Effects of coastal geometry and the formation of cyclonic/anti-cyclonic eddies on turbulent mixing in upwelling simulation
From MaRDI portal
Publication:3372972
DOI10.1088/1468-5248/2/1/014zbMath1082.86501OpenAlexW2133654520MaRDI QIDQ3372972
Yu-heng Tseng, Joel H. Ferziger
Publication date: 10 March 2006
Published in: Journal of Turbulence (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/d6c2b6281c749c51f93ca56a210eed5cd3877c24
Meteorology and atmospheric physics (86A10) Turbulent transport, mixing (76F25) Stability and instability of geophysical and astrophysical flows (76E20)
Related Items (4)
High-order essentially local extremum diminishing schemes for environmental flows ⋮ A ghost-cell immersed boundary method for flow in complex geometry. ⋮ Long-time evolution of linearly stratified spin-up flows in axisymmetric geometries ⋮ Large-eddy simulation of turbulent wavy boundary flow—illustration of vortex dynamics
Cites Work
- Application of a fractional-step method to incompressible Navier-Stokes equations
- A stable and accurate convective modelling procedure based on quadratic upstream interpolation
- An implicit finite-difference algorithm for hyperbolic systems in conservation-law form
- Mixing and available potential energy in stratified flows
- Simple high‐accuracy resolution program for convective modelling of discontinuities
- A dynamic subgrid-scale model for compressible turbulence and scalar transport
- A dynamic subgrid-scale eddy viscosity model
- Available potential energy and mixing in density-stratified fluids
- Numerical simulation of coastal upwelling and inerfacial instability of a rotaion and stratified fluid
This page was built for publication: Effects of coastal geometry and the formation of cyclonic/anti-cyclonic eddies on turbulent mixing in upwelling simulation
