. "RIV/00216305:26210/09:PU82870" . . "978-80-86407-81-4" . "Boh\u00E1\u010Dek, Jan" . . "S" . . "\u00DAstav geoniky AV\u010CR,v.v.i." . "Modelling of a Free-Falling Water Droplet, Handicap of CSF Approach and Its Improvement Design" . . "Vodn\u00ED paprsek" . "RIV/00216305:26210/09:PU82870!RIV10-MSM-26210___" . . "326822" . . "Ostrava" . "Modelling of a Free-Falling Water Droplet, Handicap of CSF Approach and Its Improvement Design" . "Ostrava" . "1"^^ . "9"^^ . "1"^^ . . "By nature, every water jet undergoes a secondary breakup from previously continuous substance to droplets. Generally, higher velocities lead into more distorted droplets, and a perfectly spherical droplet can be barely found then. However, in this study, slowly moving droplets of the circular shape were considered. The free-falling droplets (2 mm and 0.2 mm) were numerically solved to shed light on the flow field, their terminal velocity was calculated, and then some drawbacks in modelling of surface tension effects were shown. The commercial CFD package Fluent, specifically the Volume of Fluid Method with the continuous surface force model, was used. After all, several approaches were proposed to improve interface curvature estimation, and consequently to model surface tension effects more precisely." . . "Modelling of a Free-Falling Water Droplet, Handicap of CSF Approach and Its Improvement Design"@en . . "[BA89F08D32A9]" . . "Modelling of a Free-Falling Water Droplet, Handicap of CSF Approach and Its Improvement Design"@en . "26210" . "By nature, every water jet undergoes a secondary breakup from previously continuous substance to droplets. Generally, higher velocities lead into more distorted droplets, and a perfectly spherical droplet can be barely found then. However, in this study, slowly moving droplets of the circular shape were considered. The free-falling droplets (2 mm and 0.2 mm) were numerically solved to shed light on the flow field, their terminal velocity was calculated, and then some drawbacks in modelling of surface tension effects were shown. The commercial CFD package Fluent, specifically the Volume of Fluid Method with the continuous surface force model, was used. After all, several approaches were proposed to improve interface curvature estimation, and consequently to model surface tension effects more precisely."@en . . "2009-11-04+01:00"^^ . . . . . "free-falling droplet, terminal velocity, volume of fluid, surface tension"@en .