In modern turbocharged direct-injection, spark-ignition engines, proper calibration of the engine control unit is essential to handle the increasing variability of actuators. The physically based simulation of engine processes such as mixture homogenization enables a model-based calibration of the engine control unit to identify an ideal set of actuator settings, for example, for efficient combustion with reduced exhaust emissions. In this work, a zero-dimensional phenomenological model for direct-injection, spark-ignition engines is presented that allows the equivalence ratio distribution function in the combustion chamber to be calculated and its development is tracked over time. The model considers the engine geometry, mixing time, charg...
The combustion process of a Port Fuel Injection (PFI) engine is deeply influenced by the mixture for...
The present paper describes recent developments realised at IFP on the 3D modeling of combustion in ...
The thorough understanding of the effects due to the fuel direct injection process in modern gasolin...
In modern turbocharged direct-injection, spark-ignition engines, proper calibration of the engine co...
In order to achieve local air purity, particulate emissions from gasoline engines are meanwhile subj...
In this work, three-dimensional fuel–air mixing inside a conventional spark ignition engine cylinder...
Downsized spark ignition engines coupled with a direct injection strategy are more and more attracti...
A detailed understanding of the air-fuel mixing process in gasoline direct injection engines is nece...
Internal combustion engines (ICEs) are an essential and common power source for personal mobility an...
The paper presents a concept for modeling and optimization of the mixture formation process during g...
In this work, the formation of soot in a Direct Injection Spark Ignition (DISI) engine is simulated ...
Diesel engine pollutant emissions legislation is becoming more and more stringent. New driving cycle...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
This paper reports a numerical and experimental analysis on a twin-cylinder turbocharged Spark Ignit...
The combustion process of a Port Fuel Injection (PFI) engine is deeply influenced by the mixture for...
The present paper describes recent developments realised at IFP on the 3D modeling of combustion in ...
The thorough understanding of the effects due to the fuel direct injection process in modern gasolin...
In modern turbocharged direct-injection, spark-ignition engines, proper calibration of the engine co...
In order to achieve local air purity, particulate emissions from gasoline engines are meanwhile subj...
In this work, three-dimensional fuel–air mixing inside a conventional spark ignition engine cylinder...
Downsized spark ignition engines coupled with a direct injection strategy are more and more attracti...
A detailed understanding of the air-fuel mixing process in gasoline direct injection engines is nece...
Internal combustion engines (ICEs) are an essential and common power source for personal mobility an...
The paper presents a concept for modeling and optimization of the mixture formation process during g...
In this work, the formation of soot in a Direct Injection Spark Ignition (DISI) engine is simulated ...
Diesel engine pollutant emissions legislation is becoming more and more stringent. New driving cycle...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
This paper reports a numerical and experimental analysis on a twin-cylinder turbocharged Spark Ignit...
The combustion process of a Port Fuel Injection (PFI) engine is deeply influenced by the mixture for...
The present paper describes recent developments realised at IFP on the 3D modeling of combustion in ...
The thorough understanding of the effects due to the fuel direct injection process in modern gasolin...