Physics – Fluid Dynamics
Scientific paper
2007-02-05
Physica D, 237 (2008), 1993-1997
Physics
Fluid Dynamics
Scientific paper
10.1016/j.physd.2008.04.016
We introduce a dynamical description based on a probability density $\phi(\sigma,x,y,t)$ of the vorticity $\sigma$ in two-dimensional viscous flows such that the average vorticity evolves according to the Navier-Stokes equations. A time-dependent mixing index is defined and the class of probability densities that maximizes this index is studied. The time dependence of the Lagrange multipliers can be chosen in such a way that the masses $m(\sigma,t):=\intdxdy \phi(\sigma,x,y,t)$ associated with each vorticity value $\sigma$ are conserved. When the masses $m(\sigma,t)$ are conserved then 1) the mixing index satisfies an H-theorem and 2) the mixing index is the time-dependent analogue of the entropy employed in the statistical mechanical theory of inviscid 2D flows [Miller, Weichman & Cross, Phys. Rev. A \textbf{45} (1992); Robert & Sommeria, Phys. Rev. Lett. \textbf{69}, 2776 (1992)]. Within this framework we also show how to reconstruct the probability density of the quasi-stationary coherent structures from the experimentally determined vorticity-stream function relations and we provide a connection between this probability density and an appropriate initial distribution.
Capel H. W.
Pasmanter Rubén A.
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