Title Modelling of water droplets heat and mass transfer in the course of phase transitions. II: Peculiarities of the droplet radial coordinate and the time grid calibration /
Authors Miliauskas, Gintautas ; Adomavičius, Arvydas ; Maziukienė, Monika
DOI 10.15388/NA.2017.3.7
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Is Part of Nonlinear analysis: modelling and control.. Vilnius : Institute of Mathematics and Informatics. 2017, vol. 22, iss. 3, p. 386-403.. ISSN 1392-5113. eISSN 2335-8963
Keywords [eng] water droplets ; heat and mass transfer ; Fourier time scale ; phase transformation cycle ; numerical scheme ; optimal grid
Abstract [eng] This paper continues optimization of numerical solution algorithm of iterative scheme grid for the droplet task, which was presented in the first article of this series. Assumptions were made by optimal assessable number of members, which was already defined in numerical experiment in case of compound heat spread by conduction and radiation, and an unsteady temperature field was described by infinite integral equation sum. For the convenience of numerical analysis, droplet thermal parameters PT were described by universal Fourier criteria Fo and by dimensionless radial coordinate function PT (Fo, ŋ). This function is given in form of infinite integral equation sum with each thermal parameter having a distinct initial member and individually defined subsidiary function. This function is given in form of infinite integral equation sum with each thermal parameter having a distinct initial member and individually defined subsidiary function. The droplet time and radial coordinate grading change influence for calculated function graphs PT (Fo, ŋ) was evaluated by water droplets heat transfer and phase transformation numerical experiment. Summarizing by conduction and radiation heated water droplets thermal parameter variation patterns, a methodology of forming an optimal grid for droplet task iterative solving is provided.
Published Vilnius : Institute of Mathematics and Informatics
Type Journal article
Language English
Publication date 2017
CC license CC license description