Engineering
Phase Change Material
100%
Thermal Energy Storage
100%
Material Sample
100%
Phase Change Temperature
100%
Latent Heat
66%
Theoretical Value
66%
Energy Conservation
33%
Energy Storage
33%
Temperature Heat
33%
Thermal Performance
33%
Climatic Condition
33%
Good Thermal Stability
33%
Energy Storage Capacity
33%
Potential Energy
33%
Individual Component
33%
Measured Value
33%
Measured Energy
33%
Individual Phase
33%
Energy Storage Application
33%
Keyphrases
Nano-encapsulated Phase Change Material (NEPCM)
100%
Thermal Energy Storage
100%
Change Material
100%
Multi-temperature
100%
Material Sample
33%
Phase Change Temperature
33%
Latent Heat
22%
Phase Change Energy Storage
11%
High Thermal Stability
11%
Thermophysical Properties
11%
Climatic Conditions
11%
Weight Ratio
11%
Weight Percentage
11%
Energy Storage Capacity
11%
Thermal Stability Behavior
11%
Heating Demand
11%
Phase Change Material
11%
Potential Energy Savings
11%
Property-based
11%
Cooling Demand
11%
Individual Phases
11%
Microencapsulated PCM
11%
Energy Storage Applications
11%
Multi-seasonal
11%
Temperature Requirements
11%
Energy-saving Materials
11%
Thermal Performance Enhancement
11%
Material Science
Phase Change Material
100%
Thermal Stability
33%
Thermophysical Property
33%
Energy Storage Material
33%