Reversible Stream Drop Transition in a Microfluidic Coflow System via On Demand Exposure to Acoustic Standing Waves

E. Hemachandran, S. Z. Hoque, T. Laurell, and A. K. Sen

Phys. Rev. Lett. 127, 134501 – Published 20 September 2021

Abstract

Transition between stream and droplet regimes in a coflow is typically achieved by adjusting the capillary numbers (Ca) of the phases. Remarkably, we experimentally evidence a reversible transition between the two regimes by controlling exposure of the system to acoustic standing waves, with Ca fixed. By satisfying the ratio of acoustic radiation force to the interfacial tension force, ${Ca}_{ac} > 1$ , experiments reveal a reversible stream drop transition for $Ca < 1$ , and stream relocation for $Ca \geq 1$ . We explain the phenomenon in terms of the pinching, advection, and relocation timescales and a transition between convective and absolute instability from a linear stability analysis [P. Guillot et al., Phys. Rev. Lett. 99, 104502 (2007)].

Received 13 January 2021
Revised 16 July 2021
Accepted 18 August 2021

DOI:https://doi.org/10.1103/PhysRevLett.127.134501

Physics Subject Headings (PhySH)

Drop & bubble phenomena Drop breakup Microfluidics

Drops & bubbles

Fluid Dynamics

Authors & Affiliations

E. Hemachandran^1,*, S. Z. Hoque^1,*, T. Laurell², and A. K. Sen ^1,*,†

¹Fluid Systems Lab, Department of Mechanical Engineering, Indian Institute of Technology Madras, 600036 Chennai, India
²Division of Nanobiotechnology, Department of Biomedical Engineering, Lund University, 22363 Lund, Sweden

^*These authors contributed equally to this work.
^†Corresponding author. ashis@iitm.ac.in

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Vol. 127, Iss. 13 — 24 September 2021

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