Adaptive Lagrangian-Eulerian computation of propagation and rupture of a liquid plug in a tube
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Publication:2892501
DOI10.1002/fld.2422zbMath1378.76152OpenAlexW2043364323MaRDI QIDQ2892501
James Grotberg, Hideki Fujioka, Wei Shyy, Ez A. Hassan, Eray Uzgoren
Publication date: 18 June 2012
Published in: International Journal for Numerical Methods in Fluids (Search for Journal in Brave)
Full work available at URL: http://hdl.handle.net/2027.42/88023
Related Items (2)
Effects of surfactant on propagation and rupture of a liquid plug in a tube ⋮ The effect of viscoelasticity in an airway closure model
Cites Work
- Unnamed Item
- Multiphase computations using sharp and continuous interface techniques for micro-gravity applications
- A sharp interface method for incompressible two-phase flows
- Three-dimensional adaptive Cartesian grid method with conservative interface restructuring and reconstruction
- Spatially adaptive techniques for level set methods and incompressible flow
- A moving unstructured staggered mesh method for the simulation of incompressible free-surface flows.
- An accurate Cartesian grid method for viscous incompressible flows with complex immersed boundaries
- The immersed boundary method
- 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
- The propagation of a surfactant laden liquid plug in a capillary tube
- Nonlinear rupture of free films
- The Immersed Interface Method for Elliptic Equations with Discontinuous Coefficients and Singular Sources
- The propagation of a liquid bolus along a liquid-lined flexible tube
- Unsteady propagation of a liquid plug in a liquid-lined straight tube
- Liquid plug propagation in flexible microchannels: A small airway model
- A front-tracking method for the computations of multiphase flow.
- The immersed interface method for the Navier-Stokes equations with singular forces
- A fixed-grid, sharp-interface method for bubble dymamics and phase change.
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