The Effect of Mixedness on Crystal Size Distribution in a Continuous Crystallizer
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概要
- 論文の詳細を見る
The concept of a MSMPR crystallizer, in which all crystals are assumed to disperse perfectly in suspension regardless of the crystal size, has mostly been used in the study on crystallization in order to simplify the discussion. However, there is a possibility that the spacial suspension density distribution in a crystallizer affects the crystal size distribution of the product. In this work, the effect of the spatial suspension density distribution in the crystallizer on the crystal size distribution of the product has been studied experimentally by using two types of continuous crystallizers. For expressing the mixing degree of all crystals of all sizes in the crystallizer, the multi-component mixedness defined by Ogawa was used after the definition was expanded. Experimental results show that the suspension density and the crystal size distribution are different at different heights in the crystallizers. The variation of the mixedness with impeller rotational speed is made clear. It is clarified that the mean crystal size of product crystals increases with decreasing mixedness. The usefulness of mixedness as an indicator of the classification in the crystallizer is made clear.
- 社団法人 化学工学会の論文
著者
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Ogawa Kohei
Department of Chemical Engineering, Tokyo Institute of Technology
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SHA Zuoliang
Department of Chemical Engineering, Graduate School of Science and Technology, Tokyo Institute of Te
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PALOSAARI Seppo
Department of Chemical Technology, Lappeenranta University of Technology
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Ogawa K
Department Of Chemical Engineering Tokyo Institute Of Technology
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Ogawa Kohei
Department Of Chemical Engineering Graduate School Of Science And Engineering Tokyo Institute Of Tec
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Sha Zuoliang
Department Of Chemical Technology Lappeenranta University Of Technology
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Sha Zuoliang
Department Of Chemical Engineering Lappeenranta University Of Technology
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Palosaari S
Kyoto Univ. Kyoto Jpn
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Palosaari Seppo
Department Of Chemical Engineering Kyoto University
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LOUHI-KULTANEN MARJATTA
Department of Chemical Technology, Lappeenranta University of Technology
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Louhi-kultanen Marjatta
Department Of Chemical Engineering Lappeenranta University Of Technology
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Louhi-kultanen Marjatta
Department Of Chemical Technology Lappeenranta University Of Technology
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