Computational fluid dynamics simulation of gas-liquid two phases flow in 320 m3 air-blowing mechanical flotation cell using different turbulence models

According to the recently developed single-trough floating machine with the world’s largest volume (inflatable mechanical agitation flotation machine with volume of 320 m 3 ) in China, the gas-fluid two-phase flow in flotation cell was simulated using computational fluid dynamics method. It is shown...

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Published inJournal of Central South University Vol. 22; no. 6; pp. 2385 - 2392
Main Authors Shen, Zheng-chang, Chen, Jian-hua, Zhang, Chen-hu, Liao, Xing-jin, Li, Yu-qiong
Format Journal Article
LanguageEnglish
Published Changsha Central South University 01.06.2015
Subjects
Engineering
Metallic Materials
flotation cell
gas-liquid two-phases flow
computational fluid dynamics (CFD) simulation
Online AccessGet full text
ISSN2095-2899
2227-5223
DOI10.1007/s11771-015-2764-7

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Abstract According to the recently developed single-trough floating machine with the world’s largest volume (inflatable mechanical agitation flotation machine with volume of 320 m 3 ) in China, the gas-fluid two-phase flow in flotation cell was simulated using computational fluid dynamics method. It is shown that hexahedral mesh scheme is more suitable for the complex structure of the flotation cell than tetrahedral mesh scheme, and a mesh quality ranging from 0.7 to 1.0 is obtained. Comparative studies of the standard k - ε , k - ω and realizable k - ε turbulence models were carried out. It is indicated that the standard k - ε turbulence model could give a result relatively close to the practice and the liquid phase flow field is well characterized. In addition, two obvious recirculation zones are formed in the mixing zones, and the pressure on the rotor and stator is well characterized. Furthermore, the simulation results using improved standard k - ε turbulence model show that surface tension coefficient of 0.072, drag model of Grace and coefficient of 4, and lift coefficient of 0.001 can be achieved. The research results suggest that gas-fluid two-phase flow in large flotation cell can be well simulated using computational fluid dynamics method.
AbstractList According to the recently developed single-trough floating machine with the world’s largest volume (inflatable mechanical agitation flotation machine with volume of 320 m 3 ) in China, the gas-fluid two-phase flow in flotation cell was simulated using computational fluid dynamics method. It is shown that hexahedral mesh scheme is more suitable for the complex structure of the flotation cell than tetrahedral mesh scheme, and a mesh quality ranging from 0.7 to 1.0 is obtained. Comparative studies of the standard k - ε , k - ω and realizable k - ε turbulence models were carried out. It is indicated that the standard k - ε turbulence model could give a result relatively close to the practice and the liquid phase flow field is well characterized. In addition, two obvious recirculation zones are formed in the mixing zones, and the pressure on the rotor and stator is well characterized. Furthermore, the simulation results using improved standard k - ε turbulence model show that surface tension coefficient of 0.072, drag model of Grace and coefficient of 4, and lift coefficient of 0.001 can be achieved. The research results suggest that gas-fluid two-phase flow in large flotation cell can be well simulated using computational fluid dynamics method.
Author Liao, Xing-jin
Chen, Jian-hua
Zhang, Chen-hu
Shen, Zheng-chang
Li, Yu-qiong
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gas-liquid two-phases flow
computational fluid dynamics (CFD) simulation
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Snippet According to the recently developed single-trough floating machine with the world’s largest volume (inflatable mechanical agitation flotation machine with...
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Title Computational fluid dynamics simulation of gas-liquid two phases flow in 320 m3 air-blowing mechanical flotation cell using different turbulence models
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