Engineering & Materials Science
Cryogenic energy storage
100%
Thermal energy
83%
Salts
59%
Energy storage
57%
Compressed air energy storage
48%
Hot Temperature
44%
Phase change materials
33%
Latent heat
31%
Nanoparticles
30%
Packed beds
29%
Molten materials
29%
Electricity
28%
Thermal conductivity
28%
Composite materials
22%
Heat transfer
21%
Specific heat
20%
Thermodynamic properties
19%
Temperature
19%
Magnesia
17%
Pulse code modulation
16%
Pistons
16%
Absorption refrigeration
15%
Thermodynamics
15%
Metal foams
15%
Carbonates
14%
Nitrates
14%
Eutectics
13%
Rheometers
13%
Wetting
13%
Groundwater
13%
High density polyethylenes
13%
Heat exchangers
13%
Graphite
12%
Heat transfer performance
12%
Rheology
12%
Exergy
12%
Air
11%
Power markets
11%
Natural convection
11%
Air conditioning
11%
Compressed air motors
10%
Solar energy
10%
Potassium Nitrate
10%
Physical properties
9%
Diesel engines
9%
Fluids
9%
Thermal diffusivity
9%
Viscosity
9%
Rankine cycle
8%
Ceramic materials
8%
Recovery
8%
Substrates
7%
Computer simulation
7%
Engines
7%
Liquids
7%
Sodium nitrate
7%
Power generation
6%
Compaction
6%
Geometry
6%
Chemical stability
6%
Waste heat
6%
Water
6%
Liquefied natural gas
5%
Flue gases
5%
Alumina
5%
Thermal stratification
5%
Nuclear power plants
5%
Nitrogen
5%
Fuel consumption
5%
Chemistry
Energy Storage
40%
Thermal Conductivity
27%
Phase Change Material
24%
Heat
20%
Solar Power
16%
Magnesium Oxide
15%
Nitrate Salt
14%
Composite Material
14%
Eutectics
13%
Molten Salt
12%
Nanoparticle
11%
Foam
10%
Rheology
10%
Energy
9%
Graphite
9%
Sintering
9%
Carbonate Salt
8%
Simulation
7%
Heat Transfer
6%
Ceramic
5%
Heat Capacity
5%
Purity
5%
Interfacial Energy
5%
Thermal Diffusivity
5%
Force
5%
Earth & Environmental Sciences
energy storage
70%
compressed air
44%
liquid
13%
air
13%
compression
13%
diesel engine
12%
electricity generation
12%
diesel
10%
comparative study
10%
convection
8%
cold
7%
electricity
6%
simulation
5%
modeling
5%
loss
5%
temperature profile
5%