Chemistry
Heat Storage
100%
Supercooling
100%
Sodium Acetate Trihydrate
100%
Composite Material
39%
Heat
39%
Solidification
34%
Rate
26%
Phase Change
26%
Flow
21%
Crystalline Material
21%
Porosity
17%
Water Type
17%
Time
17%
Debye Temperature
13%
Storage
13%
Reaction Temperature
13%
Particle Size
13%
Plate Like Crystal
13%
Energy Storage
8%
Short Circuit
8%
Crystal Growth
8%
Liquid
8%
Needle Like Crystal
8%
Energy
8%
Solid
8%
Carbon Dioxide Emission
8%
Phase Separation
4%
Melting Point
4%
Application
4%
Density
4%
Polymer
4%
Ambient Reaction Temperature
4%
Carbon
4%
Viscosity
4%
Flexibility
4%
Physics
Supercooling
100%
Heat Storage
100%
Sodium
100%
Composite
39%
Solidification
34%
Specific Heat
26%
Growth
21%
Heat
21%
Crystals
21%
Latent Heat
17%
Water
17%
Utilization
13%
Stability
13%
Short Circuit
8%
Defects
8%
Renewable Energy
8%
Energy Storage
8%
Crystal Growth
8%
Temperature
8%
Liquids
8%
Solid State
8%
Frequencies
8%
Diameters
8%
Growth Rate
8%
Needles
8%
Viscosity
4%
Flow Distribution
4%
Porosity
4%
Room Temperature
4%
Temperature Distribution
4%
Melting Point
4%
Flow Characteristics
4%
Media
4%
Model
4%
Cycles
4%
Performance
4%
Responses
4%
Flexibility
4%
Computational Fluid Dynamics
4%
Gaps
4%
Plane
4%
Openings
4%
Engineering
Sodium
100%
Storage
100%
Composite
39%
Solidification
26%
Latent Heat
17%
Sensible Heat
13%
Charging Time
13%
Growth Mode
13%
Specific Heat Capacity
13%
Porous Plate
13%
Research
13%
Computational Fluid Dynamics
8%
Term Stability
8%
Success Rate
8%
Solidification Rate
8%
Characteristics
8%
Defects
8%
Experiments
8%
Short Circuit
8%
Crystal Growth Rate
8%
Full Scale
4%
Renewable Energy
4%
Porosity
4%
Heat Demand
4%
Room Temperature
4%
Dynamic Model
4%
Thermal Performance
4%
Experimental Investigation
4%
Hot Water
4%
Hot Water Tank
4%
Flow Distribution
4%
Thermal Cycle
4%
Melting Point
4%
Flow Characteristic
4%
Phase Separation
4%
Energy Storage System
4%
Storage Medium
4%
Extra Water
4%
Liquid Polymer
4%
Charging Temperature
4%
Energy Storage Density
4%
Applications
4%
Design
4%
Water
4%
Stability
4%
Temperature
4%
Radius
4%
Temperature Distribution
4%
Renewable Energy System
4%
Lower Viscosity
4%
Large Diameter
4%
Material Science
Sodium
100%
Composite Material
39%
Solidification
34%
Crystal
21%
Temperature
17%
Growth Rate
8%
Phase Change Material
8%
Electronic Circuit
8%
Solid
8%
Defect
8%
Liquid
8%
Decoupling
8%
Crystal Growth
8%
Polymer
4%
Void Fraction
4%
Density
4%
Viscosity
4%
Chemical Engineering
Sodium
100%
Undercooling
100%
Specific Heat
17%
Water
17%
Latent Heat
17%
Temperature
13%
Polymer
4%
Phase Separation
4%
Carbon
4%
Temperature Distribution
4%
Carbon Dioxide
4%