Engineering & Materials Science
Solar collectors
100%
Vacuum
79%
Hot Temperature
59%
Enclosures
59%
Glass
56%
Heat pipes
33%
Temperature
33%
Fabrication
32%
Heat losses
25%
Testing
24%
Thermal insulation
20%
Power generation
19%
Simulators
19%
Seals
19%
Solar absorbers
17%
Calorimeters
16%
Facades
15%
Atmospheric pressure
14%
Heat transfer
13%
Metals
13%
Pumps
12%
Collector efficiency
12%
Pipe flow
11%
Lighting
11%
Microchannels
10%
Steel sheet
10%
Solar radiation
10%
Air conditioning
9%
Fluids
9%
Heat transfer coefficients
9%
Deep learning
8%
Electrochromic devices
8%
Coatings
8%
Computer aided design
8%
Space heating
8%
Numerical models
8%
Experiments
7%
Feedback
6%
Pressure drop
5%
Heat exchangers
5%
Stainless steel
5%
Cooling
5%
Hard coatings
5%
Thermal comfort
5%
Fans
5%
Helium
5%
Hydraulics
5%
Durability
5%
Chemistry
Solar Collector
74%
Vacuum
64%
Plate Like Crystal
50%
Glass
45%
Heat
22%
Solar Absorber
22%
Heat Transfer
20%
Surface Temperature
17%
Concentrator
13%
Pressure Drop
12%
Simulation
11%
Pressure
11%
Metal
10%
Transfer Coefficient
8%
Illumination
8%
Serpentine
7%
Coating Agent
6%
Internal Pressure
6%
Energy
6%
Thermal Resistance
6%
Thermal Expansion
5%
Black
5%
Physics & Astronomy
vacuum
39%
concentrating
29%
accumulators
29%
flat plates
20%
glass
19%
absorbers
17%
characterization
16%
enclosure
14%
performance prediction
13%
thermal insulation
13%
fabrication
13%
indium
12%
vacuum systems
11%
troughs
11%
solar radiation
11%
heat
10%
thermal analysis
9%
atmospheric pressure
9%
transmittance
8%
sealing
7%
emittance
7%
spacers
7%
performance
7%
hermetic seals
6%
rays
6%
requirements
5%
evacuating
5%
concentrators
5%
retrofitting
5%
acceptability
5%
process heat
5%
metals
5%
