INIS
water
100%
performance
86%
emulsions
82%
surfactants
64%
fluids
60%
phase change materials
58%
substrates
55%
solutions
53%
efficiency
53%
design
53%
liquids
48%
siloxanes
48%
silanes
48%
simulation
46%
applications
46%
rankine cycle
44%
tanks
42%
concentration
42%
energy storage
42%
surfaces
40%
power
40%
heat
38%
heating
37%
energy
35%
dynamics
35%
titanium oxides
33%
working fluids
32%
mixtures
32%
waste heat
30%
velocity
29%
heat exchangers
27%
thermal conductivity
27%
depth
27%
values
27%
comparative evaluations
27%
walls
26%
stability
26%
thermal efficiency
26%
size
26%
investigations
25%
biofouling
25%
spheres
25%
growth
24%
heat transfer
24%
solids
23%
zinc oxides
23%
aesthetics
22%
shear
21%
range
20%
low temperature
20%
Engineering
Performance
69%
Water
65%
Fluid
49%
Photovoltaics
38%
Temperature
35%
Phase Change Material
33%
Design
33%
Substrates
30%
Efficiency
30%
Models
30%
Thermal Efficiency
30%
Organic Rankine Cycle
28%
Final Temperature
26%
Latent Heat
24%
Heating
23%
Thermal Conductivity
22%
Mixture
20%
Properties
20%
Specific Heat Capacity
18%
Density
18%
Lower Temperature
18%
1D Model
17%
Diesel Engine
17%
Melting Temperature
17%
Applications
16%
Thermodynamics
16%
Diffusers
16%
Simulation
16%
Emission Reduction
15%
Cycles
15%
Heat Pump System
15%
Heat Transfer Area
14%
Heat Transfer Fluid
13%
Experimental Result
13%
Centrifugal Compressor
13%
Enhancement
13%
Stability
13%
Small Scale
12%
Heat Pump
12%
Exhaust Temperature
11%
Zinc Oxide
11%
Heating Energy
11%
Cylindrical Tank
11%
Model House
11%
Dye-Sensitized Solar Cells
11%
Thermal Energy Storage System
11%
Exergetic Efficiency
10%
Heat Exchanger
10%
Guide Vane
10%
Porosity
10%
Physics
Performance
63%
Model
42%
Wetting
42%
Heat Storage
37%
Heat
35%
Surfactant
35%
Pressure
31%
Water
31%
Liquids
30%
Temperature
28%
Heat Exchanger
26%
Latent Heat
26%
Working Fluid
25%
Region
25%
Solid State
23%
Value
22%
Thermodynamic Efficiency
22%
Heating
22%
Spreading
21%
Spheres
20%
Thermodynamic Properties
20%
Thermodynamics
19%
Utilization
18%
Perovskites
17%
Blood Flow
17%
Bifurcation
17%
Heat Sink
17%
Growth
17%
Work
16%
Simulation
16%
Speed
15%
Parameter
15%
Cooling
13%
Foci
13%
Low Speed
13%
Thermal Conductivity
12%
Variations
11%
Turbine
10%
Complex Fluid
10%
Renewable Energy
10%
Substrates
9%
High Pressure
8%
Waste
8%
Blood
8%
Lattice-Boltzmann Method
8%
Shears
8%
Flow Parameters
8%
Charge Flow Device
8%
Technology
8%
Increasing
8%
