It is necessary to analyze the intake/exhaust gas flow of a diesel engine when turbocharger matching and when installing emission control devices such as exhaust gas recirculation (EGR), selective catalytic reduction (SCR), and scrubbers. Analyzing the intake/exhaust gas flow using a 3D approach can use various analytical models, but it requires a significant amount of time to perform the computation. An approach that combines 1D and 3D is a fast numerical analysis method that can utilize the analysis models of the 3D approach and obtain accurate calculation results. In this study, the flow characteristics of the exhaust gas were analyzed using a 1D–3D coupling algorithm to analyze the unsteady gas flow of a diesel engine, and whether the 1...
The dual-fuel diesel/natural gas (NG) concept is based on the introduction of a homogeneous charge o...
The purpose of this paper is to compare defferent methodologies of CFD analysis, applied to the inta...
Techniques that can increase the SI- engine efficiency while keeping the emissions very low is to re...
Emission control devices such as selective catalytic reduction (SCR), exhaust gas recirculation (EGR...
This paper describes a detailed analysis of the unsteady flows in the intake and exhaust systems of ...
In order to comply with stringent pollutant emissions regulations a detailed analysis of the overall...
In order to comply with stringent pollutant emissions regulations a detailed analysis of the overall...
Exhaust Gas Recirculation (EGR) is one of several technologies that are being investigated to delive...
The dual-fuel diesel/natural gas (NG) concept is based on the introduction of a homogeneous charge o...
Around a third of the energy input in an automotive engine is wasted through the exhaust system. Sin...
Energy carried by engine exhaust pulses is critical to the performance of a turbine or any other exh...
Introduction− The airflow analysis for internal combustion engines (ICE) remains challenging for res...
Exhaust gas recirculation (EGR) is a nitrogen oxide (NOx) emissions reduction technique used in petr...
The dual-fuel diesel/natural gas (NG) concept is based on the introduction of a homogeneous charge o...
The purpose of this paper is to compare defferent methodologies of CFD analysis, applied to the inta...
Techniques that can increase the SI- engine efficiency while keeping the emissions very low is to re...
Emission control devices such as selective catalytic reduction (SCR), exhaust gas recirculation (EGR...
This paper describes a detailed analysis of the unsteady flows in the intake and exhaust systems of ...
In order to comply with stringent pollutant emissions regulations a detailed analysis of the overall...
In order to comply with stringent pollutant emissions regulations a detailed analysis of the overall...
Exhaust Gas Recirculation (EGR) is one of several technologies that are being investigated to delive...
The dual-fuel diesel/natural gas (NG) concept is based on the introduction of a homogeneous charge o...
Around a third of the energy input in an automotive engine is wasted through the exhaust system. Sin...
Energy carried by engine exhaust pulses is critical to the performance of a turbine or any other exh...
Introduction− The airflow analysis for internal combustion engines (ICE) remains challenging for res...
Exhaust gas recirculation (EGR) is a nitrogen oxide (NOx) emissions reduction technique used in petr...
The dual-fuel diesel/natural gas (NG) concept is based on the introduction of a homogeneous charge o...
The purpose of this paper is to compare defferent methodologies of CFD analysis, applied to the inta...
Techniques that can increase the SI- engine efficiency while keeping the emissions very low is to re...