In-cylinder large scale and small scale structures are widely recognized to strongly influence the mixing process in HSDI Diesel engines, and therefore combustion and pollutant emissions. In particular, swirl motion intensity and temporal evolution during the intake and compression strokes must be correctly estimated to properly target the spray jets. The experimental characterization of the attitude of a valve/port assembly to promote swirl is traditionally limited to the steady flow bench, in which the analysis is carried out for fixed valve positions / fixed pressure drops and with no piston. Since flow bench analyses cannot reproduce the highly complex instantaneous flow conditions typical of actual engine operations, the use of fully-t...
The one-equation subgrid scale model for the Large Eddy Simulation (LES) turbulence model has been c...
Standard design practice usually adopts steady flow tests for addressing optimisation of the intake ...
Spray and mixture formation in a compression-ignition engine is of paramount importance in the diese...
In-cylinder large scale and small scale structures are widely recognized to strongly influence the m...
The in-cylinder fluid motion of an internal combustion engine is a complex, turbulent flow that has ...
Swirl control strategies are useful methods for controllingmixture formation in HSDI Diesel engines....
Turbulence and turbulent mixing are two of the most important factors that influence the efficiency ...
Recently, a growing interest in the development of more accurate phenomenological turbulence models ...
The aim of the paper is to provide information about the in-cylinder flow field optimisation in a hi...
Recent four valve HSDI Diesel engines are able to controlthe swirl intensity, in order to enhance th...
In the Diesel engine industry, increasing developments are conducted based on computational fluid dy...
Spray and mixture formation in a compression ignition engine is of paramount importance for diesel c...
Introduction− The airflow analysis for internal combustion engines (ICE) remains challenging for res...
The paper aims at providing information about the in-cylinder flow structure and its evolution of a ...
The paper describes the development and validation of a quasi-dimensional combustion model, applicab...
The one-equation subgrid scale model for the Large Eddy Simulation (LES) turbulence model has been c...
Standard design practice usually adopts steady flow tests for addressing optimisation of the intake ...
Spray and mixture formation in a compression-ignition engine is of paramount importance in the diese...
In-cylinder large scale and small scale structures are widely recognized to strongly influence the m...
The in-cylinder fluid motion of an internal combustion engine is a complex, turbulent flow that has ...
Swirl control strategies are useful methods for controllingmixture formation in HSDI Diesel engines....
Turbulence and turbulent mixing are two of the most important factors that influence the efficiency ...
Recently, a growing interest in the development of more accurate phenomenological turbulence models ...
The aim of the paper is to provide information about the in-cylinder flow field optimisation in a hi...
Recent four valve HSDI Diesel engines are able to controlthe swirl intensity, in order to enhance th...
In the Diesel engine industry, increasing developments are conducted based on computational fluid dy...
Spray and mixture formation in a compression ignition engine is of paramount importance for diesel c...
Introduction− The airflow analysis for internal combustion engines (ICE) remains challenging for res...
The paper aims at providing information about the in-cylinder flow structure and its evolution of a ...
The paper describes the development and validation of a quasi-dimensional combustion model, applicab...
The one-equation subgrid scale model for the Large Eddy Simulation (LES) turbulence model has been c...
Standard design practice usually adopts steady flow tests for addressing optimisation of the intake ...
Spray and mixture formation in a compression-ignition engine is of paramount importance in the diese...