3D FEM Analysis of Effect of Current Distribution on AC Loss in Shield Layers of Multi-Layered HTS Power Cable

Miyagi D.; Iwata S.; Takahashi N.; Torii S.

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3D FEM Analysis of Effect of Current Distribution on AC Loss in Shield Layers of Multi-Layered HTS Power Cable

机译：电流分布对多层高温超导电力电缆屏蔽层交流损耗影响的三维有限元分析

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By modeling spirally wound superconducting tapes as conductors having an anisotropic conductivity and using the periodic boundary condition, the analysis region is considerably reduced in 3-D edge-based hexahedral FEM analysis. By using this model, the AC transport characteristics of the co-axial five-layer cables (composed of three conductor layers and two shield layers) are studied, and the effect of current distribution among layers on AC loss in shield layers is investigated. It is possible to control the current distribution in the shield layers by adjusting the twist pitches of shield layers. It is shown that the uniform current in each layer dose not give the minimum AC loss and the current should flow in the inner shield layer in order to reduce the AC loss of shield layers.

机译：通过将螺旋缠绕的超导带建模为具有各向异性导电性的导体，并使用周期性边界条件，可以在基于3D边缘的六面体FEM分析中大大减少分析区域。利用该模型，研究了同轴五层电缆（由三层导体层和两层屏蔽层组成）的交流输运特性，研究了层间电流分布对屏蔽层交流损耗的影响。通过调节屏蔽层的扭曲间距，可以控制屏蔽层中的电流分布。结果表明，每一层中的均匀电流不会产生最小的AC损耗，并且电流应在内部屏蔽层中流动以减少屏蔽层的AC损耗。

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来源
《IEEE Transactions on Applied Superconductivity》 |2007年第2期|p.1696-1699|共4页
作者
Miyagi D.; Iwata S.; Takahashi N.; Torii S.;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
关键词
3D finite element method; AC loss; co-axial multi-layered HTS cable; current distribution; shield layer;

机译：3D有限元法;交流损耗;同轴多层高温超导电缆;电流分布;屏蔽层;

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专利

1. Analysis of AC Loss and Current Distribution Characteristics of Multi-Layer Triaxial HTS Cable for 3-Phase AC Power Transmission [J] . Fukui S., Noguchi T., Ogawa J., IEEE Transactions on Applied Superconductivity . 2006,第2期

机译：三相交流输电多层三轴高温超导电缆的交流损耗和电流分布特性分析
2. 3-D FEM Analysis of Effect of Twist Pitch and Shielding Layer on Multi-Layered HTS Power Cable [J] . Miyagi D., Takahashi N., Torii S., IEEE Transactions on Applied Superconductivity . 2006,第2期

机译：多层高温超导电力电缆绞距和屏蔽层影响的三维有限元分析
3. Current distribution and voltage-current relation in multi-layered LTS and HTS power cable core: a review [J] . Sytnikov VE., Poliakova NV., Vysotsky VS. Physica, C. Superconductivity and its applications . 2004,第1a4期

机译：多层LTS和HTS电力电缆芯中的电流分布和电压-电流关系：综述
4. AC loss of a tri-axial HTS cable composed of 2 layers per phase with balanced and homogenous current distribution [C] . Ozcivan A. N., Shimoyama K., Soeda S., International Cryogenic Materials Conference . 2009

机译：通过平衡和均匀的电流分布，由每相2层组成的三轴HTS电缆的交流丢失
5. Polymeric Radiation Shielding for Applications in Space: Polyimide Synthesis and Modeling of Multi-Layered Polymeric Shields [D] . Schiavone, Clinton Cleveland. 2013

机译：适用于空间应用的聚合物辐射屏蔽：多层聚合物屏蔽的聚酰亚胺合成和建模
6. Powering an Implantable Minipump with a Multi-layered Printed Circuit Coil for Drug Infusion Applications in Rodents [O] . Tina K. Givrad, Jean-Michel I. Maarek, William H. Moore, -1

机译：用多层印刷电路线圈为啮齿动物的药物输液应用供电为植入式微型泵供电
7. Analysis on Current Distribution in Multi-layer HTSC Power Cable with Shield Layer [O] . Jong-Hwa Lee, Sung-Hun Lim, Seong-Woo Yim, 2006

机译：屏蔽层多层HTSC电力电缆电流分布分析

3D FEM Analysis of Effect of Current Distribution on AC Loss in Shield Layers of Multi-Layered HTS Power Cable

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