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Effects of gravity level on bubble formation and rise in low-viscosity liquids

机译：重力水平对低粘度液体中气泡形成和上升的影响

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We present an experimental analysis of the effects of gravity level on the formation and rise dynamics of bubbles. Experiments were carried out with millimeter-diameter bubbles in the hypergravity environment provided by the large-diameter centrifuge of the European Space Agency. Bubble detachment from a nozzle is determined by buoyancy and surface tension forces regardless of the gravity level. Immediately after detachment, bubble trajectory is deviated by the Coriolis force. Subsequent bubble rise is dominated by inertial forces and follows a zig-zag trajectory with amplitude and frequency dependent on the gravity level. Vorticity production is enhanced as gravity increases, which destabilizes the flow and therefore the bubble path.

机译：我们目前对重力水平对气泡的形成和上升动力学的影响进行实验分析。在由欧洲航天局的大直径离心机提供的超重力环境中，使用毫米直径的气泡进行了实验。气泡与喷嘴的分离取决于浮力和表面张力，而与重力无关。分离后，气泡轨迹立即被科里奥利力偏离。随后的气泡上升受到惯性力的支配，并遵循锯齿形轨迹，其幅度和频率取决于重力水平。随着重力的增加，涡流的产生也增加了，这使流动不稳定，从而使气泡路径不稳定。

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作者
Suñol Galofre, Francesc Xavier; González Cinca, Ricardo;
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年度 2015
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正文语种 eng
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专利

1. 上升气泡附近液体速度分布的预测 [J] . 成弘, 周明中国化学工程学报（英文版） . 2002,第005期
2. Effects of gravity level on bubble detachment, rise, and bouncing with a free surface [J] . Sunol Francesc, Gonzalez-Cinca Ricard International Journal of Multiphase Flow . 2019,第期

机译：重力水平对泡沫脱离，上升和自由表面弹跳的影响
3. Numerical Investigation on the Influence of Bubble Velocity, Gravity Level and Bubble Coalescence on Liquid Turbulence Modulation in Horizontal Channel Bubbly Flow [J] . Mingjun Pang, Zhan Zhang, Yang Fei, Recent Patents on Engineering . 2018,第3期

机译：气泡速度，重力水平和气泡合并对水平通道气泡流中液体湍流调制影响的数值研究
4. Numerical investigation of quasi-static bubble growth and detachment from submerged orifices in isothermal liquid pools: The effect of varying fluid properties and gravity levels [J] . Georgoulas A., Koukouvinis P., Gavaises M., International Journal of Multiphase Flow . 2015,第Null期

机译：等温液池中准静态气泡生长和从水下孔口脱离的数值研究：流体特性和重力水平变化的影响
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机译：前跟踪/有限差分法模拟液体升高和变形
6. Numerical Simulations of Bubble Dynamics and Heat Transfer in Pool Boiling---Including the Effects of Conjugate Conduction, Level of Gravity, and Noncondensable Gas Dissolved in the Liquid. [D] . Aktinol, Eduardo. 2014

机译：池沸腾中气泡动力学和传热的数值模拟-包括共轭传导，重力水平和溶解在液体中的不凝性气体的影响。
7. Numerical study of wall effects on buoyant gas-bubble rise in a liquid-filled finite cylinder [O] . Karthik Mukundakrishnan, Shaoping Quan, David M. Eckmann, -1

机译：壁对充液有限气瓶中浮性气泡上升影响的数值研究
8. Effects of gravity level on bubble detachment, rise, and bouncing with a free surface [O] . Francesc Suñol, Ricard González-Cinca 2019

机译：重力水平对自由表面泡泡脱离，上升和弹跳的影响
9. Coarsening Dynamics and Marangoni Effects in Thin Liquid Crystal Bubbles in Microgravity. [R] . Clark, N., Glaser, M., Maclennan, J., 2015

机译：微重力下薄液晶气泡的粗化动力学和marangoni效应。

Effects of gravity level on bubble formation and rise in low-viscosity liquids

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