Keyphrases
Phase Change Material
100%
Heat Transfer
60%
Close-contact Melting
39%
Natural Convection
31%
Heat Sink
28%
Numerical Simulation
23%
Numerical Investigation
18%
Melt Fraction
17%
Solid Phase
16%
Flow Transferring
16%
Numerical Model
15%
Pin-fin Heat Sink
15%
Flow Field
15%
Paraffin
14%
Temperature Measurement
14%
Convection
14%
Heat Transfer Enhancement
14%
Free Convection
14%
Nusselt number
14%
Melting Process
13%
Temperature Field
13%
Temperature Distribution
13%
Wavy Wall
13%
Heat Transfer Rate
12%
Real Size
12%
Material-based
12%
Finning
12%
Flow Pattern
12%
Reynolds number
12%
Enthalpy Method
11%
Paraffin Wax
11%
Dimensional Analysis
11%
Ventilation
11%
Numerical Results
11%
Thermal Management
11%
Melting Temperature
10%
Turbulence Model
10%
Fin Height
10%
Turbulent Flow
10%
Temperature Difference
10%
Heat Flux
10%
Mixed Convection
9%
Solid-liquid Phase Change
9%
Liquid Phase
9%
Airflow
9%
Particle Resuspension
9%
Cylindrical Enclosure
9%
Heated Surface
9%
Latent Heat Storage System
9%
Stefan number
9%
Engineering
Phase Change Material
99%
Computer Simulation
41%
Close-Contact Melting
40%
Natural Convection
37%
Transients
36%
Experimental Result
32%
Numerical Study
21%
Thermal Energy Storage
20%
Duct
19%
Temperature Field
19%
Numerical Model
18%
Flow Field
17%
Temperature Distribution
17%
Resuspension
15%
Melting Process
15%
Heat Flux
14%
Experimental Investigation
13%
Nusselt Number
13%
Computational Fluid Dynamics
12%
Turbulent Flow
12%
Solid Bulk
12%
Heat Transfer Rate
12%
Latent Heat
12%
Heat Transfer Coefficient
11%
Storage Unit
11%
Enthalpy Method
11%
Heat Transfer Enhancement
11%
Melting Temperature
10%
Reynolds' Number
10%
Thermocouple
10%
Fluid Flow
10%
Liquid Phase
10%
Heated Surface
10%
Heated Wall
10%
Dimensional Analysis
9%
Velocity Field
9%
Good Agreement
9%
Latent Heat Thermal Energy Storage
9%
Cross Section
9%
Numerical Modeling
9%
Nuclear Reactor
9%
Liquid Phase Change
9%
Fin Height
9%
Flow Visualization
9%
Air Flow
8%
Micro-Jet
8%
Thermal Energy Storage System
8%
Flow Rate
8%
Analytical Model
8%
Isothermal
8%