Liquid film dynamics in horizontal and tilted tubes: Dry spots and sliding drops

A. A. King, L. J. Cummings, S. Naire, Oliver E. Jensen

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    Using a model derived from lubrication theory, we consider the evolution of a thin viscous film coating the interior or exterior of a cylindrical tube. The flow is driven by surface tension and gravity and the liquid is assumed to wet the cylinder perfectly. When the tube is horizontal, we use large-time simulations to describe the bifurcation structure of the capillary equilibria appearing at low Bond number. We identify a new film configuration in which an isolated dry patch appears at the top of the tube and demonstrate hysteresis in the transition between rivulets and annular collars as the tube length is varied. For a tube tilted to the vertical, we show how a long initially uniform rivulet can break up first into isolated drops and then annular collars, which subsequently merge. We also show that the speed at which a localized drop moves down the base of a tilted tube is nonmonotonic in tilt angle. © 2007 American Institute of Physics.
    Original languageEnglish
    Article number042102
    JournalPhysics of Fluids
    Issue number4
    Publication statusPublished - Apr 2007


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