论文信息 - A Predictive Model for the Combustion Process in Dual Fuel Engines

A Predictive Model for the Combustion Process in Dual Fuel Engines

A multi-zone model has been developed for the prediction of the combustion processes in dual fuel engines and some of their performance features. The consequences of the interaction between the gaseous and the diesel fuels and the resulting modification to the combustion processes are considered. A reacting zone has been incorporated in the model to describe the partial oxidation of the gaseous fuel-air mixture while detailed kinetic schemes are employed to describe the oxidation of the gaseous fuel, right from the start of compression to the end of the expansion process. The associated formation and concentrations of exhaust emissions are correspondingly established. The model can predict the onset of knock as well as the operating features and emissions for the more demanding case of light load performance. Predicted values for methane operation show good agreement with corresponding experimental values.

Z. Liu | G. A. Karim | G. Karim | Z. Liu

[1] H. Hiroyasu,et al. Models for combustion and formation of nitric oxide and soot in direct injection diesel engines. SAE Paper 760129 , 1976 .

[2] W. J. D. Annand,et al. Heat Transfer in the Cylinders of Reciprocating Internal Combustion Engines , 1963 .

[3] X. Gao,et al. Ignition delay and heat release analysis of an ethanol fumigated turbocharged diesel engine , 1983 .

[4] Muhammad Osman Khan. Dual-fuel combustion phenomena , 1970 .

[5] Tadashi Murayama,et al. Description and Analysis of Diesel Engine Rate of Combustion and Performance Using Wiebe's Functions , 1985 .

[6] Z. Bazari,et al. A DI diesel combustion and emission predictive capability for use in cycle simulation , 1992 .