Thermotaxis of a deformable droplet in a confined Poiseuille flow

Panigrahi, Devi Prasad ; Karan, Pratyaksh ; Chakraborty, Suman (2022) Thermotaxis of a deformable droplet in a confined Poiseuille flow Journal of Fluid Mechanics, 944 . ISSN 0022-1120

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Official URL: http://doi.org/10.1017/jfm.2022.521

Related URL: http://dx.doi.org/10.1017/jfm.2022.521

Abstract

A droplet under a thermal gradient is known to migrate in a preferential direction, as governed by the variation of its interfacial tension with temperature. Contradicting the outcome of reported asymptotic analysis, here we show that the calculation of the droplet migration by considering the variation of interfacial tension with the imposed thermal field alone may be fundamentally incorrect. This error is attributed to the dynamically evolving interfacial temperature field due to a two-way coupling between the thermal field and the flow field, mediated by the droplet deformation and thermal diffusion. By directly capturing an inherent nonlinear coupling between the thermal field and the flow field using explicit interface tracking in a three-dimensional space, our boundary integral based analysis reveals that a linearly decreasing temperature profile imposed along the direction of a plane Poiseuille flow enhances the migration speed of the droplet in both the axial and cross-stream directions. This is in sharp contrast to a prediction of decelerated motion of the droplet under the same imposed thermal field, as obtained from asymptotic theory. We attribute this discrepancy to an alteration of the surface tension mediated interfacial stress due to the locally evolving temperature field, and a consequent concomitant alteration in the interfacial viscous stress to realize a tangential force balance at the interface. From scaling arguments, we show that the resulting change in the viscous drag force may occur over an order of magnitude, disrupting the outcome as compared to that obtained from asymptotic analysis. These results are likely to bear significant implications in controllable separation and sorting of deformable entities in confined fluidic media.

Item Type:Article
Source:Copyright of this article belongs to Cambridge University Press
ID Code:134646
Deposited On:10 Jan 2023 04:25
Last Modified:30 Jan 2023 08:59

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