Topology Optimization of a High-Temperature Superconducting Field Winding of a Synchronous Machine

Pozzi M.; Mijatovic N.; Jensen B.B.

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Topology Optimization of a High-Temperature Superconducting Field Winding of a Synchronous Machine

机译：同步电机高温超导磁场绕组的拓扑优化

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This paper presents topology optimization (TO) of the high-temperature superconductor (HTS) field winding of an HTS synchronous machine. The TO problem is defined in order to find the minimum HTS material usage for a given HTS synchronous machine design. Optimization is performed using a modified genetic algorithm with local optimization search based on on/off sensitivity analysis. The results show an optimal HTS coil distribution, achieving compact designs with a maximum of approximately 22% of the available space for the field winding occupied with HTS tape. In addition, this paper describes potential HTS savings, which could be achieved using multiple power supplies for the excitation of the machine. Using the TO approach combined with two excitation currents, an additional HTS saving of 9.1% can be achieved.

机译：本文介绍了HTS同步电机的高温超导体（HTS）场绕组的拓扑优化（TO）。定义TO问题是为了为给定的HTS同步电机设计找到最小的HTS材料使用量。使用修改后的遗传算法进行优化，并基于开/关灵敏度分析进行局部优化搜索。结果显示出最佳的HTS线圈分布，实现了紧凑的设计，最大约22％的可用空间用于HTS磁带占用的励磁绕组。此外，本文还介绍了潜在的HTS节省，这可以通过使用多个电源激励机器来实现。使用TO方法并结合两个励磁电流，可以额外节省9.1％的HTS。

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《IEEE Transactions on Applied Superconductivity》 |2013年第6期|1-1|共1页
作者
Pozzi M.; Mijatovic N.; Jensen B.B.;
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作者单位

Burmeister & Wain Scandinavian Contractor A/S, Allerød, Denmark|c|;

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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
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关键词
Genetic algorithms (GAs); HTS machine; high-temperature superconductor (HTS) coil optimization; topology optimization (TO);

机译：遗传算法（GAs）;HTS机器;高温超导体（HTS）线圈优化;拓扑优化（TO）;

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1. Synchronous reactance of slotless synchronous machine with superconducting field winding [J] . Ludwik Antal Archives of Electrical Engineering . 2000,第3a4期

机译：具有超导磁场绕组的无槽同步电机的同步电抗
2. Design of Synchronous Motor with High-temperature Superconductive Field Windings for Marine Propulsion Applications [J] . M. KASHANI, M. HOSSEINA, A. DARABI Electric Power Components and Systems . 2013,第1a4期

机译：船舶推进用高温超导磁场绕组同步电动机的设计
3. Numerical Study of Optimization Design of High Temperature Superconducting Field Winding in 20 MW Synchronous Motor for Ship Propulsion [J] . Fukui S. Applied Superconductivity, IEEE Transactions on . 2012,第3期

机译：20 MW船舶同步电动机高温超导绕组优化设计的数值研究。
4. Advances in the development of synchronous machines with high-temperature superconducting field winding at Siemens AG [C] . Klaus G., Nick W., Neumuller H.-W., IEEE Power Engineering Society General Meeting . 2006

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5. Topology Optimization of Synchronous Electric Machines [D] . Guo, Feng. 2021

机译：同步电机的拓扑优化
6. Persistent-mode high-temperature superconductor shim coils: A design concept and experimental results of a prototype Z1 high-temperature superconductor shim [O] . Yukikazu Iwasa, Seungyong Hahn, John Voccio, -1

机译：持久模式高温超导匀场线圈：Z1高温超导匀场样机的设计概念和实验结果
7. Erratum to : Three-Dimensional Analysis of Inductances and Magnetic Fields in the Air-Cored Armature Windings of a Superconducting Synchronous Machine [O] . 1980

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8. Form Coefficient for the Field of a Superconducting Synchronous Machine [R] . Bertinov, A. I., Golovkin, A. V., Yegoshkina, L. A., 1983

机译：超导同步电机领域的形状系数

Topology Optimization of a High-Temperature Superconducting Field Winding of a Synchronous Machine

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