Thermocapillary structure formation in a falling film: Experiment and calculations
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Publication:5755989
DOI10.1063/1.2187949zbMath1185.76439OpenAlexW2100369095MaRDI QIDQ5755989
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Publication date: 15 August 2007
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.2187949
Experimental work for problems pertaining to fluid mechanics (76-05) Thin fluid films (76A20) Capillarity (surface tension) for incompressible viscous fluids (76D45) Convection in hydrodynamic stability (76E06)
Related Items (9)
Linear stability of a volatile liquid film flowing over a locally heated surface ⋮ Nonmodal and nonlinear dynamics of a volatile liquid film flowing over a locally heated surface ⋮ The effect of evaporation on fingering instabilities ⋮ Stability of non-isothermal fluids (review) ⋮ Shear-driven flows of locally heated liquid films ⋮ Bifurcation in a thin liquid film flowing over a locally heated surface ⋮ Stabilization of thin liquid films flowing over locally heated surfaces via substrate topography ⋮ Mathematical and numerical modeling of convection in a horizontal layer under co-current gas flow ⋮ Robust low-dimensional modelling of falling liquid films subject to variable wall heating
Cites Work
- Deformation of the free surface in a moving locally-heated thin liquid layer
- 3D numerical simulation of regular structure formation in a locally heated falling film
- Evaporative instabilities in climbing films
- Instabilities of dynamic thermocapillary liquid layers. Part 1. Convective instabilities
- Nonlinear evolution of nonuniformly heated falling liquid films
- Instability of thermocapillary–buoyancy convection in shallow layers. Part 1. Characterization of steady and oscillatory instabilities
- A mechanism for rivulet formation in heated falling films
- Stability of Newtonian and viscoelastic dynamic contact lines
- On the instability of a falling film due to localized heating
- Marangoni instability of a thin liquid film heated from below by a local heat source
- On cellular convection driven by surface-tension gradients: effects of mean surface tension and surface viscosity
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