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A viscoelastic model for turbulent flow over undulating topography
Qingping Zou
*
*
Corresponding author for this work
School of Energy, Geoscience, Infrastructure and Society
Institute for Infrastructure & Environment
Research output
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Contribution to journal
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Article
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peer-review
10
Citations (Scopus)
28
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INIS
surfaces
100%
shear
100%
relaxation
100%
topography
100%
turbulent flow
100%
mixing
66%
length
66%
nonlinear problems
66%
advection
66%
drag
66%
asymptotic solutions
33%
layers
33%
asymmetry
33%
equations
33%
expansion
33%
interfaces
33%
coordinates
33%
perturbations
33%
boundary layers
33%
viscosity
33%
Engineering
Advection
100%
Mixing Length
100%
Drag Force
100%
Turbulent Flow
100%
Streamlines
50%
Analytical Result
50%
Nonlinear Analysis
50%
Numerical Calculation
50%
Flow Perturbation
50%
Boundary Layer
50%
Outer Layer
50%
Magnitude Estimate
50%
Distortion Model
50%
Shear Flow
50%
Asymptotic Expansion
50%
Eddy Viscosity
50%
Earth and Planetary Sciences
Turbulent Flow
100%
Advection
100%
Shear Flow
50%
Eddy Viscosity
50%
Boundary Layer
50%