2022-Sustainable Industrial Processing Summit
SIPS2022 Volume 11 Poveromo Intl. Symp. Advanced Iron & Steel Making and Production of Ferro-alloys

Editors:F. Kongoli, G.Brooks, P. Butterworth, M. Geerdes, Y. Gordon, M. Grant, L. Lu, D. Lu, K. Saito, H. Sohn, T. Usui.
Publisher:Flogen Star OUTREACH
Publication Year:2022
Pages:276 pages
ISBN:978-1-989820-54-4(CD)
ISSN:2291-1227 (Metals and Materials Processing in a Clean Environment Series)
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    MASS TRANSFER BETWEEN SOLID AND LIQUID PHASES RELATED TO SUSPENSION PATTERN OF LIGHT OR HEAVY DENSITY OF SOLID PARTICLES IN A MECHANICALLY STIRRED VESSEL

    Yoshiei Kato1; Md. Azhar Uddin1;
    1OKAYAMA UNIVERSITY, Okayama, Japan;
    Type of Paper: Regular
    Id Paper: 270
    Topic: 2

    Abstract:

    The mass transfer rate between different phases such as solid/liquid and liquid/liquid is important to control the slag/metal reaction in the pyrometallurgy field. The solid/liquid mass transfer rate was changed by the suspension patterns of sedimentary particles [1, 2] and floated ones [3, 4] in an impeller stirring. When the stagnant particles partially suspend into liquid, the mass transfer rate began to enhance rapidly, and it was promoted by the collision of lighter density of particles with the impeller and the irregular dispersion into the liquid phase. The liquid/liquid mass transfer rate was also affected by the collision of lighter density of liquid with the impeller [5, 6]. The liquid/liquid flow characteristics of impeller stirring were investigated by a two-dimensional PIV experiment and a computational fluid dynamics (CFD) technique [7] and the space-averaged velocity were found to irregularly enhance when the lighter liquid began to collide with the impeller. The particle penetration depth enhanced the solid/liquid mass transfer rate in the particle blowing technique [8]. In this study, based on the above results of cold model experiments and CFD, the relationship between the mass transfer rates between different phases and suspension pattern was adjusted as a whole.

    Keywords:

    Fluids; Furnace; Iron; Melting; Metallurgy; Process; Solid/liquid mass transfer; Suspension

    References:

    [1] Y. Tokura, M. A. Uddin, Y. Kato, Ind. Eng. Chem. Res. 58(2019) 10172-10178.
    [2] Y. Tokura, K. Miyagawa, M. A. Uddin, Y. Kato, Can. J. Chem. Eng. 99(2021) 410-420.
    [3] R. Shiba, M. A. Uddin, Y. Kato, S. Kitamura, ISIJ Int., 54(2014), 2754-2760.
    [4] R. Shiba, M. A. Uddin, Y. Kato, Tetsu-to-Hagane, 102(2016), 196-201.
    [5] S. Horiuchi, M. A. Uddin, Y. Kato, Y. Takahashi, Y. Uchida, ISIJ Int., 54(2014), 87-93.
    [6] S. Horiuchi, M. A. Uddin, Y. Kato, N. Kikuchi, ISIJ Int., 54(2014), 82-96.
    [7] T. Okuno, M. M. A. Uddin, Y. Kato, S. B. Lee, Y. H. Kim, ISIJ Int., 57(2017), 1902-1910.
    [8] R. Tanaka, M. A. Uddin, Y. Kato, ISIJ Int., 58(2018), 620-626.

    Cite this article as:

    Kato Y and Uddin M. (2022). MASS TRANSFER BETWEEN SOLID AND LIQUID PHASES RELATED TO SUSPENSION PATTERN OF LIGHT OR HEAVY DENSITY OF SOLID PARTICLES IN A MECHANICALLY STIRRED VESSEL. In F. Kongoli, G.Brooks, P. Butterworth, M. Geerdes, Y. Gordon, M. Grant, L. Lu, D. Lu, K. Saito, H. Sohn, T. Usui. (Eds.), Sustainable Industrial Processing Summit SIPS2022 Volume 11 Poveromo Intl. Symp. Advanced Iron & Steel Making and Production of Ferro-alloys (pp. 269-270). Montreal, Canada: FLOGEN Star Outreach