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Unsteady motion past a sphere translating steadily in wormlike micellar solutions: a numerical analysis

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dc.contributor.author Sasmal, C.
dc.date.accessioned 2021-08-01T09:50:41Z
dc.date.available 2021-08-01T09:50:41Z
dc.date.issued 2021-08-01
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/2302
dc.description.abstract This study numerically investigates the flow characteristics past a solid and smooth sphere translating steadily along the axis of a cylindrical tube filled with wormlike micellar solutions in the creeping flow regime. The two-species Vasquez–Cook–McKinley and single-species Giesekus constitutive models are used to characterize the rheological behaviour of the micellar solutions. Once the Weissenberg number exceeds a critical value, an unsteady motion downstream of the sphere is observed in the case of the two-species model. We provide evidence that this unsteady motion downstream of the sphere is caused by the sudden rupture of long and stretched micelles in this region, resulting from an increase in the extensional flow strength. The corresponding single-species Giesekus model for the wormlike micellar solution, with no breakage and reformation, predicts a steady flow field under otherwise identical conditions. Therefore, it further provides evidence presented herein for the onset of this unsteady motion. Furthermore, we find that the onset of this unsteady motion downstream of the sphere is delayed as the ratio of sphere to tube diameter decreases. A similar kind of unsteady motion has also been observed in several earlier experiments for the problem of a sphere sedimenting in a tube filled with wormlike micellar solutions. We find a remarkable qualitative similarity in the flow characteristics between the present numerical results for a steadily translating sphere and prior experimental results for a falling sphere. en_US
dc.language.iso en_US en_US
dc.subject polymers en_US
dc.subject rheology en_US
dc.title Unsteady motion past a sphere translating steadily in wormlike micellar solutions: a numerical analysis en_US
dc.type Article en_US


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