流动磁场中液态金属膜流动的实验研究

IF 0.3 4区 工程技术 Q4 MECHANICS Magnetohydrodynamics Pub Date : 2022-05-01 DOI:10.22364/mhd.58.1-2.1
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引用次数: 1

摘要

在许多应用中,例如在聚变反应器中,用液态金属连续润湿表面是必不可少的。在本研究中,我们提供了在强流向磁场作用下抑制液态金属膜流动自由表面不稳定性的数据,类似于应用中使用的极向场。我们设计并建立了一个实验测试装置,可以研究磁流体动力学对层流、瞬态和湍流状态下液态金属GaInSn膜流动动态行为的影响。当膜的宽度和长度分别调整为w=23毫米和l=120毫米时,我们能够在整个流体流动体积上施加高达B=5 T的强均匀磁场。此外,该设置允许在200≤Re≤1700的范围内改变雷诺数。相应的Hartmann数和Stuart数分别为Ha≤180和N≤40。这项研究表明,即使在膜流的湍流状态下,顺流磁场也能够通过抑制垂直于所施加磁场的任何运动来抑制自由表面的不稳定性。未来的研究计划包括对参数空间的定量研究。图4,参考文献8。
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Experimental study of a liquid metal film flow in a streamwise magnetic field
Continuous wetting of a surface with liquid metal is indispensable in many applications, such as in fusion reactors. In the present study, we provide data on the suppression of free-surface instabilities of liquid metal film flows under the action of strong streamwise magnetic fields in analogy to the poloidal fields used in application. We have designed and built up an experimental test setup which allows studying the influence of magnetohydrodynamics on the dynamic behaviour of liquid metal GaInSn film flows in laminar, transient, and turbulent regimes. While the width and the length of the film are adjusted at w = 23 mm and l = 120 mm, respectively, we are able to apply strong uniform magnetic fields up to B = 5 T over the entire fluid-flow volume. Moreover, the setup allows to vary the Reynolds number within the range 200 ≤ Re ≤ 1700. The corresponding Hartmann and Stuart numbers are Ha ≤ 180 and N ≤ 40, respectively. This study shows that a streamwise magnetic field is capable of suppressing free-surface instabilities even in the turbulent regime of the film flow by dampening any motion perpendicular to the applied magnetic field. Plans for future studies include the quantitative investigation of the parameter space. Figs 4, Refs 8.
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来源期刊
Magnetohydrodynamics
Magnetohydrodynamics 物理-力学
CiteScore
1.20
自引率
14.30%
发文量
37
审稿时长
6-12 weeks
期刊介绍: Information not localized
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