Nonlinear Sciences – Chaotic Dynamics
Scientific paper
1997-09-04
Nonlinear Sciences
Chaotic Dynamics
To appear in Nonlinearity Nov. 1997
Scientific paper
10.1088/0951-7715/10/6/013
We address the problem in Navier-Stokes isotropic turbulence of why the vorticity accumulates on thin sets such as quasi-one-dimensional tubes and quasi-two-dimensional sheets. Taking our motivation from the work of Ashurst, Kerstein, Kerr and Gibson, who observed that the vorticity vector ${\boldmath$\omega$}$ aligns with the intermediate eigenvector of the strain matrix $S$, we study this problem in the context of both the three-dimensional Euler and Navier-Stokes equations using the variables $\alpha = \hat{{\boldmath$\xi$}}\cdot S\hat{{\boldmath$\xi$}}$ and ${\boldmath$\chi$} = \hat{{\boldmath$\xi$}}\times S\hat{{\boldmath$\xi$}}$ where $\hat{{\boldmath$\xi$}} = {\boldmath$\omega$}/\omega$. This introduces the dynamic angle $\phi (x,t) = \arctan(\frac{\chi}{\alpha})$, which lies between ${\boldmath$\omega$}$ and $S{\boldmath$\omega$}$. For the Euler equations a closed set of differential equations for $\alpha$ and ${\boldmath$\chi$}$ is derived in terms of the Hessian matrix of the pressure $P = \{p_{,ij}\}$. For the Navier-Stokes equations, the Burgers vortex and shear layer solutions turn out to be the Lagrangian fixed point solutions of the equivalent $(\alpha,{\boldmath$\chi$})$ equations with a corresponding angle $\phi = 0$. Under certain assumptions for more general flows it is shown that there is an attracting fixed point of the $(\alpha,\bchi)$ equations which corresponds to positive vortex stretching and for which the cosine of the corresponding angle is close to unity. This indicates that near alignment is an attracting state of the system and is consistent with the formation of Burgers-like structures.
Galanti Barak
Gibbon John D.
Heritage M.
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