In the present study, the impact of the laminar flame speed correlation on the prediction of the combustion process and performance of a gasoline engine is investigated using a 1D numerical approach. The model predictions are compared with experimental data available for full- and part-load operations of a small-size naturally aspirated Spark-Ignition (SI) engine, equipped with an external EGR circuit. A 1D model of the whole engine is developed in the GT-Power™ environment and is integrated with refined sub-models of the in-cylinder processes. In particular, the combustion is modelled using the fractal approach, where the burning rate is directly related to the laminar flame speed. In this work, three laminar flame speed correlations are a...
The use of biomass-derived ethanol in spark-ignitionengines is an interesting option to decarbonize ...
Nowadays, most of the engineering development in the field of Spark-Ignited (SI) Internal Combustion...
CFD techniques are more and more utilized in the development of new solutions for performance improv...
This work focuses on the effects of the laminar flame speed (LFS) and flame stretch on the phenomeno...
The goal of this research is to develop a thermodynamic simulation of spark-ignition engine combusti...
The detailed study of part-load conditions is essential to characterize engine-out emissions in key ...
The laminar burning speed is an important intrinsic property of an air-fuel mixture determining key ...
CFD simulations of reacting flows are fundamental investigation tools used to predict combustion beh...
The stringent regulations on the reduction of both pollutant emissions and dependence from crude oil...
Flame velocity is the main parameter for determination of combustion propagation in a spark-ignition...
The current work provides a quasi-dimensional model for the combustion of methanol–gasoline blends. ...
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 ...
Nowadays, most of the engineering development in the field of Spark-Ignited (SI) Internal Combustion...
CFD techniques are more and more utilized in the development of new solutions for performance improv...
This work focuses on the effects of the laminar flame speed (LFS) and flame stretch on the phenomeno...
The goal of this research is to develop a thermodynamic simulation of spark-ignition engine combusti...
The detailed study of part-load conditions is essential to characterize engine-out emissions in key ...
The laminar burning speed is an important intrinsic property of an air-fuel mixture determining key ...
CFD simulations of reacting flows are fundamental investigation tools used to predict combustion beh...
The stringent regulations on the reduction of both pollutant emissions and dependence from crude oil...
Flame velocity is the main parameter for determination of combustion propagation in a spark-ignition...
The current work provides a quasi-dimensional model for the combustion of methanol–gasoline blends. ...
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 ...
Nowadays, most of the engineering development in the field of Spark-Ignited (SI) Internal Combustion...
CFD techniques are more and more utilized in the development of new solutions for performance improv...