Exploring liquid metal plasma facing component (PFC) concepts—Liquid metal film flow behavior under fusion relevant magnetic fields

机译：探索液态金属等离子体面对组件（PFC）的概念-熔融相关磁场下的液态金属膜流动行为

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The use of fast moving liquid metal streams or "liquid walls" as a plasma contact surface is a very attractive option and has been looked upon with considerable interest over the past several years, both by the plasma physics and fusion engineering programs. Flowing liquid walls provide an ever replenishing contact surface to the plasma, leading to very effective particle pumping and surface heat flux removal. A key feasibility issue for flowing liquid metal plasma facing component (PFC) systems, pertains to their magnetohydrodynamic (MHD) behavior under the spatially varying magnetic field environment, typical of a fusion device. MHD forces hinder the development of a smooth and controllable liquid metal flow needed for PFC applications. The present study builds up on the ongoing research effort at UCLA, directed towards providing qualitative and quantitative data on liquid metal free surface flow behavior under fusion relevant magnetic fields.

机译：使用快速移动的液态金属流或“液壁”作为等离子体接触表面是非常有吸引力的选择，并且在过去几年中，等离子体物理和聚变工程程序都引起了人们的极大兴趣。流动的液壁为等离子体提供了一个不断补充的接触表面，从而导致非常有效的颗粒抽吸和表面热通量去除。液态金属等离子体面对组件（PFC）系统流动的一个关键可行性问题涉及在熔融设备典型的空间变化磁场环境下其磁流体动力学（MHD）行为。 MHD力阻碍了PFC应用所需的平稳可控液态金属流的发展。本研究建立在加州大学洛杉矶分校正在进行的研究工作的基础上，旨在提供有关聚变相关磁场下液态金属自由表面流动行为的定性和定量数据。

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来源
《International Symposium on Fusion Nuclear Technology(ISFNT-7) pt.B; 20050522-27; Tokyo(JP)》|2005年|P.1543-1548|共6页
会议地点 Tokyo(JP)
作者
M. Narula; M.A. Abdou; A. Ying; N.B. Morley; M. Ni; R. Miraghaie; J. Burns;
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作者单位

Fusion Engineering Sciences, Mechanical and Aerospace Engineering Department, University of California, Los Angeles 420 Westwood Plaza, Los Angeles, CA 90095-1597, USA;

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会议组织
原文格式 PDF
正文语种 eng
中图分类反应堆安全;
关键词
liquid metal; free surface; plasma facing components; magnetohydrodynamics; numerical modeling; NSTX divertor;

机译：液态金属;自由表面;等离子面组件;磁流体动力学;数值模拟; NSTX偏滤器;

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专利

1. Exploring liquid metal plasma facing component (PFC) concepts—Liquid metal film flow behavior under fusion relevant magnetic fields [J] . M. Narula, M.A. Abdou, A. Ying, Fusion Engineering and Design . 2006,第8a14期

机译：探索液态金属等离子体面对组件（PFC）的概念-熔融相关磁场下的液态金属膜流动行为
2. A STUDY OF LIQUID METAL FILM FLOW, UNDER FUSION RELEVANT MAGNETIC FIELDS [J] . M. Narula, A. Ying, M.A. Abdou Fusion Science and Technology . 2005,第3期

机译：熔融相关磁场作用下液态金属膜流动的研究
3. A REVIEW OF THE PRESENT STATUS AND FUTURE PROSPECTS OF THE APPLICATION OF LIQUID METALS FOR PLASMA-FACING COMPONENTS IN MAGNETIC FUSION DEVICES [J] . Hirooka Y., Mazzitelli G., Mirnov S., Fusion Science and Technology . 2015,第3期

机译：液态金属在电磁熔合装置中的等离子体化组分应用现状及未来展望
4. Exploring liquid metal plasma facing component (PFC) concepts—Liquid metal film flow behavior under fusion relevant magnetic fields [C] . M. Narula, M.A. Abdou, A. Ying, International Symposium on Fusion Nuclear Technology(ISFNT-7) pt.B . 2006

机译：融合液体金属等离子体面向件（PFC）概念 - 液态金属薄膜流动在融合下的相关磁场
5. Experiments and numerical modeling of fast flowing liquid metal thin films under spatially varying magnetic field conditions [D] . Narula, Manmeet Singh 2008

机译：在空间变化的磁场条件下快速流动的液态金属薄膜的实验和数值模拟
6. Thin Metal Films: A Method to Form Smooth Films of Liquid Metal Supported by Elastomeric Substrate (Adv. Sci. 10/2018) [O] . Arthur Hirsch, Stéphanie P. Lacour 2018

机译：金属薄膜：形成由弹性体基底支撑的液态金属光滑膜的方法（Adv。Sci。10/2018）
7. Flow of a thin liquid-metal film in a toroidal magnetic field [O] . D. Lunz, P. D. Howell 2019

机译：环形磁场中的薄液金属膜的流动

Exploring liquid metal plasma facing component (PFC) concepts—Liquid metal film flow behavior under fusion relevant magnetic fields

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