Solid/liquid Mixing Pattern and its Comparison with Liquid/liquid One in a Mechanically- stirred Vessel

Solid/liquid mixing pattern was investigated and compared with the liquid/liquid one in a mechanically-stirred vessel. The cold model experiment was carried out to make clear the effect of operating factors such as volumetric ratio of solid particles to liquid, rotation speed, impeller position, etc...

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Published inTetsu-to-Hagane Vol. 102; no. 4; pp. 196 - 201
Main Authors Uddin, Md. Azhar, Kato, Yoshiei, Shiba, Ryutaro
Format Journal Article
LanguageJapanese
Published The Iron and Steel Institute of Japan 2016
Subjects
liquid/liquid
mass transfer
mechanical stirring
mixing pattern
particles
slag-metal reaction
solid/liquid
steelmaking
Online AccessGet full text
ISSN0021-1575
1883-2954
DOI10.2355/tetsutohagane.TETSU-2015-100

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Abstract Solid/liquid mixing pattern was investigated and compared with the liquid/liquid one in a mechanically-stirred vessel. The cold model experiment was carried out to make clear the effect of operating factors such as volumetric ratio of solid particles to liquid, rotation speed, impeller position, etc. on the mixing pattern. The solid/liquid mixing pattern was observed visually and the vortex depth of solid/liquid or gas/liquid interface was measured with a ruler. It was categorized into 3 types as well as the liquid/liquid mixing pattern. I: the region where solid particles have no dispersion, II: the region where some of the solid particles disperse into liquid, III: the region where almost all of the solid particles disperse into liquid. The solid/liquid mixing pattern transits from I to II, and from II to III as the impeller depth decreased and the rotation speed increased. The transition of I-II shifted to a higher rotation speed in cases of smaller volumetric ratio of solid to liquid, larger particles diameter, larger density difference between solid-liquid and smaller liquid viscosity. The transition of II-III shifted to the higher rotation speed in cases of smaller impeller diameter and larger liquid viscosity, and showed independency on volumetric ratio of solid to liquid, particles diameter and density difference between solid and liquid. Multi regression analysis on the transition of I-II showed that the calculation agreed with the measurement. Dimensionless correlation equation on the transition of II-III also showed a good agreement between calculation and measurement and it was adaptable to liquid/liquid system.
AbstractList Solid/liquid mixing pattern was investigated and compared with the liquid/liquid one in a mechanically-stirred vessel. The cold model experiment was carried out to make clear the effect of operating factors such as volumetric ratio of solid particles to liquid, rotation speed, impeller position, etc. on the mixing pattern. The solid/liquid mixing pattern was observed visually and the vortex depth of solid/liquid or gas/liquid interface was measured with a ruler. It was categorized into 3 types as well as the liquid/liquid mixing pattern. I: the region where solid particles have no dispersion, II: the region where some of the solid particles disperse into liquid, III: the region where almost all of the solid particles disperse into liquid. The solid/liquid mixing pattern transits from I to II, and from II to III as the impeller depth decreased and the rotation speed increased. The transition of I-II shifted to a higher rotation speed in cases of smaller volumetric ratio of solid to liquid, larger particles diameter, larger density difference between solid-liquid and smaller liquid viscosity. The transition of II-III shifted to the higher rotation speed in cases of smaller impeller diameter and larger liquid viscosity, and showed independency on volumetric ratio of solid to liquid, particles diameter and density difference between solid and liquid. Multi regression analysis on the transition of I-II showed that the calculation agreed with the measurement. Dimensionless correlation equation on the transition of II-III also showed a good agreement between calculation and measurement and it was adaptable to liquid/liquid system.
Author Shiba, Ryutaro
Uddin, Md. Azhar
Kato, Yoshiei
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  organization: Department of Material and Energy Science, Graduate School of Environmental and Life Science, Okayama University
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  fullname: Kato, Yoshiei
  organization: Department of Material and Energy Science, Graduate School of Environmental and Life Science, Okayama University
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  fullname: Shiba, Ryutaro
  organization: Department of Material and Energy Science, Graduate School of Environmental and Life Science, Okayama University
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References_xml – reference: 10) S. Sato, T. Ohmi and M Iguchi: J. JSEM., 9(2009), Special Issue, 119.
– reference: 12) S. Horiuchi, Md.A.Uddin, Y.Kato, Y.Takahashi and Y.Uchida: ISIJ Int., 54(2014), 87.
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Snippet Solid/liquid mixing pattern was investigated and compared with the liquid/liquid one in a mechanically-stirred vessel. The cold model experiment was carried...
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StartPage 196
SubjectTerms liquid/liquid
mass transfer
mechanical stirring
mixing pattern
particles
slag-metal reaction
solid/liquid
steelmaking
Title Solid/liquid Mixing Pattern and its Comparison with Liquid/liquid One in a Mechanically- stirred Vessel
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