Long wave and lubrication theories for core-annular flow
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Publication:4001038
DOI10.1063/1.858157zbMath0746.76025OpenAlexW2074151564MaRDI QIDQ4001038
Kang Ping Chen, Daniel D. Joseph
Publication date: 26 September 1992
Published in: Physics of Fluids A: Fluid Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.858157
Related Items (7)
Wave formation in the gravity-driven low-Reynolds number flow of two liquid films down an inclined plane ⋮ An asymptotic theory for the linear stability of a core–annular flow in the thin annular limit ⋮ Stability of the interface in co-extrusion flow of two viscoelastic fluids through a pipe ⋮ Strongly nonlinear interfacial dynamics in core–annular flows ⋮ Stability and Breakup of Liquid Threads and Annular Layers in a Corrugated Tube with Zero Base Flow ⋮ Suppression of the capillary instability in the Rayleigh–Taylor slot problem ⋮ Longwave instability of two-layer dielectric fluid flows in a transverse electrostatic field
Cites Work
- Stability of core-annular flow with a small viscosity ratio
- Non-uniqueness and stability of the configuration of flow of immiscible fluids with different viscosities
- Lubricated pipelining: stability of core–annular flow. Part 4. Ginzburg–Landau equations
- Nonlinear interfacial stability of core-annular film flows
- Lubricated pipelining. Part 3 Stability of core-annular flow in vertical pipes
- Nonlinear instability at the interface between two viscous fluids
- Lubricated pipelining: stability of core-annular flow
- Instability due to viscosity stratification
- Long Waves on Liquid Films
- Instability due to Viscosity and Density Stratification in Axisymmetric Pipe Flow
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