The heat transfer phenomena in Internal Combustion Engines (ICEs) are one of the main research topics that need to be addressed to enhance the performance in terms of power, efficiency, emissions and reliability. The present study is focused on the evaluation of the in-cylinder heat fluxes through the use of Computational Fluid Dynamic (CFD) simulations, with a wall function approach. In particular, the aim of this work is to present a new fully non-isothermal wall function obtained from the one-dimensional (1-D) energy balance equation for turbulent flows in the boundary layers, specifying all the steps and assumptions which have carried to the final fully compressible formulation. The new proposed wall function has been validated against ...
A newly developed piece-wise method for calculating the effects of near-wall turbulence on the trans...
International audienceIn this study, the effects of the thermal boundary conditions at the engine wa...
In the present work, a study of different numerical heat transfer models is presented used for Homog...
The heat transfer phenomena in Internal Combustion Engines (ICEs) are one of the main research topic...
The present work details a study of the heat flux through the walls of an internal combustion engine...
Heat Transfer plays a fundamental role in internal combustion engines, as able to affect several asp...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
Convective heat transfer heavily affects both efficiency and reliability in many industrial problems...
Wall modelling in internal combustion engines (ICEs) is a challenging task due to highly specific bo...
The present work details a study of the heat flux through the walls of an internal combustion engine...
The near wall regions in internal combustion engines contain a significant amount of the gaseous mas...
In the industrial practice, 3D-CFD in-cylinder simulations still largely rely on RANS turbulence mod...
Last generation spark ignition (SI) engines are characterized by a simultaneous reduction of the eng...
A newly developed piece-wise method for calculating the effects of near-wall turbulence on the trans...
International audienceIn this study, the effects of the thermal boundary conditions at the engine wa...
In the present work, a study of different numerical heat transfer models is presented used for Homog...
The heat transfer phenomena in Internal Combustion Engines (ICEs) are one of the main research topic...
The present work details a study of the heat flux through the walls of an internal combustion engine...
Heat Transfer plays a fundamental role in internal combustion engines, as able to affect several asp...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
Convective heat transfer heavily affects both efficiency and reliability in many industrial problems...
Wall modelling in internal combustion engines (ICEs) is a challenging task due to highly specific bo...
The present work details a study of the heat flux through the walls of an internal combustion engine...
The near wall regions in internal combustion engines contain a significant amount of the gaseous mas...
In the industrial practice, 3D-CFD in-cylinder simulations still largely rely on RANS turbulence mod...
Last generation spark ignition (SI) engines are characterized by a simultaneous reduction of the eng...
A newly developed piece-wise method for calculating the effects of near-wall turbulence on the trans...
International audienceIn this study, the effects of the thermal boundary conditions at the engine wa...
In the present work, a study of different numerical heat transfer models is presented used for Homog...