Results of recent studies of the effect of the temperature gradient inside fuel droplets on droplet evaporation, break-up and the ignition of fuel vapour/air mixture are reviewed. This is investigated by comparing the 'effective thermal conductivity' and the 'infinite thermal conductivity' models, both of which have been implemented into a zero-dimensional code. The predictions of the code are validated against available experimental data. It is pointed out that in the absence of break-up, the influence of the temperature gradient inside droplets on droplet evaporation under realistic diesel engine conditions is generally small (a few percent). In the presence of the break-up process, however, the temperature gradient inside the droplets ca...
Prediction of spray droplet temperature is routinely performed within automotive engineering CFD sim...
Simple approximate formulae describing temporal evolution of diesel fuel droplet radii and temperatu...
The previously developed kinetic model for droplet heating and evaporation into a high pressure air ...
The effect of the temperature gradient inside fuel droplets on droplet evaporation, break-up and the...
Liquid and gas phase models for fuel droplet heating and evaporation, suitable for implementation in...
New approaches to numerical modelling of droplet heating and evaporation by convection and radiation...
Several new approaches to the modelling of liquid droplet heating and evaporation by convection and ...
A review of liquid and gas phase models for fuel droplet heating and evaporation, suitable for imple...
The results of modeling fluid dynamics, heat/mass transfer, and combustion processes in diesel engin...
Two new solutions to the heat conduction equation, describing transient heating of an evaporating dr...
Several approaches to numerical modelling of liquid droplet heating and evaporation by convection an...
Several approaches to numerical modelling of liquid droplet heating and evaporation by convection an...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...
Two new solutions to the heat conduction equation, describing transient heating of an evaporating dr...
Basic principles of the Discrete Component (DC) model and its application to biodiesel fuel droplets...
Prediction of spray droplet temperature is routinely performed within automotive engineering CFD sim...
Simple approximate formulae describing temporal evolution of diesel fuel droplet radii and temperatu...
The previously developed kinetic model for droplet heating and evaporation into a high pressure air ...
The effect of the temperature gradient inside fuel droplets on droplet evaporation, break-up and the...
Liquid and gas phase models for fuel droplet heating and evaporation, suitable for implementation in...
New approaches to numerical modelling of droplet heating and evaporation by convection and radiation...
Several new approaches to the modelling of liquid droplet heating and evaporation by convection and ...
A review of liquid and gas phase models for fuel droplet heating and evaporation, suitable for imple...
The results of modeling fluid dynamics, heat/mass transfer, and combustion processes in diesel engin...
Two new solutions to the heat conduction equation, describing transient heating of an evaporating dr...
Several approaches to numerical modelling of liquid droplet heating and evaporation by convection an...
Several approaches to numerical modelling of liquid droplet heating and evaporation by convection an...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...
Two new solutions to the heat conduction equation, describing transient heating of an evaporating dr...
Basic principles of the Discrete Component (DC) model and its application to biodiesel fuel droplets...
Prediction of spray droplet temperature is routinely performed within automotive engineering CFD sim...
Simple approximate formulae describing temporal evolution of diesel fuel droplet radii and temperatu...
The previously developed kinetic model for droplet heating and evaporation into a high pressure air ...