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Flow phenomena and mechanisms in a field-scale experimental meandering channel with a pool-riffle sequence: Insights gained via numerical simulation
Seokkoo Kang,
Fotis Sotiropoulos
Civil, Environmental, and Geo- Engineering
Research output
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Contribution to journal
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Article
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peer-review
82
Scopus citations
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Dive into the research topics of 'Flow phenomena and mechanisms in a field-scale experimental meandering channel with a pool-riffle sequence: Insights gained via numerical simulation'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
pool-riffle sequence
100%
turbulence
37%
anisotropy
31%
simulation
26%
curvature
22%
eddy
20%
thalweg
17%
riffle
15%
secondary flow
14%
turbulent mixing
14%
large eddy simulation
12%
turbulent flow
11%
shear stress
10%
roughness
10%
momentum
10%
collision
10%
hydrodynamics
9%
surface water
8%
laboratory
6%
effect
5%
Physics & Astronomy
turbulence
37%
cells
32%
simulation
23%
anisotropy
23%
beds
23%
curvature
18%
vortices
17%
flow separation
15%
turbulent mixing
15%
centrifugal force
15%
secondary flow
15%
surface water
14%
large eddy simulation
13%
turbulent flow
11%
shear stress
11%
roughness
10%
hydrodynamics
9%
momentum
8%
collisions
7%
interactions
4%