首页|期刊导航|电工技术学报|定子励磁无刷超导电机用短端部高紧凑超导磁体研制与测试

定子励磁无刷超导电机用短端部高紧凑超导磁体研制与测试OA

Development and Testing of Short-End and High-Compactness Superconducting Magnets for Stator-Excitation Brushless Superconducting Machines

中文摘要英文摘要

面向静态密封型定子励磁无刷超导电机应用,该文研制了一种短端部高紧凑超导磁体.首先,完成超导线圈的短端部设计,总结其与常规跑道型超导线圈的选用规则.然后,将长边直线修改为微曲线,实现超导线圈与线圈骨架的紧密贴合;给出超导磁体整体结构,较常规跑道型超导磁体,所研制的超导磁体轴向长度缩短 22.3%,超导带材成本节省 11.4%.讨论超导带材三种跨接方式,并给出了模块化超导磁体详细的制造过程;发现超导线圈边角处、端部段和微曲直线段表面平整且光滑,没有局部凸起或参差现象;超导带材与骨架间的间隙被完全消除,超导带材紧贴线圈骨架.最后,搭建了模块化超导磁体临界电流测试平台,分别对焊接冷却杜瓦系统前后的超导线圈进行测试.结果表明,所研制的 12 组模块化超导磁体具有较好的一致性,测试数据也与仿真结果相吻合,满足超导磁体的各项设计指标,为该类超导电机中超导磁体的研制提供了参考.

To meet the application demands of stationary seal stator-excitation brushless superconducting machines,this study develops and validates a novel superconducting magnet featuring short ends and high compactness.Initially,a short-end superconducting coil design is proposed and compared with conventional racetrack-shaped coils.Practical selection rules for these two configurations are summarized based on the relationship among the straight-section spacing,the minimum bending radius of the superconducting tape,and the actual bending radius.Furthermore,to achieve a close fit between the coil and the skeleton,the long straight sides are modified into micro-curved arcs,effectively eliminating gaps and mitigating stress concentration at transition points.The overall structural composition of the superconducting magnet is detailed,including the coil skeleton,double-pancake coils,side cover plates,and current leads. Compared to the conventional racetrack-shaped design,the developed superconducting magnet reduces the axial length by 22.3%and saves on superconducting tape costs by 11.4%.Finite element analysis confirms its minimal impact on key machine performance metrics,such as no-load back-EMF and load torque.The detailed manufacturing process for the modular magnet is elaborated,encompassing coil skeleton fabrication,winding procedures using a custom fixture,and assembly.Microscopic inspection of the wound coils reveals flat and smooth surfaces at corners,end sections,and micro-curved straight sections,with no local protrusions or irregularities,indicating successful elimination of gaps between the tape and skeleton.A comprehensive testing platform was established for critical current evaluation,and tests were conducted on the 12 fabricated modular magnets.The measured central magnetic field shows excellent agreement with simulation results during stable current flow,with a maximum error of only 6.79%(below 1.5%for currents above 40 A).Post-welding of the Dewar system,critical currents show only minor deviations(up to-4.66%),confirming the robustness of the manufacturing process.All tested parameters,including critical current,operating current margin,tape length,and Dewar leak rate,meet the design specifications. This research provides a valuable reference for developing high-performance,cost-effective super-conducting magnets for this category of advanced electrical machines.

张志恒;花为;李祥林;朱新凯;王玉彬;邱志宇

郑州大学电气与信息工程学院 郑州 450001东南大学电气工程学院 南京 210096青岛大学电气工程学院 青岛 266071||东南大学南通海洋高等研究院 南通 226010华北电力大学(保定)电力工程系 保定 071003中国石油大学(华东)新能源学院 青岛 266580东南大学电气工程学院 南京 210096||东南大学南通海洋高等研究院 南通 226010

信息技术与安全科学

静态密封超导电机线圈骨架临界电流YBCO

Stationary sealsuperconducting machinecoil skeletoncritical currentYBCO

《电工技术学报》 2026 (6)

1922-1933,12

国家自然科学基金(52130706,52507042)和东南大学南通海洋高等研究院基金(重点项目)(KP202405)资助项目.

10.19595/j.cnki.1000-6753.tces.250409

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