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Enhanced thermophysical properties via PAO superstructure
Zahra Pournorouz,
Donghyun Shin
Engineering & Technology, School Of
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Engineering
Enhancement
33%
Fluid
25%
Engineering
25%
Additives
25%
Viscosity
16%
Calorimeter
16%
Heat Capacity
16%
Organic Molecule
16%
Thermal Conductivity
16%
Situ Formation
16%
Polar Group
16%
Thermal Cycle
16%
Rheometer
8%
Storage Medium
8%
Organic Material
8%
Water
8%
Performance
8%
Oil
8%
Figure of Merit
8%
Chemistry
Nanomaterial
50%
Nanoparticle
33%
Additive
25%
Organic Molecule
16%
Debye Temperature
16%
Thermal Conductivity
16%
Viscosity
16%
Heat Storage
8%
Thermodynamic Property
8%
Figure of Merit
8%
Coolant
8%
Concentration
8%
Water Type
8%
Molecule
8%
Doping
8%
Purity
8%
Weight
8%
Oil
8%
Physics
Specific Heat
58%
Molten Salts
33%
Thermal Conductivity
16%
Adhesion
16%
Shapes
16%
Nanomaterial
8%
Thermophysical Properties
8%
Heat Storage
8%
Coolant
8%
Performance
8%
Water
8%
Molecules
8%
Cycles
8%
Transferring
8%
Partial Melting
8%
Organic Materials
8%
Material Science
Nanoparticle
100%
Fluid
25%
Additive
25%
Nanostructured Material
8%
Coolant
8%
Chemical Engineering
Ethylene Glycol
8%
Specific Heat of Liquids
8%