Multiscale flow in an electro-hydrodynamically driven oil-in-oil emulsion

Atul Varshney; Smita Gohil; Mayur Sathe; Seshagiri Rao R V; J. B. Joshi; S. Bhattacharya; Anand Yethiraj; Shankar Ghosh

doi:10.1039/C5SM02316E

Multiscale flow in an electro-hydrodynamically driven oil-in-oil emulsion†

Atul Varshney,*^ab Smita Gohil,^b Mayur Sathe,^c Seshagiri Rao R V,^d J. B. Joshi,^e S. Bhattacharya,^b Anand Yethiraj*^df and Shankar Ghosh*^b

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* Corresponding authors

^a Department of Physics of Complex Systems, Weizmann Institute of Science, Rehovot 76100, Israel
E-mail: atul.varshney@weizmann.ac.il

^b Department of Condensed Matter Physics and Materials Science, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400 005, India
E-mail: sghosh@tifr.res.in

^c Cain Department of Chemical Engineering, Louisiana State University, LA 70803, USA

^d TIFR Centre for Interdisciplinary Sciences, Osman Sagar Road, Narsingi, Hyderabad 500 075, India

^e Homi Bhabha National Institute, Anushaktinagar, Mumbai 400 094, India

^f Department of Physics and Physical Oceanography, Memorial University, St. John's, Newfoundland Labrador, Canada
E-mail: ayethiraj@mun.ca

Abstract

Efficient mixing strategies in a fluid involve generation of multi-scale flows which are strongly suppressed in highly viscous systems. In this work, we report a novel form of multi-scale flow, driven by an external electric field, in a highly viscous (η ∼ 1 Pa s) oil-in-oil emulsion system consisting of micron-size droplets. This electro-hydrodynamic flow leads to dynamical organization at spatial scales much larger than that of the individual droplets. We characterize the dynamics associated with these structures by measuring the time variation of the bulk Reynolds stress in a rheometer, as well as through a micro-scale rheometric measurement by probing the spectrum of fluctuations of a thin fiber cantilever driven by these flows. The results display scale invariance in the energy spectra over three decades with a power law reminiscent of turbulent convection. We also demonstrate the mixing efficiency in such micro-scale systems.

Article information

https://doi.org/10.1039/C5SM02316E

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Paper

Submitted

14 Sep 2015

Accepted

09 Dec 2015

First published

09 Dec 2015

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Soft Matter, 2016,12, 1759-1764

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Multiscale flow in an electro-hydrodynamically driven oil-in-oil emulsion

A. Varshney, S. Gohil, M. Sathe, S. R. R V, J. B. Joshi, S. Bhattacharya, A. Yethiraj and S. Ghosh, Soft Matter, 2016, 12, 1759 DOI: 10.1039/C5SM02316E

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Soft Matter

Multiscale flow in an electro-hydrodynamically driven oil-in-oil emulsion†

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Multiscale flow in an electro-hydrodynamically driven oil-in-oil emulsion

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