Local vortex line topology and geometry in turbulence Academic Article uri icon

abstract

  • The local streamline topology classification method of Chong et al. (Phys. Fluids A: Fluid Dyn., vol. 2, no. 5, 1990, pp. 765777) is adapted and extended to describe the geometry of infinitesimal vortex lines. Direct numerical simulation (DNS) data of forced isotropic turbulence reveals that the joint probability density function (p.d.f.) of the second ( $q_omega$ ) and third ( $r_omega$ ) normalized invariants of the vorticity gradient tensor asymptotes to a self-similar bell shape for $Re_lambda > 200$ . The same p.d.f. shape is also seen at the late stages of breakdown of a TaylorGreen vortex suggesting the universality of the bell-shaped p.d.f. form in turbulent flows. Additionally, vortex reconnection from different initial configurations is examined. The local topology and geometry of the reconnection bridge is shown to be nearly identical in all cases considered in this work. Overall, topological characterization of the vorticity field provides a useful analytical basis for examining vorticity dynamics in turbulence and other fluid flows.

published proceedings

  • JOURNAL OF FLUID MECHANICS

altmetric score

  • 0.5

author list (cited authors)

  • Sharma, B., Das, R., & Girimaji, S. S.

citation count

  • 0

complete list of authors

  • Sharma, Bajrang||Das, Rishita||Girimaji, Sharath S

publication date

  • October 2021