The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio Emilia is developing a new type of small capacity HSDI 2-Stroke Diesel engine, featuring a specifically designed combustion system. The present paper is focused on the analysis of the scavenging process, carried out by means of 3D-CFD simulations, supported by 1D engine cycle calculations.First, a characterization of the flow through the ports and within the cylinder is performed under conventional operating conditions. Then, a complete 3D cycle simulation, including combustion, is carried out at four actual operating conditions, at full load.The CFD results provide fundamental information to address the development of the scavenging system, as...
The paper presents a 1D-3D numerical model to simulate the scavenging and combustion processes in a ...
The scavenging process of two-stroke engines plays a fundamental role in cylinder flow patterns and ...
The paper describes preliminary results of a research activity finalized to the development of a new...
The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio Em...
The paper describes a CFD multidimensional and multi-cycle engine analysis applied to a novel 2-Stro...
The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio Em...
In recent years, interest has been growing in the 2-Stroke Diesel cycle, coupled to high speed engin...
In recent years, interest has been growing in the 2-Stroke Diesel cycle, coupled to high speed engin...
In recent years, interest has been growing in the 2-Stroke Diesel cycle, coupled to high speed engin...
The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio is...
The paper reviews the virtual design process of an automotive HSDI 2-Stroke Diesel engine, developed...
This work reports a CFD study on a 2-stroke (2-S) opposed piston high speed direct injection (HSDI) ...
Abstract1d and 3d CFD simulation is a standard engineering practice on 4-stroke engines. However, th...
The paper presents a 1D-3D numerical model to simulate the scavenging and combustion processes in a ...
The scavenging process of two-stroke engines plays a fundamental role in cylinder flow patterns and ...
The paper describes preliminary results of a research activity finalized to the development of a new...
The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio Em...
The paper describes a CFD multidimensional and multi-cycle engine analysis applied to a novel 2-Stro...
The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio Em...
In recent years, interest has been growing in the 2-Stroke Diesel cycle, coupled to high speed engin...
In recent years, interest has been growing in the 2-Stroke Diesel cycle, coupled to high speed engin...
In recent years, interest has been growing in the 2-Stroke Diesel cycle, coupled to high speed engin...
The Department of Mechanical and Civil Engineering (DIMeC) of the University of Modena and Reggio is...
The paper reviews the virtual design process of an automotive HSDI 2-Stroke Diesel engine, developed...
This work reports a CFD study on a 2-stroke (2-S) opposed piston high speed direct injection (HSDI) ...
Abstract1d and 3d CFD simulation is a standard engineering practice on 4-stroke engines. However, th...
The paper presents a 1D-3D numerical model to simulate the scavenging and combustion processes in a ...
The scavenging process of two-stroke engines plays a fundamental role in cylinder flow patterns and ...
The paper describes preliminary results of a research activity finalized to the development of a new...