Micro-bubble generation rate and bubble dissolution rate into water by a simple multi-fluid mixer with orifice and porous tube

Sadatomi M.; Kawahara A.; Matsuura H.; Shikatani S.

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Micro-bubble generation rate and bubble dissolution rate into water by a simple multi-fluid mixer with orifice and porous tube

机译：通过带有孔和多孔管的简单多流体混合器，微气泡的产生速率和气泡在水中的溶解速率

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A multi-fluids mixer by Sadatomi and Kawahara. [1] is described as well as its performance as a micro-bubble generator for several trial products. In the experiments, air micro-bubble generation rate at water depths up to 3.6. m and the dissolution rates of oxygen in air and carbon dioxide into tap water at 20 °C were measured. In the analyses, the micro-bubble generation rate data could be well predicted by Sadatomi et al.'s model. [2] by choosing suitable energy loss coefficients needed in the model, and the oxygen dissolution rates in tap water could be well correlated with Kawahara et al.'s model. [3]. The detail of the multi-fluid mixer and its practical significances together with a result of experiments and analyses are reported in the present paper.

机译：Sadatomi和Kawahara的多流体混合器。 [1]及其作为几种试验产品的微气泡发生器的性能得到了描述。在实验中，水深达3.6的空气微气泡的产生速率。在20℃下测量空气中的氧气和二氧化碳在自来水中的溶解速率。在分析中，Sadatomi等人的模型可以很好地预测微气泡发生率数据。 [2]通过选择模型中所需的合适的能量损失系数，自来水中的氧溶解速率可以与Kawahara等人的模型很好地相关。 [3]。本文报道了多流体混合器的细节及其实际意义以及实验和分析结果。

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《Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics》 |2012年第null期|共8页
作者
Sadatomi M.; Kawahara A.; Matsuura H.; Shikatani S.;
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原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
Bubble dissolution performance; Hydraulic performance; Micro-bubble; Mixer;

机译：气泡溶解性能;液压性能;微气泡;搅拌机;

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专利

1. Micro-bubble generation rate and bubble dissolution rate into water by a simple multi-fluid mixer with orifice and porous tube [J] . Sadatomi M., Kawahara A., Matsuura H., Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2012,第Null期

机译：通过带有孔和多孔管的简单多流体混合器，微气泡的产生速率和气泡在水中的溶解速率
2. Prediction of micro-bubble dissolution characteristics in water and seawater [J] . Akimaro Kawahara, Michio Sadatomi, Fuminori Matsuyama, Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2009,第5期

机译：水和海水中微气泡溶解特性的预测
3. DEGREASING TECHNOLOGY WITH OZONE MICRO-BUBBLES GENERATED BY A VENTURI TUBE [J] . Yu Ruoyi, Keita Fujii, Akiko Kaneko, Multiphase science and technology . 2020,第1期

机译：用文丘里管产生的臭氧微气泡的脱脂技术
4. Time Evolution of Diameter of Micro-Bubbles Generated by a Pressurized Dissolution Method [C] . Kazuya Ishii, Shudai Fujimoto, Shigeo Hosokawa, International Symposium on Measurement Techniques for Multiphase Flows . 2014

机译：加压溶解法产生的微气泡直径的时间演变
5. Aeration by water-assisted micro-bubble generation. [D] . Poort, Mulyanto W. 2004

机译：水助微气泡产生曝气。
6. Pulsatile flow decreases gaseous micro-bubble filtering properties of oxygenators without integrated arterial filters during cardiopulmonary bypass [O] . Aldo D. Milano, Mikhail Dodonov, Francesco Onorati, -1

机译：在体外循环过程中脉动血流降低了没有集成动脉过滤器的充氧器的气态微气泡过滤性能
7. An improvement of the small amount of dissolved oxygen in Lake Saroma using energy saving and movable apparatus for micro-bubble generation -Micro-bubble generating by solar and wind power energy- [O] . 清野勝博, 能登生万, 本前秀樹, 2002

机译：利用节能和可移动设备产生微气泡来改善萨洛玛湖中少量的溶解氧-通过太阳能和风能产生微气泡-

Micro-bubble generation rate and bubble dissolution rate into water by a simple multi-fluid mixer with orifice and porous tube

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