Artículo
The initial impact of drops cushioned by an air or vapour layer with applications to the dynamic Leidenfrost regime
Autor/es | Gordillo Arias de Saavedra, José Manuel
Riboux, Guillaume Maurice |
Departamento | Universidad de Sevilla. Departamento de Ingeniería Aeroespacial y Mecánica de Fluidos |
Fecha de publicación | 2022-06-25 |
Fecha de depósito | 2022-08-25 |
Publicado en |
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Resumen | This work is devoted to the study of the conditions under which a drop directed normally towards a superheated or isothermal smooth substrate prevents the initial contact with the solid by skating over a micrometre-sized ... This work is devoted to the study of the conditions under which a drop directed normally towards a superheated or isothermal smooth substrate prevents the initial contact with the solid by skating over a micrometre-sized vapour or air layer. The results have been obtained analysing the gas flow at the spatio-temporal region where the maximum liquid pressure is attained, which is also where and when the minimum values of the film thickness are reached. For the common case in which WeSt−1/6≳1, where We=ρlU2R/γ and St=ρlUR/ηa denote, respectively, the Weber and Stokes numbers, we find that capillary effects are negligible and the ratio between the minimum film thickness and the local drop radius of curvature is hm/R∝St−7/6, with ρl, γ, ηa, U and R indicating the liquid density, interfacial tension coefficient, gas viscosity, impact velocity and drop radius, respectively. In contrast, when WeSt−1/6≲1, capillary effects can no longer be neglected and hm/R∝We−1/3St−10/9. The predicted values of the minimum film thickness are compared with published experimental data, finding good agreement between predictions and measurements for the cases of both isothermal and superheated substrates. In addition, using mass conservation, we have also deduced an equation providing the minimum value of the substrate temperature for which a cylindrical central vapour bubble of constant height hd/R∝St−2/3, with hd≫hm, grows radially at the wetting velocity deduced in Riboux & Gordillo (Phys. Rev. Lett., vol. 113, 2014, 024507). The predicted values are in good agreement with the dynamic Leidenfrost temperatures reported by Shirota et al. (Phys. Rev. Lett., vol. 116, 2016, 064501). |
Identificador del proyecto | PID2020-115655G |
Cita | Gordillo Arias de Saavedra, J.M. y Riboux, G.M. (2022). The initial impact of drops cushioned by an air or vapour layer with applications to the dynamic Leidenfrost regime. Journal of Fluid Mechanics, 941, A10. |
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