Engineering
Liquid Phase
100%
Gas-Phase
100%
Gas Temperature
100%
Transients
100%
Diffusivity
100%
Numerical Solution
50%
Thermal Radiation
50%
Diesel Engine
50%
Thermal Conductivity
50%
Heat Conduction Equation
50%
Hot Gas
50%
Initial Stage
50%
Phase Model
50%
Internal Combustion Engine
50%
Computational Fluid Dynamics
50%
Comparative Analysis
50%
Liquid Droplet
50%
Convection Heat Transfer Coefficient
50%
Hydrodynamics
50%
Predicted Result
50%
Kinetic Model
50%
Coupled Solution
50%
Stochastic Model
50%
Hydrodynamic Model
50%
Simplified Analysis
50%
Keyphrases
Droplet Heating
100%
Gas Phase
50%
Gas Temperature
50%
Diesel
50%
Kinetic Approach
50%
Droplet Breakup
25%
Thermal Conductivity
25%
Recirculation
25%
Heat Conduction Equation
25%
Convection
25%
Hot Gas
25%
Convective Heat Transfer Coefficient
25%
Thermal Radiation
25%
Radiation Absorption
25%
Diesel Engine
25%
Droplet Evaporation
25%
Simplified Model
25%
Diesel Spray
25%
Internal Combustion Engine
25%
Liquid Fuel
25%
Law
25%
Computational Fluid Dynamics
25%
Evaporation Process
25%
Liquid Phase
25%
Dynamic Code
25%
Surface Temperature
25%
Comparative Analysis
25%
Kinetic Model
25%
Time Dependence
25%
Liquid Droplet
25%
Kinetic Effects
25%
Manifold Method
25%
Integral Manifold
25%
Steady State
25%
High-speed Image
25%
Coupled Solution
25%
Liquid Phase Model
25%
Decomposition Method
25%
Hydrodynamic Model
25%
Transient Effect
25%
Simplified Analysis
25%
Convection Heat
25%
ODE System
25%
Gas Diffusivity
25%
Heat Transfer Coefficient
25%
Gas Convection
25%
Parameter Values
25%
Stochastic Model
25%
Direct numerical Solution
25%
Liquid Diffusivity
25%
Droplet Temperature
25%
Hydrodynamic Approach
25%
Chemical Engineering
Heat Convection
100%
Diffusion
100%
Heat Transfer Coefficient
50%
Thermal Conductivity
50%
Heat Conduction
50%
Chemical Kinetics Characteristics
50%