Skip to main navigation
Skip to search
Skip to main content
Experts@Minnesota Home
Home
Profiles
Research units
University Assets
Projects and Grants
Research output
Press/Media
Datasets
Activities
Fellowships, Honors, and Prizes
Search by expertise, name or affiliation
Numerical simulation of sand waves in a turbulent open channel flow
Ali Khosronejad,
Fotis Sotiropoulos
St. Anthony Falls Laboratory
Civil, Environmental, and Geo- Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
93
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Numerical simulation of sand waves in a turbulent open channel flow'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Mathematics
Turbulent Channel Flow
100%
Open Channel Flow
92%
Sediment
70%
Numerical Simulation
42%
Water
33%
Turbulent Flow
27%
Spectral Gap
25%
Wavelength
25%
Flow Separation
17%
Immersed Boundary
17%
Open Channel
16%
Large Eddy Simulation
16%
Three-dimensional
15%
Erosion
15%
Horseshoe
14%
Simulation
14%
Trap
14%
Sweep
13%
Low Frequency
13%
Turbulence
12%
Migration
12%
Stratification
12%
Rearrangement
12%
Vortex
11%
Experimental Data
11%
Spectral Properties
11%
Statistical property
10%
Momentum
10%
Fluctuations
10%
Fluid
8%
Interaction
8%
Topology
7%
Distinct
7%
Observation
7%
Range of data
6%
Form
4%
Physics & Astronomy
open channel flow
83%
sands
59%
beds
53%
sediments
27%
simulation
21%
turbulent flow
10%
hatches
8%
horseshoe vortices
7%
flow separation
7%
surface water
6%
stratification
6%
water
6%
large eddy simulation
6%
erosion
5%
wavelengths
5%
topology
4%
turbulence
4%
frequency ranges
4%
traps
4%
low frequencies
3%
momentum
3%
fluids
3%
interactions
2%
Engineering & Materials Science
Open channel flow
86%
Sand
49%
Computer simulation
30%
Suspended sediments
29%
Sediment traps
16%
Wavelength
14%
Water
13%
Hatches
11%
Religious buildings
11%
Sediments
9%
Flow separation
9%
Large eddy simulation
8%
Erosion
7%
Momentum
7%
Turbulence
7%
Vortex flow
6%
Numerical models
6%
Topology
5%
Fluids
5%