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Eulerian-Lagrangian flow-vegetation interaction model using immersed boundary method and OpenFOAM
Haifei Chen,
Qing-Ping Zou
School of Energy, Geoscience, Infrastructure and Society
Institute for Infrastructure & Environment
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Contribution to journal
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Article
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peer-review
65
Citations (Scopus)
369
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Dive into the research topics of 'Eulerian-Lagrangian flow-vegetation interaction model using immersed boundary method and OpenFOAM'. Together they form a unique fingerprint.
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Engineering
Bending Stiffness
50%
Computational Domain
50%
Drag Coefficient
50%
Energy Engineering
50%
Finite Element Method
50%
Flow Solver
50%
Flow Velocity
50%
Fluid Surface
50%
Good Agreement
50%
Hydrodynamic Force
100%
Hydrodynamic Model
50%
Hydrodynamics
50%
Inertia Coefficient
50%
Radiation Stress
50%
Rod
50%
Wave Height
50%
INIS
asymmetry
4%
bending
4%
closures
4%
decay
4%
drag
4%
energy
4%
equations
9%
finite element method
4%
fluids
9%
grids
18%
height
4%
hybrids
4%
hydrodynamic model
4%
hydrodynamics
13%
inertia
4%
interactions
100%
jets
4%
lagrangian
100%
motion
13%
radiations
4%
rods
4%
stiffness
4%
surfaces
4%
turbulence
9%
vegetation
100%
velocity
4%
volume
4%