Influence of inertia, gravity, and substrate topography on the two-dimensional transient coating flow of a thin Newtonian fluid film
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Publication:3555358
DOI10.1063/1.1336154zbMath1184.76279OpenAlexW2009714222MaRDI QIDQ3555358
Roger E. Khayat, Saralynn R. Welke
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1336154
Related Items (13)
A low-dimensional spectral approach for transient axisymmetric free-surface flow inside thin cavities of arbitrary shape ⋮ Spread of a non-Newtonian liquid jet over a horizontal plate ⋮ Nonlinear instability of a thin film flowing down a smoothly deformed surface ⋮ The transient spread of a circular liquid jet and hydraulic jump formation ⋮ A spectral approach to thin jet flow ⋮ Effect of substrate movement on shock formation in pressure-driven coating flow ⋮ Influence of inertia on the transient axisymmetric free-surface flow inside thin cavities of arbitrary shape ⋮ Influence of inertia and topography in thin-cavity flow ⋮ Influence of initial conditions on transient two-dimensional thin-film flow ⋮ Steady and transient thin-jet flow ⋮ Transient two-layer thin-film flow ⋮ Inertia dominated thin-film flows over microdecorated surfaces ⋮ Initial development of a free-surface wall jet at moderate Reynolds number
Cites Work
- A unified treatment of steady-state shallow water and two-dimensional Navier-Stokes equations. Finite element penalty function approach
- Transient free-surface flow inside thin cavities of viscoelastic fluids
- Long waves on inclined films at high Reynolds number
- A low-dimensional approach to nonlinear plane-Couette flow of viscoelastic fluids
- Steady free-surface thin film flows over topography
- Low-dimensional models for complex geometry flows: Application to grooved channels and circular cylinders
- Finite-amplitude Taylor-vortex flow of viscoelastic fluids
- The radial spread of a liquid jet over a horizontal plane
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