English

Mixing in stratified gravity currents: Prandtl mixing length

Fluid Dynamics 2009-11-13 v2 Atmospheric and Oceanic Physics
Authors: Philippe Odier , Jun Chen , Michael K. Rivera , Robert E. Ecke
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Abstract

Shear-induced vertical mixing in a stratified flow is a key ingredient of thermohaline circulation. We experimentally determine the vertical flux of momentum and density of a forced gravity current using high-resolution velocity and density measurements. A constant eddy viscosity model provides a poor description of the physics of mixing, but a Prandtl mixing length model relating momentum and density fluxes to mean velocity and density gradients works well. For <Rig>0.08<Ri_g > \approx 0.08 and Reλ100Re_\lambda \approx 100, the mixing lengths are fairly constant, about the same magnitude, comparable to the turbulent shear length.

Keywords

shear rheology fluid dynamics granular materials

Cite

@article{arxiv.0901.4836,
  title  = {Mixing in stratified gravity currents: Prandtl mixing length},
  author = {Philippe Odier and Jun Chen and Michael K. Rivera and Robert E. Ecke},
  journal= {arXiv preprint arXiv:0901.4836},
  year   = {2009}
}

Comments

4 pages, 4 figures, accepted in PRL, February 2009

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