Nonlinear instability of a thin film flowing down a smoothly deformed surface
From MaRDI portal
Publication:5303307
DOI10.1063/1.2750384zbMath1182.76184OpenAlexW2083444355MaRDI QIDQ5303307
Publication date: 18 March 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.2750384
Related Items (12)
Steady solution and spatial stability of gravity-driven thin-film flow: reconstruction of an uneven slippery bottom substrate ⋮ Weighted-residual integral boundary-layer model for the nonlinear dynamics of thin liquid films falling on an undulating vertical wall ⋮ Instability in gravity-driven flow over uneven surfaces ⋮ Bottom reconstruction in thin-film flow over topography: Steady solution and linear stability ⋮ An integral boundary layer equation for film flow over inclined wavy bottoms ⋮ Statistical analysis of pulsating non-Newtonian flow in a corrugated channel using lattice-Boltzmann method ⋮ Impact of the slip condition on the resonance of a film flow over an inclined slippery topography plate ⋮ Experimental evidence for a short-wave global mode in film flow along periodic corrugations ⋮ Flow domain identification from free surface velocity in thin inertial films ⋮ Effect of wall corrugations on scalar transfer to a wavy falling liquid film ⋮ Film flow over heated wavy inclined surfaces ⋮ Gravity-driven flow over heated, porous, wavy surfaces
Cites Work
- Creeping films with vortices over strongly undulated bottoms
- Long waves on a viscoelastic film flow down a wavy incline
- Instability of a liquid film flowing down an inclined wavy plane
- Local perturbation of thin film flow
- Computer aided analysis of viscous film flow along an inclined wavy wall
- Long-wave instabilities of heated falling films: two-dimensional theory of uniform layers
- Experimental characterization of viscous film flows over complex surfaces
- Flow of a thin fiom over a periodic surface
- Steady free-surface thin film flows over topography
- Time-dependent free-surface thin film flows over topography
- Generalized linear stability of noninertial coating flows over topographical features
- Influence of inertia, gravity, and substrate topography on the two-dimensional transient coating flow of a thin Newtonian fluid film
- Laminar film flow down a wavy incline
- Viscous liquid film flows over a periodic surface
- The flow of a liquid film along a periodic wall
- Instabilities of three-dimensional viscous falling films
- Gravity-driven flows of viscous liquids over two-dimensional topographies
- Experiments on laminar film flow along a periodic wall
- Long Waves on Liquid Films
- Three-Dimensional Long Waves on a Liquid Film
- Occurrence of Finite-Amplitude Surface Waves on Falling Liquid Films
- C<scp>OATING</scp> F<scp>LOWS</scp>
- Stability of Liquid Flow down an Inclined Plane
- Study of a laminar falling film flowing over a wavy wall column. I: Numerical investigation of the flow pattern and the coupled heat and mass transfer. II: Experimental validation of hydrodynamic model
This page was built for publication: Nonlinear instability of a thin film flowing down a smoothly deformed surface
