Add to ORKGA theoretical model of turbulent flame propagation in a reciprocating stratified charge engine is developed and calculations of temperature and species concentrations as functions of space and time are made. Also pressure is calculated as a function of time. A spacial variation of mixture ratio is considered such that there is a fuel-rich region in the center of the cylinder and a fuel-lean region near the cylinder walls. The spark in the fuel-rich region results in a premixed-type of flame propagating toward the walls. A diffusion-type flame results in the wake of the other flame due to the mixing of the excess air and fuel
In this paper some initial results concerning the evolution of flame propagation in 4-valve engines ...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
A Spray-Guided (SG) Direct-Injection (DI) Spark-Ignition (SI) engine is widely recognized to be a pr...
A theoretical model of turbulent flame propagation in reciprocating stratified-charge engines is dev...
An engine simulation model has been developed to describe turbulent combustion of gas-air mixtures i...
A model for predicting the burnrate of a premixed and stratified internal combustion engine is devel...
Turbulent flame propagation in a modern, turbo-charged, direct-injection gasoline engine is investig...
This paper outlines the development of a comprehensive numerical framework for the partially strati...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
A model is presented for the turbulent flame propagation speed in spark ignition engines based upon ...
Turbulent combustion is the basic physical phenomenon responsible for efficient energy release by an...
Homogeneous charge compression-ignition (HCCI) engines have been considered to hold potential for ne...
Abstract: A zero-dimensional modelling study has been conducted using wrinkled flame theory for flam...
International audienceA conditional averaging approach is applied to model combustion and pollutant ...
A V-shaped laminar stratified flame was investigated by numerical simulation. The primitive variable...
In this paper some initial results concerning the evolution of flame propagation in 4-valve engines ...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
A Spray-Guided (SG) Direct-Injection (DI) Spark-Ignition (SI) engine is widely recognized to be a pr...
A theoretical model of turbulent flame propagation in reciprocating stratified-charge engines is dev...
An engine simulation model has been developed to describe turbulent combustion of gas-air mixtures i...
A model for predicting the burnrate of a premixed and stratified internal combustion engine is devel...
Turbulent flame propagation in a modern, turbo-charged, direct-injection gasoline engine is investig...
This paper outlines the development of a comprehensive numerical framework for the partially strati...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
A model is presented for the turbulent flame propagation speed in spark ignition engines based upon ...
Turbulent combustion is the basic physical phenomenon responsible for efficient energy release by an...
Homogeneous charge compression-ignition (HCCI) engines have been considered to hold potential for ne...
Abstract: A zero-dimensional modelling study has been conducted using wrinkled flame theory for flam...
International audienceA conditional averaging approach is applied to model combustion and pollutant ...
A V-shaped laminar stratified flame was investigated by numerical simulation. The primitive variable...
In this paper some initial results concerning the evolution of flame propagation in 4-valve engines ...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
A Spray-Guided (SG) Direct-Injection (DI) Spark-Ignition (SI) engine is widely recognized to be a pr...