In the present work, a study of different numerical heat transfer models is presented used for Homogeneous Charge Compression Ignition (HCCI) internal combustion engine simulations. Since the heat loss through the walls of an engine is an important parameter during engine optimization, as it influences power, efficiency and emissions, accurate modeling techniques need to be available. In this work, the predictive capability of different Computational Fluid Dynamics (CFD) models has been assessed, by using data obtained from experiments on a Cooperative Fuel Research (CFR) engine, a simple single cylinder pancake engine, which has been probed with local heat flux sensors into the combustion chamber walls. The open-source software OpenFOAM (R...
New SI engine generations are characterized by a simultaneous reduction of the engine displacement a...
An experimental study was performed to provide qualitative and quantitative insight into combustion ...
In the internal combustion engines, the flames interact with the walls of the cylinder, which affect...
In the present work, a study of different numerical heat transfer models is presented used for Homog...
The present work details a study of the heat flux through the walls of an internal combustion engine...
The present work details a study of the heat flux through the walls of an internal combustion engine...
Homogeneous charge compression ignition (HCCI) engines are a promising alternative to traditional sp...
[EN] The stringent environmental constraints have led the industry to look for new technologies that...
Last generation spark ignition (SI) engines are characterized by a simultaneous reduction of the eng...
The heat transfer from the combustion gases to the cylinder wall affects the efficiency, emissions a...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
The present study focuses on the development and a preliminary validation of a heat transfer model f...
[EN] The present study tries to be a contribution for the development of more precise theoretical mo...
New SI engine generations are characterized by a simultaneous reduction of the engine displacement a...
An experimental study was performed to provide qualitative and quantitative insight into combustion ...
In the internal combustion engines, the flames interact with the walls of the cylinder, which affect...
In the present work, a study of different numerical heat transfer models is presented used for Homog...
The present work details a study of the heat flux through the walls of an internal combustion engine...
The present work details a study of the heat flux through the walls of an internal combustion engine...
Homogeneous charge compression ignition (HCCI) engines are a promising alternative to traditional sp...
[EN] The stringent environmental constraints have led the industry to look for new technologies that...
Last generation spark ignition (SI) engines are characterized by a simultaneous reduction of the eng...
The heat transfer from the combustion gases to the cylinder wall affects the efficiency, emissions a...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
The present study focuses on the development and a preliminary validation of a heat transfer model f...
[EN] The present study tries to be a contribution for the development of more precise theoretical mo...
New SI engine generations are characterized by a simultaneous reduction of the engine displacement a...
An experimental study was performed to provide qualitative and quantitative insight into combustion ...
In the internal combustion engines, the flames interact with the walls of the cylinder, which affect...