Laminar Flow Deformation of a Droplet Adhering to a Wall in a Channel
ORAL
Abstract
We study the deformation of a droplet adhering to a solid, rigid wall in a rectangular channel induced by a pressure-driven flow of another fluid. Our experimental investigation involves the systematic study of the effects of initial droplet volume, flow rate, viscosity ratio and substrate wettability on the various modes of droplet motion and deformation. Our results probe the critical conditions at which detachment of the droplet from the surface, sliding, entrainment and deformation occur. Comparisons of our experimental results with numerical predictions will be made.
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Authors
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Gitanjali Seevaratnam
Post Doctoral Research Associate in Chemical Engineering
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Olivier Michel
Undergraduate Student
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Jerry Heng
Lecturer in Chemical Engineering
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Hang Ding
Imperial College London, Post Doctoral Research Associate in Chemical Engineering
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Peter Spelt
Imperial College London, Lecturer in Chemical Engineering, Department of Chemical Engineering, Imperial College London
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Omar Matar
Professor of Fluid Mechanics, Imperial College London, Department of Chemical Engineering, Imperial College London