English

Elastoviscoplastic fluid flow past a circular cylinder

Fluid Dynamics 2023-03-17 v1

Abstract

The combined effect of fluid elasticity and yield-stress on the flow past a circular cylinder is studied by two-dimensional direct numerical simulation. We analyze the effects of yield-stress, elasticity, shear-thinning, and shear-thickening on the wake characteristics using the Saramito constitutive model. The elastoviscoplastic (EVP) wake flow is studied at a moderate Reynolds number (Re = 100) where two-dimensional vortex shedding occurs in the Newtonian case. We find that in the shear-thinning elastoviscoplastic flow, when yield stress increases, the drag coefficient and root mean square of the lift coefficient both decrease, while the length of the recirculation bubble LRBL_{RB} increases. These changes indicate that the wake oscillation amplitude decreases with an increasing yield stress. For shear-thickening however, the drag coefficient CDC_D increases at a large Bingham number, and the wake becomes chaotic. The comparison of viscoelastic fluid and EVP fluid reveals that the polymer stresses, tr(τp\tau^p), decay considerably less downstream of the cylinder in the EVP case, indicating that significant stresses persist at large distances. We observe that shear-thinning competes with elastic and yield stresses and counteracts their effect, while shear-thickening enhances elastic and yield stress effects, so that the flow pattern can change from periodic to a chaotic flow.

Keywords

Cite

@article{arxiv.2303.09262,
  title  = {Elastoviscoplastic fluid flow past a circular cylinder},
  author = {S. Parvar and K. T. Iqbal and M. N. Ardekani and L. Brandt and O. Tammisola},
  journal= {arXiv preprint arXiv:2303.09262},
  year   = {2023}
}
R2 v1 2026-06-28T09:20:04.574Z