ABSTRACT A detailed chemistry-based CFD model was developed to simulate the diesel spray combustion and emission process. A reaction mechanism of n-heptane is coupled with a reduced NOx mechanism to simulate diesel fuel oxidation and NOx formation. The soot emission process is simulated by a phenomenological soot model that uses a competing formation and oxidation rate formulation. The model is applied to predict the diesel spray lift-off length and its sooting tendency under high temperature and pressure conditions with good agreement with experiments of Sandia. Various nozzle diameters and chamber conditions were investigated. The model successfully predicts that the sooting tendency is reduced as the nozzle diameter is reduced and/or the...
The aim of this study was to determine possibilities of the soot and NOx emissions reduction from an...
Combustion control and optimization is of great importance to meet future emission standards in dies...
Nowadays, automotive industries focused on clean diesel combustion in their combustion processes are...
A complex chemistry model of reduced size (65 species and 268 reactions) derived on the basis of n-h...
Diesel spray combustion is prone to lead to high soot and nitrogen oxides (NOx) emissions. Regulatio...
In this work, a two-dimensional computational fluid dynamics study is reported of an n-heptane combu...
A complex chemistry model of reduced size (65 species and 268 reactions) derived on the basis of n-h...
Diesel engine pollutant emissions legislation is becoming more and more stringent. New driving cycle...
Abstract: Particulate emission is one of the most deleterious pollutants generated by Diesel fuel co...
In this paper, computation fluid dynamics (CFD) simulations are employed to describe the effect of f...
International audienceA detailed chemical model describing the formation of soot and NO is applied t...
An improved phenomenological soot model coupled with a reduced n-heptane chemical mechanism was impl...
Particular matter (PM) has been greatly concerned over the recent decades due to the constantly incr...
This thesis describes the development of a thermodynamic phenomenological diesel engine heat-release...
In the present study, an improved multidimensional numerical code has been used to simulate the comb...
The aim of this study was to determine possibilities of the soot and NOx emissions reduction from an...
Combustion control and optimization is of great importance to meet future emission standards in dies...
Nowadays, automotive industries focused on clean diesel combustion in their combustion processes are...
A complex chemistry model of reduced size (65 species and 268 reactions) derived on the basis of n-h...
Diesel spray combustion is prone to lead to high soot and nitrogen oxides (NOx) emissions. Regulatio...
In this work, a two-dimensional computational fluid dynamics study is reported of an n-heptane combu...
A complex chemistry model of reduced size (65 species and 268 reactions) derived on the basis of n-h...
Diesel engine pollutant emissions legislation is becoming more and more stringent. New driving cycle...
Abstract: Particulate emission is one of the most deleterious pollutants generated by Diesel fuel co...
In this paper, computation fluid dynamics (CFD) simulations are employed to describe the effect of f...
International audienceA detailed chemical model describing the formation of soot and NO is applied t...
An improved phenomenological soot model coupled with a reduced n-heptane chemical mechanism was impl...
Particular matter (PM) has been greatly concerned over the recent decades due to the constantly incr...
This thesis describes the development of a thermodynamic phenomenological diesel engine heat-release...
In the present study, an improved multidimensional numerical code has been used to simulate the comb...
The aim of this study was to determine possibilities of the soot and NOx emissions reduction from an...
Combustion control and optimization is of great importance to meet future emission standards in dies...
Nowadays, automotive industries focused on clean diesel combustion in their combustion processes are...