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Boundary Layer Processes in Geophysical/Environmental Flows
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Boundary layer processes play a crucial role in establishing the circulation patterns of the oceans and atmosphere, significantly affecting both regional climates and the global climate, as well as the distributions of heat, nutrients, species, pollutants, and more. This Special Issue of Fluids is dedicated to recent advances in the theoretical, numerical, observational (including instrumentation development), and experimental investigation of geophysical/environmental boundary layer processes and how those process may influence regional and global circulation. Topics of interest include, but are not limited to, air–sea interactions and fluxes (including the influence of sea ice), western and eastern boundary currents, bottom boundary processes (including complex topography interactions and sediment motion), and internal boundary layers (such as fronts, shear layers, and thermocline processes).
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Keywords
- acoustic Doppler current profiler
- air–sea interaction
- balanced motions
- bottom boundary layer
- bottom boundary layers
- bottom-intensified current
- coastal-trapped wave
- complex topography
- Direct Numerical Simulation
- drag coefficient
- dynamical filtering
- eastern boundary currents
- Ekman layer
- energy dissipation
- exact solutions
- geophysical fluid dynamics
- global numerical model
- gradient flows
- gustiness
- Hysteresis
- impact crater
- index matching
- internal gravity waves
- isobaric flows
- Kolmogorov flow
- Lattice Boltzmann method
- LOGOS software package
- Loop Current
- marine boundary layer
- mixing
- momentum flux
- n/a
- Navier–Stokes equations
- Numerical Simulation
- ocean bottom boundary layer
- overdetermined system
- Rayleigh friction
- Sediment transport
- solvability condition
- spectral analysis
- stratified Ekman layer
- submesoscale
- tsunami
- Turbulence
- turbulent open channel flows
- Volume of Fluid Method (VOF method)
- western boundary current
Links
DOI: 10.3390/books978-3-7258-1356-8Editions