Keyphrases
Breakup Regime
100%
Breakup Mechanism
100%
Capillary Channel
100%
Circular Capillaries
100%
Taylor Bubble
100%
Vapor Bubble
33%
Mini
33%
Heat Flux
33%
Parametric numerical Simulation
33%
Dimensionless numbers
33%
Motivation
16%
Surface Tension
16%
Well-defined
16%
Liquid Droplet
16%
Numerical Simulation
16%
Control Parameters
16%
Numerical Investigation
16%
Entrainment
16%
Liquid-vapor Interface
16%
Volume-of-fluid Model
16%
Pulsating Heat pipe
16%
Breakup Phenomena
16%
Breakup Characteristics
16%
Trailing Edge
16%
Pressure Difference
16%
Interface Dynamics
16%
Liquid Film Thickness
16%
Modified Froude number
16%
Flow Map
16%
Flow Acceleration
16%
Fr number
16%
Zero Gravity
16%
Pipe Experiment
16%
We number
16%
Engineering
Computer Simulation
100%
Dimensionless Number
66%
Heat Flux
66%
Liquid Droplet
33%
Experimental Observation
33%
Simulation Result
33%
Heat Pipes
33%
Fluid Model
33%
Pressure Difference
33%
Froude Number
33%
Trailing Edge
33%
Liquid Film Thickness
33%
Earth and Planetary Sciences
Dimensionless Number
100%
Heat Flux
100%
Heat Pipes
50%
Froude Number
50%
Trailing Edge
50%
Film Thickness
50%
Liquid-Vapor Interface
50%