English

A model for alignment between microscopic rods and vorticity

Fluid Dynamics 2015-06-05 v1

Abstract

Numerical simulations show that microscopic rod-like bodies suspended in a turbulent flow tend to align with the vorticity vector, rather than with the dominant eignevector of the strain-rate tensor. This paper investigates an analytically solvable limit of a model for alignment in a random velocity field with isotropic statistics. The vorticity varies very slowly and the isotropic random flow is equivalent to a pure strain with statistics which are axisymmetric about the direction of the vorticity. We analyse the alignment in a weakly fluctuating uniaxial strain field, as a function of the product of the strain relaxation time τs\tau_{\rm s} and the angular velocity ω\omega about the vorticity axis. We find that when ωτs1\omega\tau_{\rm s}\gg 1, the rods are predominantly either perpendicular or parallel to the vorticity.

Keywords

Cite

@article{arxiv.1205.6968,
  title  = {A model for alignment between microscopic rods and vorticity},
  author = {M. Wilkinson and H. R. Kennard},
  journal= {arXiv preprint arXiv:1205.6968},
  year   = {2015}
}
R2 v1 2026-06-21T21:12:24.498Z