical Papers | 1988
|SAE Technical Papers | 1998
|