The rear meniscus of a long bubble steadily displacing a Newtonian liquid in a capillary tube
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Publication:3538973
DOI10.1063/1.869951zbMath1147.76395OpenAlexW1998462321MaRDI QIDQ3538973
María D. Giavedoni, Fernando A. Saita
Publication date: 17 November 2008
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.869951
Related Items (11)
Steady motion of Bingham liquid plugs in two-dimensional channels ⋮ Unsteady propagation of a liquid plug in a liquid-lined straight tube ⋮ Growth and collapse of a vapor bubble in a narrow tube ⋮ Taylor Bubbles in Small Channels: A Proper Guiding Measure for Validation of Numerical Methods for Interface Resolving Simulations ⋮ The effect of gravity on liquid plug propagation in a two-dimensional channel ⋮ The steady propagation of a surfactant-laden liquid plug in a two-dimensional channel ⋮ Numerical investigations on bubble-induced jetting and shock wave focusing: application on a needle-free injection ⋮ Low-Reynolds-number droplet motion in a square microfluidic channel ⋮ Motion of an oil droplet through a capillary with charged surfaces ⋮ Capillary ripples in thin viscous films ⋮ Boundary conditions for free surface inlet and outlet problems
Cites Work
- An extension of the biharmonic boundary integral method to free surface flow in channels
- The motion of long bubbles in tubes
- The Penetration of a Finger into a Viscous Fluid in a Channel and Tube
- Boundary Integral Analysis of the Creeping Flow of Long Bubbles in Capillaries
- A free surface flow with compositional-dependent interfacial properties
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