

Article
Structure information in rapid distortion analysis and onepoint modeling of axisymmetric magnetohydrodynamic turbulence
Authors: 
Zahrai, S., Bark, F.H., Widlund, O. 
Document Type: 
Article 
Pubstate: 
Published 
Journal: 
Phys. Fluids 
Volume: 
12
26092620 
Year: 
2000 
AbstractIt has recently been suggested that dimensionality information, as carried by the Reynolds dimensionality tensor, should be included in an extended Reynolds stress closure for modeling of MHD turbulence at low magnetic Reynolds numbers. This would enable more accurate modeling of the Joule dissipation, and capture the lengthscale anisotropies and tendencies towards twodimensionality characteristic of MHD turbulence. In the present work, an evolution equation for the Reynolds dimensionality tensor is derived, based on the spectral formulation of the NavierStokes equations. Most of the terms in the equation require modeling. Rapid distortion theory (RDT) is applied to study the behavior of the different magnetic terms of the dimensionality and Reynolds stress tensor equations; a variety of different anisotropy states could be examined by letting magnetic forcing act on a number of initial spectral energy distributions obtained from axisymmetric strain. The properties and limitations of linear or bilinear invariant tensor models for the magnetic terms are evaluated. In the limit of large interaction numbers (where Joule dissipation dominates), the resulting model equations for the energy decay have analytic solutions. By choosing one model constant appropriately, these are made consistent with the asymptotic energy decay $K\sim t^{1/2}$ predicted earlier by Moffatt. The longterm objective of these efforts is the development of an effective secondmoment closure for engineering applications.

