This work focuses on the effects of the laminar flame speed (LFS) and flame stretch on the phenomenological modeling of the combustion process in spark ignition engines. The study is carried out using a 1D model of a small-size naturally aspirated SI engine, equipped with an external EGR circuit. The model, developed in GT-Power™ environment, includes advanced sub-models of the in-cylinder processes. The combustion is modeled using a fractal approach, where the burning rate is directly related to the laminar flame speed. A novel LFS correlation based on 1D chemical kinetics computations is presented and assessed with the experimentally derived Metghalchi and Keck correlation. Moreover, the effects of the flame stretch, evaluated according t...
This PhD dissertation develops a turbulent burning velocity model based on flame stretch concept and...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
Objective of this work is the incorporation of the flame stretch effects in an Eulerian-Lagrangian m...
This work focuses on the effects of the laminar flame speed (LFS) and flame stretch on the phenomeno...
In the present study, the impact of the laminar flame speed correlation on the prediction of the com...
The laminar burning speed is an important intrinsic property of an air-fuel mixture determining key ...
The detailed study of part-load conditions is essential to characterize engine-out emissions in key ...
This is an MSc report to develop a turbulent combustion model and couple it with engine simulation s...
CFD simulations of reacting flows are fundamental investigation tools used to predict combustion beh...
The goal of this research is to develop a thermodynamic simulation of spark-ignition engine combusti...
Flame velocity is the main parameter for determination of combustion propagation in a spark-ignition...
A flame front is quenched when approaching a cold wall due to excessive heat loss. Accurate computat...
The use of biomass-derived ethanol in spark-ignitionengines is an interesting option to decarbonize ...
The stringent regulations on the reduction of both pollutant emissions and dependence from crude oil...
This PhD dissertation develops a turbulent burning velocity model based on flame stretch concept and...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
Objective of this work is the incorporation of the flame stretch effects in an Eulerian-Lagrangian m...
This work focuses on the effects of the laminar flame speed (LFS) and flame stretch on the phenomeno...
In the present study, the impact of the laminar flame speed correlation on the prediction of the com...
The laminar burning speed is an important intrinsic property of an air-fuel mixture determining key ...
The detailed study of part-load conditions is essential to characterize engine-out emissions in key ...
This is an MSc report to develop a turbulent combustion model and couple it with engine simulation s...
CFD simulations of reacting flows are fundamental investigation tools used to predict combustion beh...
The goal of this research is to develop a thermodynamic simulation of spark-ignition engine combusti...
Flame velocity is the main parameter for determination of combustion propagation in a spark-ignition...
A flame front is quenched when approaching a cold wall due to excessive heat loss. Accurate computat...
The use of biomass-derived ethanol in spark-ignitionengines is an interesting option to decarbonize ...
The stringent regulations on the reduction of both pollutant emissions and dependence from crude oil...
This PhD dissertation develops a turbulent burning velocity model based on flame stretch concept and...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
Objective of this work is the incorporation of the flame stretch effects in an Eulerian-Lagrangian m...