A falling film down a slippery inclined plane
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Publication:2891910
DOI10.1017/jfm.2011.304zbMath1241.76217OpenAlexW2112332880MaRDI QIDQ2891910
B. Goyeau, Arghya Samanta, C. Ruyer-Quil
Publication date: 15 June 2012
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/jfm.2011.304
Related Items (26)
Inertial effects on thin-film wave structures with imposed surface shear on an inclined plane ⋮ Shear-imposed falling film ⋮ Steady solution and spatial stability of gravity-driven thin-film flow: reconstruction of an uneven slippery bottom substrate ⋮ Role of odd viscosity in falling viscous fluid ⋮ Modeling and analysis of two electrified films flow traveling down between inclined permeable parallel substrates ⋮ Multi-regime shallow free surface laminar flow models for quasi-Newtonian fluids ⋮ Falling film on an anisotropic porous medium ⋮ Role of slip in the stability of viscoelastic liquid flow through a channel ⋮ A long-wave model for film flow inside a tube with slip ⋮ Marangoni stability of a thin liquid film falling down above or below an inclined thick wall with slip ⋮ Wave dynamics of a viscoelastic liquid ⋮ Thermocapillary thin film flows on a slippery substrate with odd viscosity effects ⋮ Impact of the slip condition on the resonance of a film flow over an inclined slippery topography plate ⋮ Water film falling down an ice sheet ⋮ Effects of velocity slip on the inertialess instability of a contaminated two-layer film flow ⋮ A falling film on a porous medium ⋮ Weak Discontinuities in Solutions of Long‐Wave Equations for Viscous Flow ⋮ Effect of porous layer on the Faraday instability in viscous liquid ⋮ Hydroelastic response of a floating plate on the falling film: a stability analysis ⋮ Wavy liquid films in interaction with a confined laminar gas flow ⋮ Non-similar solutions of the boundary layers equations with favorable and adverse pressure gradients, isothermal wall and slip boundary conditions: application to Falkner-Skan gaseous flow ⋮ A model of two viscoelastic liquid films traveling down in an inclined electrified channel ⋮ Numerical study of the surfactant-covered falling film flowing down a flexible wall ⋮ Falling liquid films with blowing and suction ⋮ Hydrodynamic instability and wave formation of a viscous film flowing down a slippery inclined substrate: effect of odd-viscosity ⋮ Thin film flow down a porous substrate in the presence of an insoluble surfactant: Stability analysis
Uses Software
Cites Work
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