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Računalniška simulacija konvektivnega vrenja z uporabo populacijskega modela velikosti mehurčkov
ID Gajšek, Aljoša (Author), ID Končar, Boštjan (Mentor) More about this mentor... This link opens in a new window, ID Tekavčič, Matej (Comentor)

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Abstract
V magistrskem delu so predstavljeni rezultati simulacije konvektivnega vrenja v navpičnem kanalu, ki smo jih izvedli s programom za računalniško dinamiko tekočin ANSYS Fluent. Uporabili smo Eulerjev dvofluidni pristop, ki temelji na fazno povprečenih fizikalnih količinah. Modelirali smo turbulenco, medfazni prenos gibalne količine, energije in mase. Za modeliranje vrenja na steni smo uporabili model razdelitve toplotnega toka. Velikost mehurčka smo modelirali s populacijskim modelom, ki upošteva rast mehurčkov zaradi uparjanja, krčenje zaradi kondenzacije, združevanje zaradi trkov in razpade zaradi turbulence. Rezultate smo primerjali s tremi različnimi eksperimentalnimi primeri DEBORA eksperimentov pri različnih pogojih. Primerjali smo porazdelitve glavnih parametrov dvofaznega toka, kot so volumski delež pare, povprečna velikost mehurčkov in temperatura kapljevine. Na enem primeru smo podrobneje raziskali delovanje populacijskega modela. Analizirali smo vpliv števila velikostnih razredov mehurčkov, temperature kapljevine in stene ter modela razdelitve toplotnega toka.

Language:Slovenian
Keywords:populacijska enačba, vrenje, kondenzacija, mehurčki, ANSYS Fluent, DEBORA, Eulerjev dvofluidni model, model razdelitve toplotnega toka, turbulenca
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FMF - Faculty of Mathematics and Physics
Year:2022
PID:20.500.12556/RUL-140057 This link opens in a new window
COBISS.SI-ID:120957187 This link opens in a new window
Publication date in RUL:10.09.2022
Views:1922
Downloads:112
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Secondary language

Language:English
Title:Computational simulation of convective boiling using population balance model
Abstract:
In this master thesis the results of convective boiling simulations using the ANSYS Fluent code are presented. The two-phase flow is described using the Eulerian two-fluid model framework, that is based on the phase averaged equations. Simulations are done with consideration of turbulent momentum, heat and mass transfer between the phases. For wall boiling the heat partitioning model is used. Bubble sizes are modelled using the population balance model that accounts for bubble growth and shrinkage due to evaporation and condensation, coalescence due to collisions and breakage due to turbulence. Simulation results are compared with the experimental results of three different DEBORA cases at different operating conditions. Distributions of main two-phase flow parameters such as void fraction, the average bubble size and the liquid temperature are compared. On one of the cases, the population balance model is studied in more detail. The influence of bubble classes, the liquid temperature, the wall temperate and the effect of heat flux partitioning model is analysed.

Keywords:population balance model, boiling, condensation, bubbles, ANSYS Fluent, DEBORA, Eulerian two-fluid model, heat flux partitioning model, turbulence

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