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Rate of decay of turbulent kinetic energy in abruptly stabilized Ekman boundary layers
Stimit Shah,
Elie R. Bou-Zeid
Civil & Environmental Engineering
Mechanical & Aerospace Engineering
High Meadows Environmental Institute
Princeton Institute for the Science and Technology of Materials
Research output
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Contribution to journal
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Article
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peer-review
3
Scopus citations
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Dive into the research topics of 'Rate of decay of turbulent kinetic energy in abruptly stabilized Ekman boundary layers'. Together they form a unique fingerprint.
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Mathematics
Buoyancy
94%
Kinetic energy
82%
Boundary Layer
63%
Decay
56%
Turbulence
22%
Damping
18%
Stratified Flow
14%
Direct numerical Simulation
13%
Reduced Model
12%
Boundary Layer Flow
12%
Term
10%
Dissipation
9%
Paradigm
9%
Viscosity
9%
Scaling
8%
Modeling
6%
Framework
5%
Model
3%
Engineering & Materials Science
Buoyancy
74%
Kinetic energy
72%
Boundary layers
64%
Turbulence
17%
Fluxes
15%
Damping
14%
Wall flow
13%
Direct numerical simulation
12%
Boundary layer flow
12%
Viscosity
7%
Chemical Compounds
Buoyancy
100%
Kinetic Energy
79%
Turbulence
32%
Shear
31%
Flow
14%
Time
8%
Simulation
7%
Reduction
5%
Application
3%