Keyphrases
Aerodynamics
14%
ANSYS Fluent
34%
Aspect Ratio
25%
Aspect Ratio Effect
14%
CFD Simulation
23%
Computational Fluid Dynamics
18%
Computational Fluid Dynamics Modeling
29%
Computational Fluid Dynamics Simulation
11%
Computational Study
14%
Enhanced Oil Recovery
13%
Flow around
11%
Flow Characteristics
11%
Flow Structure
23%
Geometry Optimization
14%
Heat Transfer
28%
Heat Transfer Enhancement
16%
Horizontal pipe
18%
Impeller
16%
Integration Techniques
14%
Kerosene
23%
Melting Process
22%
Microbubble Aeration
11%
Microbubble Generator
34%
Microbubbles
45%
Multiphase Flow
25%
Numerical Simulation
12%
Operating Conditions
15%
Phase Change Material
17%
Polyacrylamide (PAAm)
26%
Polyethylene Glycol 1500
24%
Polymer Integration
14%
Pressure Drop
36%
Rectangular Enclosure
17%
Reynolds number
12%
Sand Particles
14%
Separator
26%
Separator Design
12%
Single-phase Flow
27%
Small pipe
11%
Thermal Performance
15%
Three-phase Separator
24%
Turbulence
13%
Two-phase Flow
18%
Two-phase Flow Pressure Drop
11%
Vacuum Pump
14%
Venturi
20%
Vertical pipe
23%
Volumetric Quality
16%
Water Flow Rate
17%
Water Two-phase Flow
14%
Engineering
Air Velocity
7%
Aspect Ratio
35%
Bubble Diameter
14%
Capital Cost
8%
Centreline
9%
Computational Fluid Dynamic Modeling
15%
Computational Fluid Dynamics
100%
Computer Simulation
10%
Diameter Ratio
9%
Drop Diameter
11%
Dynamic Method
14%
Energy Engineering
8%
Experimental Investigation
10%
Experimental Measurement
12%
Experimental Result
27%
External Flow
9%
Flow Characteristics
13%
Flow Condition
11%
Flow Rate
34%
Flow Structure
23%
Flow Velocity
34%
Flowrates
10%
Fluid Viscosity
15%
Geometrical Optimization
14%
Good Agreement
8%
Horizontal Separator
8%
Impeller
15%
Inlet Flowrate
9%
Melting Point
20%
Melting Process
19%
Mm Diameter
11%
Multiphase Flow
22%
Numerical Study
8%
Oil Droplet
8%
Optical Probe
11%
Phase Change Material
16%
Phase Flow
20%
Phase Separator
46%
Porosity
7%
Predicted Result
8%
Pressure Drop
35%
Rectangular Enclosure
18%
Reynolds' Number
11%
Separation Efficiency
14%
Separation Performance
17%
Stagnation Point
9%
Thermal Performance
8%
Two Phase Flow Pressure Drop
11%
Two-Phase Flow
27%
Venturi Tube
10%