In the present paper, 1D and 3D CFD models of the Darmstadt research engine undergo a preliminary validation against the available experimental dataset at motored condition. The Darmstadt engine is a single-cylinder optical research unit and the chosen operating point is characterized by a revving speed equal to 800 rpm with intake temperature and pressure of 24 °C and 0.95 bar, respectively. Experimental data are available from the TU Darmstadt engine research group. Several aspects of the engine are analyzed, such as crevice modeling, blow-by, heat transfer and compression ratio, with the aim to minimize numerical uncertainties. On the one hand, a GT-Power model of the engine is used to investigate the impact of blow-by and crevices model...
High power-density Diesel engines are characterized by remarkable thermo-mechanical loads. Therefore...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...
In the present paper, 1D and 3D CFD models of the Darmstadt research engine undergo a preliminary va...
In this paper we describe both CFD (at CSU) and experimental (at UMN) activities related to Stirling...
The relationship between the 1D simulation and the corresponding input parameters is addressed in th...
The paper reports a wide numerical analysis of the well-known "Darmstadt engine"operated under motor...
The evaluation of Internal Combustion Engine (ICE) flows by 3D-CFD strongly depends on a combination...
AbstractNowadays internal combustion engines development is widely supported by 1D and 3D codes. On ...
In this simulation study, the flow and thermal characteristics of a novel rotary-piston engine, whic...
We investigate the coupling between 3D simulations of the flow in an engine manifold with simplified...
In this work an integration between a 1D code (Gasdyn) with a CFD code (OpenFOAM®) has been applied ...
Internal combustion engines (ICEs) are an essential and common power source for personal mobility an...
In this work, a heavy-duty diesel engine was studied by employing CFD simulations on a closed volume...
An alpha-Stirling configuration was modelled using a Computational Fluid Dynamic (CFD), using ANSY...
High power-density Diesel engines are characterized by remarkable thermo-mechanical loads. Therefore...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...
In the present paper, 1D and 3D CFD models of the Darmstadt research engine undergo a preliminary va...
In this paper we describe both CFD (at CSU) and experimental (at UMN) activities related to Stirling...
The relationship between the 1D simulation and the corresponding input parameters is addressed in th...
The paper reports a wide numerical analysis of the well-known "Darmstadt engine"operated under motor...
The evaluation of Internal Combustion Engine (ICE) flows by 3D-CFD strongly depends on a combination...
AbstractNowadays internal combustion engines development is widely supported by 1D and 3D codes. On ...
In this simulation study, the flow and thermal characteristics of a novel rotary-piston engine, whic...
We investigate the coupling between 3D simulations of the flow in an engine manifold with simplified...
In this work an integration between a 1D code (Gasdyn) with a CFD code (OpenFOAM®) has been applied ...
Internal combustion engines (ICEs) are an essential and common power source for personal mobility an...
In this work, a heavy-duty diesel engine was studied by employing CFD simulations on a closed volume...
An alpha-Stirling configuration was modelled using a Computational Fluid Dynamic (CFD), using ANSY...
High power-density Diesel engines are characterized by remarkable thermo-mechanical loads. Therefore...
CFD and FE tools are intensively adopted by engine manufacturers in order to prevent thermo-mechanic...
It is widely recognized that spatial and temporal evolution of both macro-and micro-turbulent scales...