The fuel spray in direct-injection Diesel engines has a structure that includes an intact liquid core which sheds drops from it. The drops then vaporize in the hot ambient and subsequently the vapor penetrates. In current models for such sprays, the intact liquid core is not well represented. Typically, drop dynamics that include collisions and coalescence and secondary breakup, and heat and mass transfer are modeled within the framework of a Lagrangian representation of the liquid phase and an Eulerian representation of the gas phase. Recently, serious limitations related to the numerical treatment of the drop dynamics which, in turn, affect the computed liquid penetration and vaporization rates have been found. In this work, these l...
International audienceIn internal combustion engines, the liquid fuel injection is an essential step...
The work produced discusses the analysis of gasoline atomization generated by different fuel injecto...
Simple analytical expressions for spray penetration were derived in two limiting cases, i.e., the in...
The fuel spray in direct-injection Diesel engines has a structure that includes an intact liquid cor...
Recent experimental results have shown that the penetration length of the liquid phase in a Diesel s...
There is limited quantitative experimental data on fuel vapor concentrations in high-pressure vapori...
International audienceIn direct-injection engines, the fuel spray characteristics influence the comb...
The results of modeling fluid dynamics, heat/mass transfer, and combustion processes in diesel engin...
A two-fluid model is employed to model vaporizing non-combusting sprays under high injection pressur...
The transient behaviour of the fuel spray from an air assisted fuel injector has been investigated b...
Validation of diesel spray behaviour is a necessity when simulating direct injected diesel combustio...
The multidimensional simulation methods available today for spray motion predictions solve the spray...
Diesel spray breakup and evaporation determine the characteristics of the fuel-air mixing for mixtur...
International audienceIn internal combustion engines, the liquid fuel injection is an essential step...
The work produced discusses the analysis of gasoline atomization generated by different fuel injecto...
Simple analytical expressions for spray penetration were derived in two limiting cases, i.e., the in...
The fuel spray in direct-injection Diesel engines has a structure that includes an intact liquid cor...
Recent experimental results have shown that the penetration length of the liquid phase in a Diesel s...
There is limited quantitative experimental data on fuel vapor concentrations in high-pressure vapori...
International audienceIn direct-injection engines, the fuel spray characteristics influence the comb...
The results of modeling fluid dynamics, heat/mass transfer, and combustion processes in diesel engin...
A two-fluid model is employed to model vaporizing non-combusting sprays under high injection pressur...
The transient behaviour of the fuel spray from an air assisted fuel injector has been investigated b...
Validation of diesel spray behaviour is a necessity when simulating direct injected diesel combustio...
The multidimensional simulation methods available today for spray motion predictions solve the spray...
Diesel spray breakup and evaporation determine the characteristics of the fuel-air mixing for mixtur...
International audienceIn internal combustion engines, the liquid fuel injection is an essential step...
The work produced discusses the analysis of gasoline atomization generated by different fuel injecto...
Simple analytical expressions for spray penetration were derived in two limiting cases, i.e., the in...