As known, reliable information about underlying turbulence intensity is a mandatory pre-requisite to predict the burning rate in quasi-dimensional combustion models. Based on 3D results reported in the companion part I paper, a quasi-dimensional turbulence model, embedded under the form of “user routine” in the GT-Power™ software, is here presented in detail. A deep discussion on the model concept is reported, compared to the alternative approaches available in the current literature. The model has the potential to estimate the impact of some geometrical parameters, such as the intake runner orientation, the compression ratio, or the bore-to-stroke ratio, thus opening the possibility to relate the burning rate to the engine architecture. P...
As discussed in the part I of this paper, 3D models represent a useful tool for a detailed descripti...
Increasing demands on higher performance and lower fuel consumption and emissions have led the path ...
The in-cylinder fluid motion of an internal combustion engine is a complex, turbulent flow that has ...
As known, reliable information about underlying turbulence intensity is a mandatory pre-requisite to...
Recently, a growing interest in the development of more accurate phenomenological turbulence models ...
In this work, the refinement of a phenomenological turbulence model developed in recent years by the...
In this work, the refinement of a phenomenological turbulence model developed in recent years by the...
Predicting turbulence in a zero-dimensional (0D) simulation is an undeniably challenging task due to...
Faster combustion and lower cycle-to-cycle variability are mandatory tasks for naturally aspirated e...
As discussed in the part I of this paper, 3D models represent a useful tool for a detailed descripti...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...
AbstractAs discussed in the part I of this paper, 3D models represent a useful tool for a detailed d...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...
As discussed in the part I of this paper, 3D models represent a useful tool for a detailed descripti...
Increasing demands on higher performance and lower fuel consumption and emissions have led the path ...
The in-cylinder fluid motion of an internal combustion engine is a complex, turbulent flow that has ...
As known, reliable information about underlying turbulence intensity is a mandatory pre-requisite to...
Recently, a growing interest in the development of more accurate phenomenological turbulence models ...
In this work, the refinement of a phenomenological turbulence model developed in recent years by the...
In this work, the refinement of a phenomenological turbulence model developed in recent years by the...
Predicting turbulence in a zero-dimensional (0D) simulation is an undeniably challenging task due to...
Faster combustion and lower cycle-to-cycle variability are mandatory tasks for naturally aspirated e...
As discussed in the part I of this paper, 3D models represent a useful tool for a detailed descripti...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...
AbstractAs discussed in the part I of this paper, 3D models represent a useful tool for a detailed d...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...
As discussed in the part I of this paper, 3D models represent a useful tool for a detailed descripti...
Increasing demands on higher performance and lower fuel consumption and emissions have led the path ...
The in-cylinder fluid motion of an internal combustion engine is a complex, turbulent flow that has ...