Flow Patterns in Turbulent Region and Mixing in Laminar Region in a New Mixing Equipment with Low Frequency Vibratory Fins

Yoshihito Kato; Setsuro Hiraoka; Yutaka Tada; Shogo Hukumoto; Akihiro Matsuura; Ryushin Ohmasa; Young-Sei Lee; Song-Tae Koh

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Flow Patterns in Turbulent Region and Mixing in Laminar Region in a New Mixing Equipment with Low Frequency Vibratory Fins

机译：湍流区域中的流动模式并在具有低频振动翅片的新混合设备中在层状区域中混合

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Velocity profiles,power consumption and mixing time were investigated in a new mixing equipment that has a vibrating motor with fin oscillators on a pair of shaftS.A large flow pattern with a vessel scale promoted the fluid mixing.The optimum vibrating frequency for mixing was restricted to about 45 Hz.The power consumption had the maximum value at the optimum vibrating frequency and was constant in the range of the liquid viscosity,1-500 mPa·s.Flow visualization showed that the flow pattern of the laminar flow was symmetric and was divided into two distinct regions,the right and left sides of the vessel.

机译：在一对轴上的具有振动电动机的新混合设备中研究了速度简档，功耗和混合时间。在一对轴上具有翅片振荡器的振动电动机。具有血管标度的大型流动模式促进了流体混合。混合的最佳振动频率受到限制到大约45 Hz。功耗在最佳振动频率下具有最大值，并且在液体粘度的范围内恒定，1-500mPa·s.flow可视化表明，层流的流动模式是对称的，并且是分为两个不同的区域，船的右侧和左侧。

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来源
《化学工学論文集》 |2003年第5期| 共5页
作者
Yoshihito Kato; Setsuro Hiraoka; Yutaka Tada; Shogo Hukumoto; Akihiro Matsuura; Ryushin Ohmasa; Young-Sei Lee; Song-Tae Koh;
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作者单位

Department of Applied Chemistry Nagoya Institute of Technology Nagoya 466-8555;

Department of Applied Chemistry Nagoya Institute of Technology Nagoya 466-8555;

Department of Applied Chemistry Nagoya Institute of Technology Nagoya 466-8555;

Department of Applied Chemistry Nagoya Institute of Technology Nagoya 466-8555;

Department of Mechanical Engineering Daido Institute of Technology Nagoya 457-8530;

Japan Techno Co. Ltd. Tokyo 146-0085;

Department of Chemical Engineering Sangju National University Kyungbuk 742-711 Korea;

Department of Chemical Engineering Dongyang University Young-ju 750-711 Korea;

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原文格式 PDF
正文语种 jpn
中图分类化学工业 ;
关键词
mixing; agitation; vibration; flow pattern; power consumption;

机译：混合;激动;振动;流动模式;功耗;

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1. Flow Patterns in Turbulent Region and Mixing in Laminar Region in a New Mixing Equipment with Low Frequency Vibratory Fins [J] . Yoshihito Kato, Setsuro Hiraoka, Yutaka Tada, 化学工学論文集 . 2003 ,第5期

机译：新型低频振动翅片混合设备中湍流区和层流区混合流型
2. Microbubble Formation by Electrolysis Using a New Mixing Equipment with Low Frequency Vibratory Fins [J] . Hideki TsuGE, Takamasa OGAWA, Ryushin OHMASA Journal of Chemical Engineering of Japan . 2008 ,第7期

机译：使用具有低频振动鳍片的新型混合设备通过电解形成微气泡
3. Microbubble Formation by Electrolysis Using a New Mixing Equipment with Low Frequency Vibratory Fins [J] . Hideki Tsuge, Ryushin Ohmasa, Takamasa Ogawa Journal of Chemical Engineering of Japan . 2008 ,第7期

机译：使用具有低频振动鳍片的新型混合设备通过电解形成微气泡
4. Determining the Hydrogen Mass Fraction, Concentration Distributions and Related Flow Properties in a Subsonic Turbulent Mixing Region with a Multi- Species Co- Flow [C] . A. Gonor, V. Khaikine, J. Gottlieb, AIAA Fluid Dynamics Conference and Exhibit;AIAA/ASME Joint Thermophysics and Heat Transfer Conference;AIAA CFD High-Lift Prediction Workshop;HILIFTPW-1;AIAA Aerodynamic Measurement Technology and Ground Testing Conference;AIAA Applied Aerodynamics Conference;Plasmadynamics and Lasers Conference;Flow Control Conference . 2010

机译：确定具有多种共流的亚音速湍流混合区的氢质量分数，浓度分布和相关的流动特性
5. ON DISSIPATIVE MECHANISMS WITHIN SEPARATED FLOW REGIONS (WITH SPECIAL CONSIDERATION TO ENERGY TRANSFER ACROSS TURBULENT, COMPRESSIBLE, PR = 1, MIXING REGIONS). [D] . GOLIK, RAYMOND JOHN. 1962

机译：关于在独立流动区域内的耗散机制（特别考虑沿湍流的能量传递，可压缩，PR = 1，混合区域）。
6. Sustainment of a patient flow intervention in an intensive care unit in a regional hospital in Australia: a mixed-method 5-year follow-up study [O] . Eva Ros, Axel Ros, Elizabeth E Austin, 2021

机译：在澳大利亚区域医院的重症监护病房中的患者流动干预的维持：混合方法5年的后续研究
7. Visualization of Flow Pattern and Mixing Process in a New Mixing Equipment with Low Frequency Vibratory Fins [O] . Yoshihito KATO, Setsuro HIRAOKA, Yutaka TADA, 2003

机译：具有低频振动翅片的新混合设备中的流动模式和混合过程的可视化

Flow Patterns in Turbulent Region and Mixing in Laminar Region in a New Mixing Equipment with Low Frequency Vibratory Fins

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