引用本文
  • 杨颂,刘延超,张妍,雷咸道,廖旭,方进.双根堆叠 YBCO 超导带材缺陷状态下失超传播规律研究[J].低温物理学报,2021,(6):339-345.    [点击复制]
  • YANG Song,LIU Yanchao,ZHANG Yan,LEI Xiandao,LIAO Xu,FANGJin.Study on the Quench Characteristics of Double Stacked YBCO Tape under Defects[J].LOW TEMPERATURE PHYSICAL LETTERS,2021,(6):339-345.   [点击复制]
【打印本页】 【在线阅读全文】【下载PDF全文】 查看/发表评论下载PDF阅读器关闭

←前一篇|后一篇→

过刊浏览    高级检索

本文已被:浏览 401次   下载 957 本文二维码信息
码上扫一扫!
双根堆叠 YBCO 超导带材缺陷状态下失超传播规律研究
杨颂1, 刘延超2, 张妍3, 雷咸道2, 廖旭1, 方进1
0
(1.北京交通大学电气工程学院, 北京 100044;2.中国长江三峡集团有限公司科学技术研究院, 北京 100038;3.国网陕西省电力公司西安供电公司, 陕西西安 710032)
摘要:
因双根并绕堆叠结构的 YBCO 带材能够进一步增加设备承载电流密度, 被广泛应用于大型超导设备线圈绕制中. 本文研究了外层有包绕绝缘的双根并绕堆叠 YBCO 带材有缺陷情况下的失超传播特性, 应用有限元法方法, 建立了双根 YBCO 带材堆叠状态下失超仿真模型, 研究了存在不同缺陷的情况下双根堆叠超导带材的失超传播特性, 探索了堆叠带材在不同工作电流下传播速度(NZPV) 等参数的变化趋势, 同时探究了不同铜稳定层厚度下并绕堆叠带材失超传播规律. 结果表明缺陷区域面积增加以及铜稳定层厚度减小, 都将导致双根并绕堆叠结构的二代高温超导带材失超传播速度增加, 在带材上的温升增加, 增加失超的风险. 研究结果可以为超导设备安全稳定运行参数设置提供支持.
关键词:  第二代高温超导带材, 不均匀性, 稳定性, 失超传播速度
DOI:
基金项目:
Study on the Quench Characteristics of Double Stacked YBCO Tape under Defects
YANG Song1, LIU Yanchao2, ZHANG Yan3, LEI Xiandao2, LIAO Xu1, FANGJin1
(1.School of Electrical Engineering , Beijing Jiaotong University , Beijing , 100044, China;2.Institute of Science and Technology , China Three Gorges Corporation , Beijing , 100038, China;3.State Grid Shaanxi Electric Power Company Xi ’an Power Supply Company , Xi'an , 710032,China)
Abstract:
Double stacked YBCO tapes are widely used in coil winding of large superconducting devices because of their ability to further increase the current density of the device. In this paper, the finite element analysis method is applied the to investigate the quench characteristics of double stacked YBCO tapes with defective outer insulation, and the quench characteristics of double stacked YBCO tapes with different defects are studied. The trend of the normal zone propagation velocity (NZPV) at different operating currents was investigated, and the quench propagation of the stacked tapes with different copper stabilization layer thicknesses was also investigated. The results show that the increase of the defect area and the decrease of the thickness of the copper stabilization layer will lead to the increase of the NZPV of the second generation high temperature superconducting tapes with double stacking structure and the increase of the temperature rise on the structure, which will increase the risk of quench. The results of the study can support the setting of parameters for safe and stable operation of superconducting devices.
Key words:  Second-generation high-temperature superconductor, Inhomogeneity, Stability, Normal zone propagation velocity

用微信扫一扫

用微信扫一扫