Flow regimes for the immiscible liquid–liquid displacement in capillary tubes with complete wetting of the displaced liquid
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Publication:3550463
DOI10.1017/S0022112009991546zbMath1183.76698MaRDI QIDQ3550463
Roney L. Thompson, Edson J. Soares
Publication date: 31 March 2010
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Related Items (2)
Further remarks on numerical investigation on gas displacement of a shear-thinning liquid and a visco-plastic material in capillary tubes ⋮ The motion of long drops in rectangular microchannels at low capillary numbers
Cites Work
- Numerical investigation on gas-displacement of a shear-thinning liquid and a visco-plastic material in capillary tubes
- Experimental studies of multi-layer flows using a visco-plastic lubricant
- Transient displacement of Newtonian and viscoplastic liquids by air in complex tubes
- Gas displacement of viscoplastic liquids in capillary tubes
- Discretization of free surface flows and other moving boundary problems
- A quasi-elliptic transformation for moving boundary problems with large anisotropic deformations.
- Transient displacement of a viscoplastic material by air in straight and suddenly constricted tubes.
- A Newton-Raphson pseudo-solid domain mapping technique for free and moving boundary problems: A finite element implementation
- On the gas-penetration in straight tubes completely filled with a viscoelastic fluid
- Deposition of a viscous fluid on the wall of a tube
- The motion of long bubbles in tubes
- Motion of a drop along the centreline of a capillary in a pressure-driven flow
- Axisymmetric creeping motion of drops through circular tubes
- Static wall layers in the displacement of two visco-plastic fluids in a plane channel
- The motion of a viscous drop through a cylindrical tube
- On driving a viscous fluid out of a tube
- Effect of gas expansion on the velocity of a Taylor bubble: PIV measurements
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