Dynamics of falling films on the outside of a vertical rotating cylinder: waves, rivulets and dripping transitions
Falling liquid films on the underside of a plate or on the outside of a rotating cylinder are subject to a destabilizing body force. The evolution of the film topology is determined by interactions between the Kapitza and the Rayleigh–Taylor instability, leading to complex patterning of the film sur...
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| Published in | Journal of fluid mechanics Vol. 832; pp. 189 - 211 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge, UK
Cambridge University Press
10.12.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-1120 1469-7645 |
| DOI | 10.1017/jfm.2017.657 |
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| Abstract | Falling liquid films on the underside of a plate or on the outside of a rotating cylinder are subject to a destabilizing body force. The evolution of the film topology is determined by interactions between the Kapitza and the Rayleigh–Taylor instability, leading to complex patterning of the film surface and eventually fluid detachment from the substrate. This study experimentally investigates the evolution of the surface topology for a film on the outside of a vertical rotating cylinder of large radius. Shear at the liquid/air interface is suppressed through an outer, co-rotating cylinder. The film evolution is captured through high speed visualization in dependence of the control parameters, namely Reynolds number and rotation frequency. An increasing influence of the Rayleigh–Taylor instability for an increasing destabilizing body force (increasing rotational speed of the cylinder) is most notably observed in the form of a decreasing inception length of rivulet structures dominating the film topology. Wavelength as well as inception length of rivulets match the predictions from linear stability analysis of the classical Rayleigh–Taylor problem. In this context, experimental and supporting numerical results suggest that the emergence of rivulets occurs for any non-zero value of the destabilizing body force after a given evolution length that decreases with increasing body force. Fluid detachment from the substrate is found to be intimately related to the existence of rivulet structures. In dependence of the control parameters, detaching droplets are either observed as a result of interactions of solitary pulses of varying phase speed on rivulets, directly after destabilization of two-dimensional waves into rivulets or immediately at the fluid inlet. By comparison to the convective/absolute instability transition predicted by linear stability analysis of an integral boundary layer formulation of the problem in question, it is shown that the prediction of a predominant dripping mechanism lies beyond the scope of linear analysis. |
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| AbstractList | Falling liquid films on the underside of a plate or on the outside of a rotating cylinder are subject to a destabilizing body force. The evolution of the film topology is determined by interactions between the Kapitza and the Rayleigh-Taylor instability, leading to complex patterning of the film surface and eventually fluid detachment from the substrate. This study experimentally investigates the evolution of the surface topology for a film on the outside of a vertical rotating cylinder of large radius. Shear at the liquid/air interface is suppressed through an outer, co-rotating cylinder. The film evolution is captured through high speed visualization in dependence of the control parameters, namely Reynolds number and rotation frequency. An increasing influence of the Rayleigh-Taylor instability for an increasing destabilizing body force (increasing rotational speed of the cylinder) is most notably observed in the form of a decreasing inception length of rivulet structures dominating the film topology. Wavelength as well as inception length of rivulets match the predictions from linear stability analysis of the classical Rayleigh-Taylor problem. In this context, experimental and supporting numerical results suggest that the emergence of rivulets occurs for any non-zero value of the destabilizing body force after a given evolution length that decreases with increasing body force. Fluid detachment from the substrate is found to be intimately related to the existence of rivulet structures. In dependence of the control parameters, detaching droplets are either observed as a result of interactions of solitary pulses of varying phase speed on rivulets, directly after destabilization of two-dimensional waves into rivulets or immediately at the fluid inlet. By comparison to the convective/absolute instability transition predicted by linear stability analysis of an integral boundary layer formulation of the problem in question, it is shown that the prediction of a predominant dripping mechanism lies beyond the scope of linear analysis. |
| Author | Kofman, Nicolas Scheid, Benoit Kneer, Reinhold Gallaire, François Rohlfs, Wilko Rietz, Manuel |
| Author_xml | – sequence: 1 givenname: Manuel orcidid: 0000-0003-2428-2447 surname: Rietz fullname: Rietz, Manuel email: rietz@wsa.rwth-aachen.de organization: Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen, Germany – sequence: 2 givenname: Benoit surname: Scheid fullname: Scheid, Benoit organization: TIPs, Université Libre de Bruxelles, Avenue F.D. Roosevelt 50, 1050 Bruxelles, Belgium – sequence: 3 givenname: François orcidid: 0000-0002-3029-1457 surname: Gallaire fullname: Gallaire, François organization: Laboratory of Fluid Mechanics and Instabilities, EPFL, 1015 Lausanne, Switzerland – sequence: 4 givenname: Nicolas surname: Kofman fullname: Kofman, Nicolas organization: Laboratory of Fluid Mechanics and Instabilities, EPFL, 1015 Lausanne, Switzerland – sequence: 5 givenname: Reinhold surname: Kneer fullname: Kneer, Reinhold organization: Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen, Germany – sequence: 6 givenname: Wilko surname: Rohlfs fullname: Rohlfs, Wilko organization: Institute of Heat and Mass Transfer, RWTH Aachen University, Augustinerbach 6, 52056 Aachen, Germany |
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| Snippet | Falling liquid films on the underside of a plate or on the outside of a rotating cylinder are subject to a destabilizing body force. The evolution of the film... |
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| SubjectTerms | Aerodynamics Boundary layer stability Boundary layer transition Boundary layers Computational fluid dynamics Cylinders Destabilization Detaching Dynamics Evolution Falling liquid films Fluid flow Fluids Gas absorption High speed Instability Interactions Length Linear analysis Parameters Phase velocity Plates (structural members) Predictions Reynolds number Rotating bodies Rotating cylinders Rotation Stability Stability analysis Structures Studies Substrates Taylor instability Topology Wavelength |
| Title | Dynamics of falling films on the outside of a vertical rotating cylinder: waves, rivulets and dripping transitions |
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