Add to ORKGA stochastic model based on a probability density function (PDF) was developed for the investigation of different conditions that determine knock in spark ignition (SI) engine, with focus on the turbulent mixing. The model used is based on a two-zone approach, where the burned and unburned gases are described as stochastic reactors. By using a stochastic ensemble to represent the PDF of the scalar variables associated with the burned and the unburned gases it is possible to investigate phenomena that are neglected by the regular existing models (as gas non-uniformity, turbulence mixing, or the variable gas-wall interaction). Two mixing models are implemented for describing the turbulent mixing: the deterministic interaction by exchange with...
A Spray-Guided (SG) Direct-Injection (DI) Spark-Ignition (SI) engine is widely recognized to be a pr...
The aim of the thesis work is the further development of practical engine simulation tools based on ...
The present paper describes recent developments realised at IFP on the 3D modeling of combustion in ...
A model for predicting the burnrate of a premixed and stratified internal combustion engine is devel...
In the recent past engine knock emerged as one of the main limiting aspects for the achievement of h...
Engine knock is emerging as the main limiting factor for modern spark-ignition (SI) engines, facing ...
A mathematical model is developed to simulate the combustion process of a direct injection diesel en...
A comprehensive diesel engine combustion model has been developed. The model is an extension of simi...
In spark-ignition engines, knock control represents one of the most critical issue to reach optimal ...
Pollutant regulations and fuel consumption concerns are the driving guidelines for increased thermal...
Knock is a non-deterministic phenomenon and its intensity is typically defined by a non-symmetrical ...
Engine knock is one of the most limiting factors for modern Spark-Ignition (SI) engines to achieve h...
Today numerical models are a major part of the diesel engine development. They are applied during se...
The statistical tendency of a GDI spark-ignition engine to undergo knocking combustion as a conseque...
The statistical tendency of a GDI spark-ignition engine to undergo knocking combustion as a conseque...
A Spray-Guided (SG) Direct-Injection (DI) Spark-Ignition (SI) engine is widely recognized to be a pr...
The aim of the thesis work is the further development of practical engine simulation tools based on ...
The present paper describes recent developments realised at IFP on the 3D modeling of combustion in ...
A model for predicting the burnrate of a premixed and stratified internal combustion engine is devel...
In the recent past engine knock emerged as one of the main limiting aspects for the achievement of h...
Engine knock is emerging as the main limiting factor for modern spark-ignition (SI) engines, facing ...
A mathematical model is developed to simulate the combustion process of a direct injection diesel en...
A comprehensive diesel engine combustion model has been developed. The model is an extension of simi...
In spark-ignition engines, knock control represents one of the most critical issue to reach optimal ...
Pollutant regulations and fuel consumption concerns are the driving guidelines for increased thermal...
Knock is a non-deterministic phenomenon and its intensity is typically defined by a non-symmetrical ...
Engine knock is one of the most limiting factors for modern Spark-Ignition (SI) engines to achieve h...
Today numerical models are a major part of the diesel engine development. They are applied during se...
The statistical tendency of a GDI spark-ignition engine to undergo knocking combustion as a conseque...
The statistical tendency of a GDI spark-ignition engine to undergo knocking combustion as a conseque...
A Spray-Guided (SG) Direct-Injection (DI) Spark-Ignition (SI) engine is widely recognized to be a pr...
The aim of the thesis work is the further development of practical engine simulation tools based on ...
The present paper describes recent developments realised at IFP on the 3D modeling of combustion in ...