Engineering & Materials Science
Hot Temperature
100%
Temperature
66%
Cooling
53%
Heat transfer
51%
Nanoparticles
44%
Thermal conductivity
41%
Thin films
39%
Solar energy
37%
Superconducting materials
37%
Fluids
35%
Water
34%
Solar collectors
30%
Microchannels
29%
High temperature superconductors
29%
Refrigeration
27%
Heat flux
27%
Liquids
26%
Thermal energy
26%
Cooling systems
24%
Refrigerants
22%
Waste heat
20%
Ultrasonics
20%
Boiling liquids
20%
Cryogenics
19%
Distillation
19%
Desalination
18%
Acoustics
18%
Thermodynamic properties
18%
Electricity
17%
Optical properties
17%
Adsorption
17%
Scattering
16%
Heat resistance
16%
Energy conversion
15%
Substrates
15%
Heating
15%
Heat sinks
15%
Phase change materials
14%
Core shell nanoparticles
14%
Program processors
14%
Ice
14%
Air
14%
Composite materials
13%
Helium
13%
Energy harvesting
13%
Vapors
13%
Electronics packaging
13%
Refrigerators
13%
Air conditioning
13%
Demand side management
13%
Chemistry
Heat Transfer
64%
Heat
58%
Thermal Conductivity
38%
Superconductor
36%
Cooling
32%
Thermoelectricity
25%
Solar Energy
23%
Resistance
22%
Convective Heat Transfer
22%
Solar Collector
21%
Energy
20%
Cryogenics
18%
Refrigerant
17%
Electricity
16%
Liquid
16%
Nanoparticle
15%
Waste Heat
14%
Liquid Film
13%
Application
12%
Exergy
12%
Surface Temperature
11%
Pressure
11%
Flow
11%
Optical Property
10%
Boiling
10%
Thermodynamic Property
10%
Composite Particle
10%
Superconducting Film
10%
Microelectronics
10%
Simulation
10%
Conductance
9%
Composite Material
9%
Volume
9%
Suspension
9%
Size Effect
9%
Phonon
9%
Thermal Resistance
9%
Voltage
9%
Contact Resistance
8%
Transfer Coefficient
8%
Energy Consumption
8%
Cylinder
8%
Flow Kinetics
7%
Compressor
7%
Energy Balance
7%
Seebeck Coefficient
7%
Conductor
7%
Solid-Solid Interface
7%
Debye Temperature
6%
Pressure Drop
6%
Physics & Astronomy
heat transfer
28%
microchannels
22%
nanoparticles
20%
thermal conductivity
18%
heat flux
16%
water
14%
boiling
13%
electricity
12%
thermal resistance
11%
heat
10%
solar collectors
10%
solar energy
10%
cooling systems
10%
thin films
10%
temperature
9%
performance
9%
liquids
9%
heat sinks
9%
regeneration
9%
cooling
8%
augmentation
7%
ultrasonics
7%
vapors
7%
fluids
7%
convective heat transfer
7%
composite materials
7%
high temperature superconductors
7%
dehumidification
7%
accumulators
7%
trends
7%
acoustic scattering
6%
peeling
6%
heating
6%
predictions
6%
aluminum oxides
6%
orifices
6%
electric potential
5%
pressure drop
5%
heat transfer coefficients
5%
energy
5%
cryogenic temperature
5%
cells
5%
free convection
5%
expansion
5%
electronic packaging
5%
silver
5%
desiccants
5%
drying
5%
gold
5%
refrigerants
5%
