Keyphrases
Large Eddy Simulation
100%
Semi-implicit
100%
Wall-bounded Turbulent Flows
100%
Implicit numerical Scheme
100%
Direct numerical Simulation
50%
Simulation Prediction
50%
Computational Cost
25%
Fully Developed
25%
Numerical Scheme
25%
Viscous Flow
25%
Normal Direction
25%
Third Order
25%
Fine Mesh
25%
Comparable Accuracy
25%
Convection Term
25%
Velocity Statistics
25%
Low Speed
25%
Compressible Navier-Stokes Equations
25%
Added Damping
25%
High Reynolds number
25%
Efficient numerical Scheme
25%
Mean Velocity
25%
Characteristic-based
25%
Non-reflecting Boundary Condition
25%
Low Mach number
25%
Acoustic Problems
25%
Turbulence Statistics
25%
Turbulent Channel Flow
25%
Subgrid Scale
25%
Dynamic Smagorinsky Model
25%
Eddy-viscosity Model
25%
Generalized Curvilinear Coordinates
25%
Sixth Order
25%
Curvilinear Coordinate System
25%
Compact Finite Difference Scheme
25%
Semi-implicit Runge-Kutta Method
25%
Computational Aeroacoustics
25%
Near-wall Region
25%
Spatial Discretization
25%
Asymmetric Diffuser
25%
Exit Zone
25%
Confined Turbulent Flow
25%
Generalized Characteristics
25%
Turbulent Separated Flows
25%
Grid Stretching
25%
Time Advancement
25%
Engineering
Turbulent Flow
100%
Large Eddy Simulation
100%
Numerical Scheme
100%
Direct Numerical Simulation
50%
Limitations
25%
Numerical Approach
25%
Viscous Flow
25%
Simple Model
25%
Fine Mesh
25%
Convective
25%
Compressible Navier
25%
Coordinate System
25%
Low Mach Number
25%
Spatial Discretization
25%
Diffusers
25%
Sixth Order
25%
Boundary Condition
25%
Computational Cost
25%
Navier-Stokes Equation
25%
Separated Flow
25%
Channel Flow
25%
High Reynolds Number
25%
Scale Eddy
25%
Eddy-Viscosity Model
25%
Exit Zone
25%
Implicit Runge
25%
Kutta Method
25%
Earth and Planetary Sciences
Turbulent Flow
100%
Laminar Boundary Layer
33%
Channel Flow
33%
High Reynolds Number
33%
Navier-Stokes Equation
33%
Eddy Viscosity
33%
Aeroacoustics
33%
Viscous Flow
33%
Mach Number
33%
Boundary Condition
33%
Spherical Coordinate
33%