Engineering
Aspect Ratio
21%
Atmospheric Pressure
16%
Boltzmann Equation
22%
Boundary Condition
20%
Calculation Procedure
53%
Chemical Vapor Deposition
21%
Computational Fluid Dynamics
20%
Computer Simulation
55%
Continuity Equation
22%
Continuous Casting
62%
Convergent
17%
Coupled Solution
28%
Defects
19%
Dimensional Flow
32%
Direct Numerical Simulation
26%
Duct
42%
Energy Engineering
17%
Flow Equation
17%
Flow Field
37%
Flow Pattern
22%
Fluid Flow
100%
Fluid Viscosity
18%
Fractional Step
18%
Graphics Processing Unit
54%
Large Eddy Simulation
70%
Lattice-Boltzmann Method
15%
Magnetic Field
45%
Meshless Method
16%
Molten Steel
17%
Momentum Equation
21%
Multigrid
83%
Multiphase Flows
21%
Natural Convection
16%
Navier-Stokes Equation
55%
Numerical Computation
19%
Numerical Scheme
19%
Numerical Solution
17%
Numerical Study
57%
Partial Differential Equation
22%
Pipeline Fluid Flow
16%
Reynolds' Number
67%
Secondary Flow
19%
Solution Algorithm
25%
Square Duct
43%
Surface Velocity
16%
Transients
56%
Turbulent Flow
73%
Two Dimensional
38%
Unsteady Flow
15%
Vortex
31%
Keyphrases
Aspect Ratio
24%
Calculation Procedure
55%
Caster
31%
Chemical Reaction
18%
Complex Geometry
19%
Computational Fluid Dynamics
17%
Continuity Equation
18%
Continuous Casting
23%
Continuous Steel Casting
38%
Coupled Solution
18%
Difference Calculation
17%
Direct numerical Simulation
26%
Discretized
27%
Electromagnetic Braking
23%
Finite Difference
49%
Finite Volume
18%
Flow Field
44%
Flow Pattern
25%
Flow Transferring
33%
Fluid Flow
78%
Fluid Flow Equation
22%
Graphics Processing Unit
26%
Heat Transfer
35%
Large Eddy Simulation
67%
Magnetic Field
36%
Meshless Method
17%
Momentum Equation
18%
Multigrid
56%
Multigrid Technique
17%
Multiphase Flow
18%
Navier-Stokes Equations
33%
Newton's Method
23%
Nozzle
38%
Numerical Computation
19%
Numerical Simulation
37%
Numerical Solution
18%
Particle Transport
25%
Recirculating Flow
36%
Reynolds number
85%
Solution Algorithm
25%
Sparse Matrix Techniques
23%
Square Duct
27%
Three-dimensional (3D)
64%
Three-dimensional Flow
25%
Transient Flow
22%
Turbulence
56%
Turbulence Model
27%
Turbulent Flow
45%
Two Dimensional
32%
Two-way Coupling
17%