INSTITUTIONAL DIGITAL REPOSITORY

Deformation transients of confined droplets within interacting electric and magnetic field environment

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dc.contributor.author Gupta, P
dc.contributor.author Dhar, P
dc.contributor.author Samanta, D
dc.date.accessioned 2024-06-09T15:21:03Z
dc.date.available 2024-06-09T15:21:03Z
dc.date.issued 2024-06-09
dc.identifier.uri http://dspace.iitrpr.ac.in:8080/xmlui/handle/123456789/4592
dc.description.abstract Abstract: A theoretical exploration and an analytical model for the electro-magneto-hydrodynamics (EMHD) of leaky dielectric liquid droplets suspended in an immiscible confined fluid domain have been presented. The analytical solution for the system, under small deformation approximation in the creeping flow regime, has been put forward. The study of droplet deformation suggests that its temporal evolution is exponential and dependent on the electric and magnetic field interaction. Furthermore, the direction of the applied magnetic field relative to the electric field determines whether the magnetic force opposes or facilitates the interfacial net electrical force caused by the electric field. Validation of the proposed model at the asymptotic limits of vanishing magnetic field shows that the model accurately reduces to the case of the transient electrohydrodynamic model. We also propose a magnetic discriminating function (⁠ ⁠) to quantify the steady-state droplet deformation in the presence of interacting electric and magnetic fields. The change of droplets from a spherical shape to prolate and oblate spheroids corresponds to  0 and < 0 regimes, respectively. It is shown that a substantial augmentation in the deformation parameter and the associated EMHD circulation within and around the droplet is achieved when aided by a low-magnitude magnetic field. The analysis also reveals the deformation lag and specific critical parameters that aid or suppress this lag behavior, discussed in terms of relevant non-dimensional parameters. en_US
dc.language.iso en_US en_US
dc.title Deformation transients of confined droplets within interacting electric and magnetic field environment en_US
dc.type Article en_US


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