Engineering
Heat Pipe
100%
Applications
100%
High Temperature
100%
Evaporator
50%
Thickness
50%
Solar Collector
33%
Temperature
33%
Radius
33%
Analytical Model
33%
Heat Transfer Coefficient
16%
Heat Conduction
16%
Experimental Result
16%
Pressure Drop
16%
Enhancement
16%
Power Input
16%
Heat Input
16%
Liquid Flow
16%
Good Agreement
16%
Thermal Performance
16%
Two Dimensional
16%
Maximum Pressure
16%
Hydrodynamics
16%
Determines
16%
Pipe Diameter
16%
Mathematical Model
16%
Physics
Media
100%
High Temperature
100%
Utilization
100%
Heat Pipe
100%
Heat Transfer
66%
Vapor
33%
Temperature
33%
Solar Collector
33%
Porosity
33%
Model
33%
Conductive Heat Transfer
16%
Heat
16%
Hydrodynamics
16%
Performance
16%
Diameters
16%
Liquid Flow
16%
Coefficients
16%
Pressure
16%
Steady State
16%