Journal
PHYSICS OF FLUIDS
Volume 21, Issue 7, Pages -Publisher
AMER INST PHYSICS
DOI: 10.1063/1.3170983
Keywords
capillarity; drops; flow instability; flow separation; microchannel flow; viscosity
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Funding
- CNRS
- Ecole Superieure de Physique et Chimie de Paris
- MIT
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We perform experimental studies of droplet breakup in microfluidic T-junctions in a range of capillary numbers lying between 4x10(-4) and 2x10(-1) and for two viscosity ratios of the fluids forming the dispersed and continuous phases. The present paper extends the range of capillary numbers explored by previous investigators by two orders of magnitude. We single out two different regimes of breakup. In a first regime, a gap exists between the droplet and the wall before breakup occurs. In this case, the breakup process agrees well with the analytical theory of Leshansky and Pismen [Phys. Fluids 21, 023303 (2009)]. In a second regime, droplets keep obstructing the T-junction before breakup. Using physical arguments, we introduce a critical droplet extension for describing the breakup process in this case.
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