Ligament formation in sheared liquid–gas layers |
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| Authors: | Thomas Boeck Jie Li Enrique López-Pagés Philip Yecko Stéphane Zaleski |
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| Institution: | (1) Fachgebiet Thermo- und Fluiddynamik, TU Ilmenau, P.O. Box 100565, 98684 Ilmenau, Germany;(2) Department of Engineering, University of Cambridge, Trumpington Street, Cambridge, CB2 1PZ, UK;(3) Fluid Mechanics Department, Universidad de Zaragoza, Zaragoza, 50015, Spain;(4) Department of Mathematical Sciences, Montclair State University, Montclair, NJ 07043, USA;(5) Laboratoire de Modélisation en Mécanique, CNRS and Université Pierre et Marie Curie (Paris VI), 4 Place Jussieu, Paris, 75005, France |
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| Abstract: | We perform numerical simulations of two-phase liquid–gas sheared layers, with the objective of studying atomization. The Navier–Stokes equations for two-dimensional incompressible flow are solved in a periodic domain. A volume-of-fluid method is used to track the interface. The density ratio is kept around 10. The calculations show good agreement with a fully viscous Orr–Sommerfeld linear theory over several orders of magnitude of interface growth. The nonlinear development shows the growth of finger-like structures, or ligaments, and the detachment of droplets. The effect of the Weber and Reynolds numbers, the boundary layer width and the initial perturbation amplitude are discussed through a number of typical cases. Inversion of the liquid boundary layer is shown to yield more readily ligaments bending upwards and is thus more likely to produce droplets. |
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| Keywords: | Kelvin-Helmholtz instability Two-fluid mixing layer Atomization Multiphase shear flow Ligaments Droplet formation Ligament breakup Volume of fluid |
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