Design of HTS Toroidal Magnets for a 5 MJ SMES

Lee S.

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Design of HTS Toroidal Magnets for a 5 MJ SMES

机译：用于5 MJ SMES的HTS环形磁铁的设计

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A 2.5 MJ Superconducting Magnetic Energy Storage System (SMES) is being developed as a national R&D project in Korea. It is in 2nd phase of total 3 phases program. In phase 1, we developed a 600 kJ SMES which had the maximum storage over 1 MJ. Its magnet was an HTS solenoid, whereas the HTS magnet for phase 2 is a toroid which is composed of 28 HTS double pancake coils. The final target of phase 3 is to develop a 5 MJ SMES, which will start from next year. The operating temperature of the HTS magnet will be below 20 K by conduction cooling. In this paper, we present and compare conceptual designs of the magnet in the shape of toroid and the configuration of serial connection of two 2.5 MJ toroids. The most important design criterion is to minimize the total length of HTS conductors.

机译：作为韩国的国家研发项目，正在开发一个2.5 MJ超导磁储能系统（SMES）。它是总共3个阶段的计划的2个阶段。在第1阶段，我们开发了600 kJ SMES，最大存储量超过1 MJ。它的磁铁是HTS螺线管，而阶段2的HTS磁铁是一个环形线圈，由28个HTS双薄饼线圈组成。第三阶段的最终目标是开发一个5 MJ SMES，将从明年开始。通过传导冷却，高温超导磁体的工作温度将低于20K。在本文中，我们介绍并比较了环形磁铁的概念设计和两个2.5 MJ环形磁铁的串联配置。最重要的设计准则是最小化高温超导体的总长度。

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《Applied Superconductivity, IEEE Transactions on》 |2012年第3期|p.1-4|共4页
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Lee S.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
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正文语种 eng
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1. Design of HTS Modular Magnets for a 2.5 MJ Toroidal SMES: ReBCO vs. BSCCO [J] . Applied Superconductivity, IEEE Transactions on . 2010,第3期

机译：2.5 MJ环形SMES的HTS模块化磁体的设计：ReBCO与BSCCO
2. Optimal design of HTS magnets for a modular toroid-type 2.5 MJ SMES using multi-grouped particle swarm optimization [J] . Lee SY, Kwak SY, Seo JH, Physica, C. Superconductivity and its applications . 2009,第15a20期

机译：使用多组粒子群算法对模块化环形2.5 MJ SMES的HTS磁体进行优化设计
3. Analysis of Eddy Current Losses and Magnetization Losses in Toroidal Magnets for a 2.5 MJ HTS SMES [J] . Lee S., Park S.-H., Kim W.-S., Applied Superconductivity, IEEE Transactions on . 2011,第3期

机译：2.5 MJ HTS SMES环形磁铁中的涡流损耗和磁化损耗分析
4. Energy Storage Characteristics of MJ-Class Toroidal HTS-SMES Considering Maximum Value of Perpendicular Magnetic Field [C] . Ming Qiu, Shuangquan Rao, Jiahui Zhu International Conference on Applied Energy . 2017

机译：考虑垂直磁场最大值的MJ级环形HTS-SME的能量存储特性
5. A study of conceptual and language issues surrounding weight, weightlessness, and free fall: Textbook analysis, instructional design, and assessment [D] . Taibu, Rex. 2015

机译：有关体重，失重和自由落体的概念和语言问题的研究：教科书分析，教学设计和评估
6. HTS Shim Coils Energized by a Flux Pump for the MIT 1.3-GHz LTS/HTS NMR magnet: Design Construction and Results of a Proof-of-Concept Prototype [O] . Dongkeun Park, Jiho Lee, Juan Bascuñán, -1

机译：由通量泵为MIT 1.3 GHz LTS / HTS NMR磁体激励的HTS垫片线圈：概念验证原型的设计构造和结果
7. Mechanical Properties of MJ-Class Toroidal Magnet Wound by Composite HTS Conductor [O] . Ming Qiu, Shuangquan Rao, Jiahui Zhu, 2017

机译：复合HTS导体卷绕MJ级环形磁铁的力学性能
8. Tokamak Physics EXperiment (TPX): Toroidal magnet design, development and manufacture. SDRL 31, Magnet sensors. Volume 4 [R] . Weber, C. M. 1995

机译：托卡马克物理实验（TpX）：环形磁铁的设计，开发和制造。 sDRL 31，磁铁传感器。第4卷

Design of HTS Toroidal Magnets for a 5 MJ SMES

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