A novel approach to accurately represent the carrier gas thermo-chemical properties of droplets evaporating in combustion environment is proposed and validated in the context of reduced capprhes. Numerical analyses of two of the most employed droplet evaporation models in computational fluid dynamiapplications and their subsequent impact on combustion processes are also performed. The study comprehends a systematic investigation of both models and different procedures used to address the relevant thermo-chemical properties for the evaporation modeling. Initially, investigations are addressed in a single droplet framework. Herein, available experimental data give support to the corresponding discussions. In a second part, both selected model...
This article is devoted to computer simulation of the atomization, combustion, and evaporation proce...
Basic principles of the Discrete Component (DC) model and its application to biodiesel fuel droplets...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...
A novel approach to accurately represent the carrier gas thermo-chemical properties of droplets evap...
Two of the most employed droplet evaporation models in CFD (Computational Fluid Dynamics) applicatio...
Liquid fuels applied to spray combustion processes are predominantly composed by a mixture of compon...
The effects of ambient pressure, initial gas temperature and combustion reaction on the evaporation ...
A detailed analysis on the evaporation of acetic acid and ethylene glycol droplets is performed expe...
Some recently developed approaches to the hydrodynamic, kinetic and molecular dynamic modelling of m...
Spray combustion applications involve complex phenomena such as atomization, droplet vaporization, m...
This work assesses Lagrangian droplet evaporation models frequently used in spray combustion simulat...
The most recent developments in the modelling of heating and evaporation of fuel droplets, the resul...
Droplets evaporating in a combustion environment usually face a strong variation of the surrounding ...
© 2017 The Combustion Institute In various applications with recirculation, liquid droplets can be i...
This article is devoted to computer simulation of the atomization, combustion, and evaporation proce...
Basic principles of the Discrete Component (DC) model and its application to biodiesel fuel droplets...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...
A novel approach to accurately represent the carrier gas thermo-chemical properties of droplets evap...
Two of the most employed droplet evaporation models in CFD (Computational Fluid Dynamics) applicatio...
Liquid fuels applied to spray combustion processes are predominantly composed by a mixture of compon...
The effects of ambient pressure, initial gas temperature and combustion reaction on the evaporation ...
A detailed analysis on the evaporation of acetic acid and ethylene glycol droplets is performed expe...
Some recently developed approaches to the hydrodynamic, kinetic and molecular dynamic modelling of m...
Spray combustion applications involve complex phenomena such as atomization, droplet vaporization, m...
This work assesses Lagrangian droplet evaporation models frequently used in spray combustion simulat...
The most recent developments in the modelling of heating and evaporation of fuel droplets, the resul...
Droplets evaporating in a combustion environment usually face a strong variation of the surrounding ...
© 2017 The Combustion Institute In various applications with recirculation, liquid droplets can be i...
This article is devoted to computer simulation of the atomization, combustion, and evaporation proce...
Basic principles of the Discrete Component (DC) model and its application to biodiesel fuel droplets...
Recently developed approaches to the hydrodynamic, kinetic, and molecular dynamic modeling of fuel d...