Temat: gas distribution - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Analysis of the mechanism of gas bubble break-up in liquids during the self-aspirating impeller operation
Autorzy:: Stelmach, J.
Kuncewicz, Cz.
Musoski, R.
Powiązania:: https://bibliotekanauki.pl/articles/185320.pdf
Data publikacji:: 2016
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: self-aspirating impeller
PIV
gas bubble size distribution
energy dissipation rate
gas bubble sizes
pęcherzyk gazu
rozpraszanie energii
Opis:: Feasibility of a model of gas bubble break-up and coalescence in an air-lift column enabling determination of bubble size distributions in a mixer with a self-aspirating impeller has been attempted in this paper. According to velocity measurements made by the PIV method with a self-aspirating impeller and Smagorinski’s model, the spatial distribution of turbulent energy dissipation rate close to the impeller was determined. This allowed to positively verify the dependence of gas bubble velocity used in the model, in relation to turbulent energy dissipation rate. Furthermore, the range of the eddy sizes capable of breaking up the gas bubbles was determined. The verified model was found to be greatly useful, but because of the simplifying assumptions some discrepancies of experimental and model results were observed.
Źródło:: Chemical and Process Engineering; 2016, 37, 3; 441-457
0208-6425
2300-1925
Pojawia się w:: Chemical and Process Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: CFD prediction of gas-liquid flow in an aerated stirred vessel using the population balance model
Autorzy:: Kálal, Z.
Jahoda, M.
Fořt, I.
Powiązania:: https://bibliotekanauki.pl/articles/185765.pdf
Data publikacji:: 2014
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: CFD
mixing tank
gas-liquid
drag correction
bubble size distribution
zbiornik mieszający
gaz-ciecz
korekta przeciągania
rozkład wielkości pęcherzyków
Opis:: The main topic of this study is the experimental measurement and mathematical modelling of global gas hold-up and bubble size distribution in an aerated stirred vessel using the population balance method. The air-water system consisted of a mixing tank of diameter T= 0.29 m, which was equipped with a six-bladed Rushton turbine. Calculations were performed with CFD software CFX 14.5. Turbulent quantities were predicted using the standard k-ε turbulence model. Coalescence and breakup of bubbles were modelled using the homogeneous MUSIG method with 24 bubble size groups. To achieve a better prediction of the turbulent quantities, simulations were performed with much finer meshes than those that have been adopted so far for bubble size distribution modelling. Several different drag coefficient correlations were implemented in the solver, and their influence on the results was studied. Turbulent drag correction to reduce the bubble slip velocity proved to be essential to achieve agreement of the simulated gas distribution with experiments. To model the disintegration of bubbles, the widely adopted breakup model by Luo & Svendsen was used. However, its applicability was questioned.
Źródło:: Chemical and Process Engineering; 2014, 35, 1; 55-73
0208-6425
2300-1925
Pojawia się w:: Chemical and Process Engineering
Dostawca treści:: Biblioteka Nauki

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