Engineering
Energy Engineering
100%
Nanofluid
90%
Superconductor
60%
Thin Films
58%
Thermal Conductivity
50%
Solar Energy
49%
Nanoparticle
47%
Thermoelectrics
44%
Solar Thermal Collector
34%
Microchannel
33%
Urban Heat Island Effect
32%
Phase Change Material
28%
Cryogenic Temperature
28%
Experimental Investigation
28%
Critical Heat Flux
23%
Experimental Result
22%
Energy Conservation
22%
Contact Conductance
20%
Extinction Coefficient
19%
Contact Point
19%
Cooling System
19%
Thermal Resistance
19%
Computer Simulation
17%
Energy Efficiency
17%
Effective Thermal Conductivity
16%
Transients
16%
Energy Conversion
15%
Absorption Refrigeration
15%
Photovoltaics
15%
Natural Convection
14%
Size Effect
14%
Adsorption
14%
Filler Particle
14%
Concentrating Solar Collector
14%
Solar Cooling
14%
Hot Spot
14%
Energy Harvesting
14%
Core-Shell
13%
Thermal System
13%
Heat Flux
13%
Microelectronics
12%
Refrigeration System
12%
Power Generation
12%
Thermal Performance
12%
Low-Temperature
12%
Thermal Model
11%
Base Fluid
11%
Engineering
11%
Thermal Energy Storage
11%
Desalination
11%
Keyphrases
Nanofluid
68%
Thermal Conductivity
30%
Thermal Boundary Resistance
26%
Acoustic Mismatch Model
22%
Heat Transfer
22%
Diffuse Mismatch Model
19%
Direct Absorption
19%
Radiative Properties
17%
Base Fluid
15%
Concentrating Solar Collector
14%
High-Tc Superconductors
14%
U.S. Manufacturing
14%
Energy Consumption
13%
Nanofluid Thermal Conductivity
13%
Effective Thermal Conductivity
12%
Nanoparticles
12%
High-temperature Superconductors
11%
Thermoelectric Cooler
11%
Solar Thermal Collector
11%
Mismatch Theory
11%
Photothermal Energy Conversion
10%
Direct Contact Heat Transfer
10%
Liquid Desiccant Cooling System
9%
Solid Desiccant Cooling Systems
9%
Gold Composite
9%
Flow Boiling
9%
Microchannel Geometry
9%
Parabolic Trough Solar Collector
9%
Cooling Technology
9%
YBaCuO
9%
Stokesian Dynamics
9%
Ice Formation
9%
Refrigerant
9%
Heat Activated Cooling
9%
Oscillation Technique
9%
Collector Optimization
9%
Thermoelectric Voltage
9%
Hybrid Nanofluid
9%
System Length
9%
Miniature Pulse Tube Cryocooler
9%
Hotspot Cooling
9%
Inlet Orifice
9%
Flow Oscillation
9%
Cylindrical Particles
9%
Unit Cell Method
9%
Extinction Coefficient
9%
Fuel Intensity
9%
Energy Efficiency
9%
Pressure Drop
9%
Superconductor
8%