Gas holdup and bubble behaviour in a pressurized bubble column

Hiroshi Ishiyama; Haruki Kaneoka; Jun Sawal; Hiromitsu Kojima

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Gas holdup and bubble behaviour in a pressurized bubble column

机译：加压气泡塔中的气体滞留和气泡行为

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The effect of pressure on gas holdup was investigated experimentally with gas-liquid systems, of nitrogen-water, and carbon dioxide-water, in a bubble column with diameter of 45 mm. Single nozzles of 1.4, and 4.0 mm in diameter were used as gas disperser. When the 4.0 mm nozzle was used, no effect of pressure on gas holdup was observed. When single nozzle of 1.4 mm with nitrogen as the gas phase, gas holdup increased with pressure. But when carbon dioxide was used as the gas phase, gas holdup showed a maximum at pressure of 0.6 MPa. The gas holdup at 1.1 MPa was approximately the same value as that at atmospheric pressure. To explain these phenomena by the behavior of bubbles in the column, bubble size near the wall and bubble frequency at the center of column were measured.

机译：在直径为45 mm的鼓泡塔中，使用气-液系统，氮气-水和二氧化碳-水，通过实验研究了压力对气体滞留率的影响。直径为1.4和4.0毫米的单个喷嘴用作气体分散器。当使用4.0mm喷嘴时，没有观察到压力对气体滞留的影响。当使用氮气作为气相的1.4 mm单喷嘴时，气体滞留量随压力增加。但是，当将二氧化碳用作气相时，在0.6 MPa的压力下气体滞留量显示最大值。 1.1 MPa下的气体滞留率与大气压下的气体滞留率大致相同。为了通过柱中气泡的行为来解释这些现象，对壁附近的气泡尺寸和柱中心的气泡频率进行了测量。

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来源
《化学工学論文集》 |2001年第4期|共4页
作者
Hiroshi Ishiyama; Haruki Kaneoka; Jun Sawal; Hiromitsu Kojima;
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正文语种 jpn
中图分类化学工业;
关键词
bubble column; high pressure; gas holdup; bubble size; bubble frequency;

机译：气泡塔;高压;持气率;气泡大小;气泡频率;

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专利

1. Gas holdup and bubble behaviour in a pressurized bubble column [J] . Hiroshi Ishiyama, Haruki Kaneoka, Jun Sawal, 化学工学論文集 . 2001,第4期

机译：加压气泡塔中的气体滞留和气泡行为
2. Hydrodynamics and scale-up of bubble columns in the heterogeneous regime: Comparison of bubble size, gas holdup and liquid velocity measured in 4 bubble columns from 0.15 m to 3 m in diameter [J] . Raimundo P. Maximiano, Cloupet A., Cartellier A., Chemical Engineering Science . 2019,第期

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3. Effect of Pressure on Gas Holdup in a Bubble Column and a Slurry Bubble Column [J] . Akira Nakamura, Bungo Okumura, Hiromitsu Kojima Journal of Chemical Engineering of Japan . 1991,第1期

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4. Numerical investigation of effects of hydrophilic particles on gas holdup and bubble size distribution in slurry bubble column [C] . Min An, Xiaoping Guan, Ning Yang International Conference on Gas-Liquid and Gas-Liquid-Solid Reactor Engineering;Institute of Process Engineering, Chinese Academy of Sciences . -1

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5. Hydrodynamics and gas holdup in a cocurrent air-water-fiber bubble column. [D] . Tang, Chengzhi. 2005

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6. Ultrasonic Transmission Tomography Sensor Design for Bubble Identification in Gas-Liquid Bubble Column Reactors [O] . Nan Li, Mingchen Cao, Kun Xu, 2018

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8. Gamma densitometry tomography of gas holdup spatial distribution in industrial scale bubble columns [R] . Shollenberger, K. A. , Torczynski, J. R. , Adkins, D. R. , 1995

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Gas holdup and bubble behaviour in a pressurized bubble column

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