Add to ORKGThe main objective of this investigation is to develop a two-equation turbulence model for dilute vaporizing sprays or in general for dispersed two-phase flows including the effects of phase changes. The model that accounts for the interaction between the two phases is based on rigorously derived equations for turbulence kinetic energy (K) and its dissipation rate epsilon of the carrier phase using the momentum equation of that phase. Closure is achieved by modeling the turbulent correlations, up to third order, in the equations of the mean motion, concentration of the vapor in the carrier phase, and the kinetic energy of turbulence and its dissipation rate for the carrier phase. The governing equations are presented in both the exact and t...
The current investigation aims to present the numerical results of a turbulent spray jet flame in th...
Combustion of liquid fuels in the form of spray droplets is simulated numerically. Various vaporizat...
Combustion still represents about 90% of the energy production in the world. Most industrial burners...
The structure of particle-laden jets and nonevaporating and evaporating sprays was measured in order...
The evaporation of dispersed, liquid droplets in jet-sprays occurs in several industrial application...
The turbulent dispersion of non-evaporating droplets in an axisymmetric round jet issuing from a noz...
The turbulent dispersion of non-evaporating droplets in an axisymmetric round jet issuing from a noz...
The turbulent dispersion of non-evaporating droplets in an axisymmetric round jet issuing from a noz...
The effect of liquid droplets generated from air-assisted atomization on gas flow characteristics wa...
The effect of liquid droplets generated from air-assisted atomization on gas flow characteristics wa...
The work focuses on the interactions of the two phases (liquid and gas) in droplet flows. Most studi...
The evaporation and condensation process of liquid droplets, advected by a turbu- lent flow is found...
A transported joint probability density function (PDF) model for turbulent spray flows is presented,...
The effects of swirl and vaporization on droplet dispersion are investigated in the near region of a...
This article discusses the importance of using different turbulence modulation models in simulation ...
The current investigation aims to present the numerical results of a turbulent spray jet flame in th...
Combustion of liquid fuels in the form of spray droplets is simulated numerically. Various vaporizat...
Combustion still represents about 90% of the energy production in the world. Most industrial burners...
The structure of particle-laden jets and nonevaporating and evaporating sprays was measured in order...
The evaporation of dispersed, liquid droplets in jet-sprays occurs in several industrial application...
The turbulent dispersion of non-evaporating droplets in an axisymmetric round jet issuing from a noz...
The turbulent dispersion of non-evaporating droplets in an axisymmetric round jet issuing from a noz...
The turbulent dispersion of non-evaporating droplets in an axisymmetric round jet issuing from a noz...
The effect of liquid droplets generated from air-assisted atomization on gas flow characteristics wa...
The effect of liquid droplets generated from air-assisted atomization on gas flow characteristics wa...
The work focuses on the interactions of the two phases (liquid and gas) in droplet flows. Most studi...
The evaporation and condensation process of liquid droplets, advected by a turbu- lent flow is found...
A transported joint probability density function (PDF) model for turbulent spray flows is presented,...
The effects of swirl and vaporization on droplet dispersion are investigated in the near region of a...
This article discusses the importance of using different turbulence modulation models in simulation ...
The current investigation aims to present the numerical results of a turbulent spray jet flame in th...
Combustion of liquid fuels in the form of spray droplets is simulated numerically. Various vaporizat...
Combustion still represents about 90% of the energy production in the world. Most industrial burners...