Keyphrases
Ambient Temperature
23%
Battery Pack
13%
Battery Thermal Management
15%
Battery Thermal Management System
48%
Black Sea
15%
Boiling Characteristics
27%
Bubble Detachment
23%
Bubble Dynamics
38%
Bubble Growth
29%
Coastal Erosion
14%
Conjugate Heat Transfer
14%
Cooling System
13%
Dardanelles
17%
Droplet Impact
24%
Electric Vehicle
20%
Ethanol
12%
Fast Charging
23%
Flow Boiling
47%
Graphite Sheet
20%
Greece
19%
Heat Flux
17%
Heat pipe System
14%
Heat Transfer
30%
Heat Transfer Coefficient
14%
Loop Heat pipe
66%
Lumped Parameter Model
19%
Nestos River
23%
North Aegean
21%
North Aegean Sea
19%
Nucleation Site
12%
Numerical Experiments
13%
Numerical Investigation
59%
Numerical Model
18%
Numerical Simulation
50%
OpenFOAM
35%
Parametric Analysis
13%
Phase Change
18%
Pool Boiling
26%
Pulsating Heat pipe
28%
Reservoir Sedimentation
14%
Scroll Expander
12%
Solid Surface
16%
Surface Wettability
13%
Suspended Sediment
12%
Turbidity Current
17%
Volume of Fluid
20%
Volume of Fluid Method
14%
Wettability
19%
Wettability Characteristic
18%
Working Fluid
22%
Engineering
Aspect Ratio
11%
Atmospheric Pressure
11%
Automotives
15%
Battery Pack
13%
Battery Thermal Management System
48%
Boiling Condition
13%
Boiling Heat Transfer
18%
Bubble Cavitation
11%
Bubble Growth
39%
Cavitation Corrosion
14%
Chiller
10%
Computational Fluid Dynamics
38%
Computer Simulation
77%
Cooling System
15%
Coriolis Effect
17%
Electric Vehicle
24%
Experimental Investigation
15%
Experimental Result
18%
Fluid Flow
11%
Great Importance
12%
Heat Flux
26%
Heat Pipes
100%
Heat Transfer Coefficient
17%
Hydrodynamic Model
11%
Hydrodynamics
30%
Hydrophobic
16%
Liquid Film
11%
Lumped Parameter
18%
Maximum Temperature
15%
Memory Effect
14%
Microchannel
39%
Nucleation Site
13%
Numerical Approach
17%
Numerical Experiment
12%
Numerical Model
20%
Numerical Modeling
18%
Parameter Model
17%
Parametric Analysis
20%
Pipe System
14%
Porosity
11%
Relative Humidity
11%
Scroll Expander
12%
Surface Wettability
17%
Suspended Sediment
14%
Temperature Distribution
12%
Temperature Water
11%
Thermal Performance
12%
Transients
14%
Two-Phase Flow
11%
Volume of Fluid Method
14%