Engineering & Materials Science
Evaporators
100%
Rankine cycle
59%
Pumps
56%
Waste heat utilization
55%
Absorption refrigeration
51%
Air conditioning
50%
Refrigerants
47%
Natural gas
46%
Temperature
45%
Gas engines
45%
Hot Temperature
45%
Water
41%
Refrigerators
40%
Solar collectors
40%
Working fluids
38%
Phase change materials
37%
Eutectics
35%
Boiling liquids
29%
Internal combustion engines
29%
Thermodynamics
29%
Energy utilization
26%
Exergy
26%
Heat transfer
26%
Exhaust manifolds
24%
Heating
24%
Global warming
23%
Electronics engineering
23%
Solar energy
22%
Toluene
20%
Solar radiation
19%
Swimming pools
19%
Computational fluid dynamics
18%
Boundary element method
18%
Compressors
18%
Proton exchange membrane fuel cells (PEMFC)
18%
Fluids
17%
Absorption cooling
16%
Thermal energy
16%
Cooling systems
16%
Economics
16%
Engine cylinders
15%
Cooling
15%
Acetone
15%
Refrigeration
15%
Heat transfer coefficients
15%
Computer simulation
15%
Dynamic analysis
15%
Energy storage
14%
Recuperators
14%
Condensation
13%
Physics & Astronomy
cogeneration
27%
Rankine cycle
27%
evaporators
27%
working fluids
24%
air conditioning
23%
heat pumps
23%
compressors
23%
waste heat
23%
water temperature
22%
natural gas
21%
phase change materials
21%
weather
20%
refrigerants
20%
refrigerators
19%
fuel cells
19%
solar energy
18%
energy sources
18%
solar radiation
18%
energy storage
18%
showers
18%
boiling
16%
engines
16%
accumulators
16%
eutectics
16%
energy consumption
15%
condensation
14%
thermodynamic efficiency
14%
water
14%
recovery
13%
computerized simulation
13%
costs
12%
exergy
12%
membranes
12%
aluminum
11%
thermodynamics
11%
carbon
11%
protons
10%
regenerators
10%
expansion
10%
coefficients
9%
performance
8%
cycles
8%
temperature
7%
condensers
6%
simulation
6%
vapors
6%
turbines
6%
cooling
5%
heat
5%
destruction
5%
Mathematics
Heat
64%
Pump
46%
Recovery
32%
Natural Gas
31%
Global Warming
28%
Engine
24%
Cycle
23%
Performance Analysis
21%
Fluid
20%
Heating
20%
Internal Combustion Engine
19%
Water
16%
Energy
15%
Economics
14%
Numerical Simulation
12%
Solar Radiation
10%
Gas
9%
Flat Plate
9%
Comparative Analysis
9%
Irradiance
9%
Wind Speed
8%
Costs
8%
Thermodynamics
8%
Copper
7%
Turbine
7%
Computational Fluid Dynamics
7%
Simulation
7%
Performance
6%
Configuration
6%
Condensation
5%
Weather
5%
Experimental Results
5%
Numerical Analysis
5%
