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http://dx.doi.org/10.9713/kcer.2021.59.1.94

Flow Pattern Change of Dished Bottom Vessel with Dual Impeller in Transition Region  

Koh, Seung-Tae (Industry-Academy Cooperation Foundation of Dongyang University)
Publication Information
Korean Chemical Engineering Research / v.59, no.1, 2021 , pp. 94-99 More about this Journal
Abstract
It was found that mixing patterns suddenly changed at an impeller rotation speed in a dished bottom vessel with dual Rushton turbines. Two isolated mixing regions like doughnuts rings generated at a low rotational speed and three isolated mixing regions generated at a higher speed. This phenomenon was observed at the mixing condition in transition area, where the power number with baffle was the same as that without baffle. We found a phenomenon in which the flow state in a dish-bottom agitation tank equipped with a two-stage Rushton turbine blade changes at a certain rotational speed. In the laminar flow region, the isolated stable donut rings were formed even when the rotational speed was changed, and no specific variation in the mixing pattern was observed. In the transition region, the two isolated thick unmixed donut rings do not change even if the rotation speed is changed in the flat bottom vessel, whereas in the dished bottom vessel, when the rotation speed is 450 rpm, the two isolated thick unmixed donut rings are changed to three isolated thin donut rings and then improved mixing. In the dished bottom vessel, in the range of Re=138~178, the isolated ring-shaped unmixed region appeared in three places and the size was also large. But in the flat bottom vessel, the isolated thick ring-shaped unmixed region appeared in two places in Re=116~176 and the size was also small. It appeared in two places, and the size was also small. The condition in which this phenomenon is observed is a transition region, and it was found that when the baffle plate is attached, the power number starts to increase compared to when the baffle plate is not present. In addition, when the mixing Reynolds number exceeded 300 and a slight turbulence was mixed in the flow state, the disconnection of these flow pattern was resolved and the mixture was completely mixed.
Keywords
Mixing; Agitation; Dual impeller; Flow pattern; Dished bottom;
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1 Takeda, K., Hoshino, T., Taguchi, H. and Fujii, T., "Characteristics of the Multiple Impeller in Turbulent Mixing Operation," Kagaku Kogaku, 32, 376-381(1968).   DOI
2 Mochizuki, M., "Multi Impellers and Problem (in Japanease)," Mixing (Saikin no Kagaku Kogaku 44), Kagakukogyosya, Tokyo (1992).
3 Nishikawa, M., Ashiwake, K., Hashimoto, N. and Nagata, S., "Effect of Impeller Clearance on Power Consumption by Multi-Stage Impellers," Kagaku Kogaku Ronbunshu, 2, 426-427(1976).   DOI
4 Komori, S. and Murakami, Y., "Turbulent Mixing in Baffled Stirred Tanks with Vertical-Blade Impellers," AIChE J., 34, 932-937(1988).   DOI
5 Mochizuki, M., Takei, N., Satoh, T., Satoh, K. and Akehata, T., "Power Required for Upper and Lower Impellers in Turbulent Mixing Vessels with Dual Impellers," Kagaku Kogaku Ronbunshu, 21, 628-632(1995).   DOI
6 Kato, Y., Tada, Y., Urano, K., Nakaoka, A. and Nagatsu, Y., "Differences of Mixing Power Consumption between Dished Bottom Vessel and Flat Bottom Vessel," Kagaku Kogaku Ronbunshu, 36, 25-29(2010).   DOI
7 Kato, Y., Tada, Y., Takeda, T. and Hirai, Y. and Nagatsu, Y., "Correlation of Power Consumption for Propeller and Pfaudler Type Impeller," J. Chem. Eng. Japan, 42, 6-9(2009).   DOI
8 Kamei, N., S. Hiraoka, Y. Kato, Y. Tada, K. Iwata, K. Murai, Y. S. Lee, T. Yamaguchi and S. T. Koh, "Effects of Impeller and Baffle Dimensions on Power Consumption under Turbulent Flow in an Agitated Vessel with Paddle Impeller," Kagaku Kogaku Ronbunshu, 22, 249-256(1996).   DOI
9 Nagata, S., Yokoyama, T. and Maeda, H., "Studies on the Power Requirement of Paddle Agitators in Cylindrical Vessels," Kagaku Kogaku, 20, 582-592(1956).   DOI
10 Kamei, N., Hiraoka, S., Kato, Y., Tada, Y., Shida, H., Lee, Y. S., Yamaguchi, T. and Koh, S. T., "Power Correlation for Paddle Impellers in Spherical and Sylindrical Agitated Vessels," Kagaku Kogaku Ronbunshu, 21, 41-48(1995).   DOI
11 Hiraoka, S., Kamei, N., Kato, Y., Tada, Y., Cheon, H. G. and Yamaguchi, T., "Power Correlation for Pitched Blade Paddle Impeller in Agitated vessels with and without Baffles," Kagaku Kogaku Ronbunshu, 23, 969-975(1997).   DOI