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Implicit large-eddy simulation of swept-wing flow using high-resolution methods
M. Hahn,
D. Drikakis
School of Sciences and Engineering
Cranfield University
School of Engineering
Fluid Mechanics and Computational Science Group
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Dive into the research topics of 'Implicit large-eddy simulation of swept-wing flow using high-resolution methods'. Together they form a unique fingerprint.
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Keyphrases
High-order Methods
100%
Implicit Large Eddy Simulation
100%
Swept Wing
100%
Numerical Investigation
50%
Three-dimensional (3D)
50%
Flow Velocity
50%
Time-stepping Scheme
50%
Stress Profile
50%
Boundary Layer
50%
Flow Structure
50%
Third Order
50%
Velocity Profile
50%
Large Eddy Simulation
50%
Laser Doppler Anemometry
50%
Discretize
50%
Reynolds-averaged Navier-Stokes
50%
Advective Flux
50%
Runge-Kutta
50%
Simulation Strategy
50%
Wall Model
50%
Stability Region
50%
Wing Geometry
50%
Extended Stability
50%
Three-dimensional Laser
50%
Curved Leading Edges
50%
Engineering
High Resolution
100%
Swept Wings
100%
Good Agreement
50%
Boundary Layer
50%
Laser Doppler Anemometry
50%
Flow Structure
50%
Reynolds-Averaged Navier-Stokes
50%
Leading Edge
50%
Stepping Scheme
50%
Flow Velocity
50%