The JEREMI-Project on Thermocapillary Convection in Liquid Bridges. Part B: Overview on Impact of Co-axial Gas Flow.

V. Shevtsova; Y. Gaponenko; H.C. Kuhlmann; M. Lappa; M. Lukasser; S. Matsumoto; A. Mialdun; J.M. Montanero; K. Nishino; I. Ueno

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The JEREMI-Project on Thermocapillary Convection in Liquid Bridges. Part B: Overview on Impact of Co-axial Gas Flow.

机译：液桥中热毛细管对流的JEREMI项目。 B部分：同轴气流影响概述。

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Pure surface-tension-driven flow is a unique type of flow that can be controlled through external manipulation of thermal and/or mechanical boundary conditions at the free liquid surface where the entire driving force for the convection is generated. This unique feature has been exploited in recent studies for the active control of the flow instability. The use of forced coaxial gas streams has been proposed as a way to stabilize the Marangoni convection in liquid bridges in the planned space experiment JEREMI (Japanese and European Research Experiment on Marangoni Instabilities). It is aimed at understanding the mechanism of the instability and the role of the surface heat transfer and surface shear stresses. This overview presents corresponding preparatory experimental and numerical studies.

机译：纯表面张力驱动的流动是一种独特的流动形式，可以通过在自由液体表面上对热和/或机械边界条件的外部操纵来控制，在自由液体表面上产生对流的整个驱动力。在最近的研究中已经利用此独特功能来主动控制流动不稳定性。在计划进行的空间实验JEREMI（日本和欧洲对Marangoni不稳定性的研究实验）中，已提出使用强制同轴气流作为稳定液体桥梁中Marangoni对流的方法。目的在于了解不稳定性的机理以及表面传热和表面剪应力的作用。此概述介绍了相应的准备性实验和数值研究。

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《FDMP: Fluid Dynamics & Materials Processing》 |2014年第2期|共44页
作者
V. Shevtsova; Y. Gaponenko; H.C. Kuhlmann; M. Lappa; M. Lukasser; S. Matsumoto; A. Mialdun; J.M. Montanero; K. Nishino; I. Ueno;
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1. The JEREMI-Project on Thermocapillary Convection in Liquid Bridges. Part B: Overview on Impact of Co-axial Gas Flow. [J] . V. Shevtsova, Y. Gaponenko, H.C. Kuhlmann, FDMP: Fluid Dynamics & Materials Processing . 2014,第2期

机译：液桥中热毛细管对流的JEREMI项目。 B部分：同轴气流影响概述。
2. Thermocapillary long waves in a liquid film flow. Part 1. Low-dimensional formulation [J] . Ruyer-Quil C, Scheid B, Kalliadasis S, Journal of Fluid Mechanics . 2005,第0期

机译：热毛细长波在液膜中流动。第1部分。低维公式
3. Thermocapillary long waves in a liquid film flow. Part 2. Linear stability and nonlinear waves [J] . Scheid B, Ruyer-Quil C, Kalliadasis S, Journal of Fluid Mechanics . 2005,第0期

机译：热毛细长波在液膜中流动。第2部分。线性稳定性和非线性波
4. THE THERMOCAPILLARY CONVECTION IN LOCALLY HEATED LAMINAR LIQUID FILM FLOW CAUSED BY A CO-CURRENT GAS FLOW IN NARROW CHANNEL [C] . Gatapova E.Y., Lyulin Y.V., Marchuk I.V., International Conference on Microchannels and Minichannels . 2003

机译：在狭窄通道中的局部气流引起的局部加热层液膜流动中的热量量对流
5. Thermocapillary convection in low-Prandtl-number liquid layers [D] . Hamed, Mohamed Saied 1997

机译：低数位液体层中的热毛细管对流
6. CONTINUOUS-FLOW ELECTROPHORESIS IN SERPENTINE LIQUID COLUMNS STABILIZED AGAINST THERMAL CONVECTION [O] . Alexander Kolin, Paul Cox 1964

机译：蛇麻草液柱对热对流的连续流动电泳
7. The JEREMI-project on thermocapillary convection in liquid bridges. Part B : Overview on impact of co-axial gas flow [O] . Shevtsova V., Gaponenko Y., Kuhlmann H. C., 2014

机译：液桥中热毛细管对流的JEREMI项目。 B部分：同轴气流影响概述
8. Investigation of the Enhancement of Heat Transfer Through Liquid/Gas InterfacesDue to the Thermocapillary Convective Instability [R] . Legros, J. C., Colinet, P. 1994

机译：由于热毛细对流不稳定性，通过液/气界面增强传热的研究

The JEREMI-Project on Thermocapillary Convection in Liquid Bridges. Part B: Overview on Impact of Co-axial Gas Flow.

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