Add to ORKGAn intuitive delineation along with dimensional considerations and experimental evidences are presented to show that in a general case, the evaporation of a liquid droplet undergoes three regimes through the process. Initially, the heat transfer inside the evaporating droplets is conduction controlled; then, in the second stage, convective heat transfer may take over; finally, the convections subside, and the process returns to conduction controlled mode
grantor: University of TorontoThe results of recent experiments indicate that a temperatur...
Two approaches to modelling the heating of evaporating droplets have beenwidely used in engineering ...
Classical approaches to modelling the processes during droplet heating and evaporation are summarise...
International audienceWhile the involved physical phenomena are nowadays properly understood, sessil...
International audienceWhile the involved physical phenomena are nowadays properly understood, sessil...
In this study, a computational model for the evaporation from a sessile liquid droplet fed from the ...
Droplet evaporation is a fundamental phenomenon encountered in diverse applications such as inkjet p...
Droplet evaporation is a fundamental phenomenon encountered in diverse applications such as inkjet p...
A mathematical model for the quasi-steady diffusion-limited evaporation of a thin axisymmetric sessi...
This paper examines the mechanics of evaporation of liquid droplets in direct contact with heated su...
New advanced and simple two-dimensional (2D) models of sessile droplet heating and cooling and evapo...
A mathematical model for the quasi-steady diusion-limited evaporation of a thin axisymmetric sessile...
A new model for mono-component droplet heating/evaporation is developed, tested, and applied to the ...
A theoretical framework is established to model the evaporation from continuously fed droplets, prom...
The evaporation of sessile droplets is not only a common occurrence in daily life, but it also plays...
grantor: University of TorontoThe results of recent experiments indicate that a temperatur...
Two approaches to modelling the heating of evaporating droplets have beenwidely used in engineering ...
Classical approaches to modelling the processes during droplet heating and evaporation are summarise...
International audienceWhile the involved physical phenomena are nowadays properly understood, sessil...
International audienceWhile the involved physical phenomena are nowadays properly understood, sessil...
In this study, a computational model for the evaporation from a sessile liquid droplet fed from the ...
Droplet evaporation is a fundamental phenomenon encountered in diverse applications such as inkjet p...
Droplet evaporation is a fundamental phenomenon encountered in diverse applications such as inkjet p...
A mathematical model for the quasi-steady diffusion-limited evaporation of a thin axisymmetric sessi...
This paper examines the mechanics of evaporation of liquid droplets in direct contact with heated su...
New advanced and simple two-dimensional (2D) models of sessile droplet heating and cooling and evapo...
A mathematical model for the quasi-steady diusion-limited evaporation of a thin axisymmetric sessile...
A new model for mono-component droplet heating/evaporation is developed, tested, and applied to the ...
A theoretical framework is established to model the evaporation from continuously fed droplets, prom...
The evaporation of sessile droplets is not only a common occurrence in daily life, but it also plays...
grantor: University of TorontoThe results of recent experiments indicate that a temperatur...
Two approaches to modelling the heating of evaporating droplets have beenwidely used in engineering ...
Classical approaches to modelling the processes during droplet heating and evaporation are summarise...