Linear instability of shear thinning pressure driven channel flow

Abstract: We study theoretically pressure driven planar channel flow of shear thinning viscoelastic fluids. Combining linear stability analysis and full nonlinear simulation, we study the instability of an initially one-dimensional base state to the growth of two-dimensional perturbations with wavevector in the flow direction. We do so within three widely used constitutive models: the microscopically motivated Rolie-Poly model, and the phenomenological Johnson-Segalman and White-Metzner models. In each model, we find in… Show more

“…Such a shear-thinning modification of elastic effects has also been observed in other types of flows (PEO in serpentine microchannel (Casanellas et al 2016), WMS flow past micropins (Haward et al 2020)). On the other hand, shear-thinning is known to be conditional for some elastic instabilities to develop, for example in viscoelastic (pressure driven) channel flows (Bodiguel et al 2015;Barlow et al 2019).…”

Shear-thinning mediation of elasto-inertial Taylor–Couette flow

“…Such a shear-thinning modification of elastic effects has also been observed in other types of flows (PEO in serpentine microchannel (Casanellas et al 2016), WMS flow past micropins (Haward et al 2020)). On the other hand, shear-thinning is known to be conditional for some elastic instabilities to develop, for example in viscoelastic (pressure driven) channel flows (Bodiguel et al 2015;Barlow et al 2019).…”

Shear-thinning mediation of elasto-inertial Taylor–Couette flow

Conditions of convective instability in a vertical circular microchannel with slippage effects

Flow Resistance and Structures in Viscoelastic Channel Flows at Low Re