Mixing Condition and Solid-Liquid and Gas-Liquid Mass Transfer in a Shaking Vessel with Figure-Eight Motion

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  • Kato Yoshihito
    Department of Life and Materials Engineering, Nagoya Institute of Technology
  • Tada Yutaka
    Department of Life and Materials Engineering, Nagoya Institute of Technology
  • Watanabe Shoko
    Department of Life and Materials Engineering, Nagoya Institute of Technology
  • Nagatsu Yuichiro
    Department of Life and Materials Engineering, Nagoya Institute of Technology
  • Iwata Shuichi
    Department of Life and Materials Engineering, Nagoya Institute of Technology
  • Lee Young-Sei
    Department of Chemical Engineering, Sangju National University
  • Koh Song-Tae
    Department of Chemical Engineering, Dongyang University

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Other Title
  • 8の字振とうによる揺動撹はん槽における混合条件と固液および気液物質移動
  • 8の字振とうによる揺動撹拌槽における混合条件と固液および気液物質移動
  • 8 ノ ジ シントウ ニ ヨル ヨウドウ カクハンソウ ニ オケル コンゴウ ジョウケン ト コエキ オヨビ キエキ ブッシツ イドウ

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Abstract

The flow pattern and the solid-liquid and gas-liquid mass transfer coefficients in figure-eight shaking vessels were observed by experimental methods. The flow patterns in the figure-eight shaking vessels changed irregularly with increase in the shaking frequency. The region of the optimum operating condition of the figure-eight shaking was larger than that of the reciprocal shaking. The solid-liquid mass transfer coefficient was correlated with the same correlation as that of the rotary shaking vessel. The gas-liquid mass transfer coefficient of the figure-eight shaking vessel was also correlated with the same type of correlation as that of the rotary shaking vessel.

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