Liquid nitrogen level meter for high-temperature superconductor (HTS) 被引量：1

Liquid nitrogen level meter for high-temperature superconductor (HTS)

下载PDF

导出

摘要 Many kinds of high temperature superconductor (HTS) power machines such as HTS cable,HTS fault current limiter and HTS magnet are cooled by liquid nitrogen.The level of liquid nitrogen should be monitored and controlled to ensure the thermal stability and the dielectric strength as well.To measure the level,capacitance method and differential pressure method are usually used.However,each method has installation difficulties and measurement errors for unsteady state operation with varying system pressure.A new liquid level meter using a 2G HTS conductor is described,which has similar structure with the liquid helium level meter with NbTi filament.The level meter is fabricated with a parallel connected heater,which helps the separation of the superconducting region and normal region,considering the critical temperature,large heat capacity of conductor and cooling characteristics.The level of liquid nitrogen can be obtained from the measured voltage signal along the 2G HTS conductor.Design,fabrication and test results of the new liquid nitrogen level meter are presented. Many kinds of high temperature superconductor （HTS） power machines such as HTS cable, HTS fault current limitcr and HTS magnet are cooled by liquid nitrogen. The level of liquid nitrogen should be monitored and controlled to ensure the thermal stability and the dielectric strength as well. To measure the level, capacitance method and differential pressure method are usually used. However, each method has installation difficulties and measurement errors for unsteady state operation with varying system pressure. A new liquid level meter using a 2G HTS conductor is described, which has similar structure with the liquid helium level meter with NbTi filament. The level meter is fabricated with a parallel connected heater, which helps the separation of the superconducting region and normal region, considering the critical temperature, large heat capacity of conductor and cooling characteristics. The level of liquid nitrogen can be obtained from the measured voltage signal along the 2G HTS conductor. Design, fabrication and test results of the new liquid nitrogen level meter are presented.

作者 PARK Heecheol JEONG Hwanjun LEE Changyeung KIM Purn CHO Jangwon KIM Seokho

机构地区 School of Mechatronics

出处《Journal of Central South University》 SCIE EI CAS 2012年第11期3100-3104,共5页 中南大学学报（英文版）

基金 Project supported by the Second Stage of Brain Korea 21 Projects

关键词高温超导电缆液氮冷却 HTS 高温超导磁体测量误差液态氮水平仪动力机械 high temperature superconductivity liquid nitrogen level meter quench

分类号 TH816 [机械工程—精密仪器及机械]

引文网络
相关文献

参考文献12

1CHO Jeon-wook, SIM Ki-deok, BAE Joon-han. 2 design and experimental results of a 3 phase 30 m HTS power cable [J]. IEEE Transactions on Applied Superconductivity, 2006, 16(2): 1051 - 1054.
2MASUDA T, YUMURA H, WATANABE M. Recent progress of HTS cable project [J]. Physica C, 2008, 468(15-20): 2014-2017.
3KOTARI M, KOJIMA H, HAYAKAWA N. Development of 2 MVA class superconducting fault current limiting transformer (SFCLT) with YBCO coated conductors [J]. Journal of Physics: Conference Series, 2010, 234: 032070.
4GAMBLE B, SNITCHLER G, MACDONALD T. Full power test of a 36.5 MW HTS propulsion motor [J]. IEEE Transactions on Applied Superconductivity, 2011, 21(3): 1083-1088.
5KIM S, SIM K, KIM H J. Thermal characteristics of conduction cooled 600 kJ HTS SMES system [J]. IEEE Transactions on Applied Superconductivity, 2008, 18(2): 750-753.
6CHEON H G: CHOI J H, CHOI J W. Insulation design of HTS transformer with the use of continuous transposed conductor [J]. Physica C, 2010, 470(2): 1679-1683.
7KOO J Y, LEE S H, SHIN W J. Measurement of partial discharge inception characteristics in sub-cooled liquid nitrogen [J]. Physica C, 2011, 471(21/22): 1565-1569.
8HAYAKAWA N, YAMAGUCHI R, UKAI Y. Partial discharge activities under AC/impulse superimposed voltage in LN2/polypropylene laminated paper insulation system for HTS cables [J]. Journal of Physics: Conference Series, 2010, 234: 032020.
9BAEK S M, RYOO H S, KIM S FI. A study on the surface flashover characteristics for a HTS cable termination [J]. Cryogenics, 2005, 45(1): 51-55.
10MATSUMOTO K, SOBUE M, ASAMOTO K. Capacitive level meter for liquid hydrogen [J]. Cryogenics, 2011, 51 (2): 114-115.

同被引文献3

1曹建,安刚,马晨辉,岳婷.低温液位计[J].导弹与航天运载技术,2008(6):52-54. 被引量：6
2马登奎,毕延芳,冯汉升,袁春燕.浮力式低温液位计的设计原理及运行工况分析[J].低温与超导,2009,37(7):16-19. 被引量：3
3江芋叶,张鹏.浆氮电容式密度计及液位计的实验研究[J].低温与超导,2010,38(5):19-23. 被引量：12

引证文献1

1李亦健,吴舒琴,金滔.低温浆体电容式液位计的优化及实验[J].浙江大学学报（工学版）,2018,52(5):966-970. 被引量：2

二级引证文献2

1刘岳鹏,蔡睿,敖春芳.低温介质下电容液位测量系统的研究[J].计算机测量与控制,2021,29(7):74-78. 被引量：3
2郑珺,温鹏,胥译欢.面向超导钉扎磁浮的液氮液位检测方法研究现状[J].低温物理学报,2022,44(2):146-156.

1黄顺礼,黄向阳.21世纪——电力设备应用超导材料的时代[J].电气时代,2000(5):8-9.
2谢廷芳.高科技钻头——HTS—C和HTS[J].机械工人（冷加工）,1998(6):6-6.
3Thomas J.Ward,张水忠.液态和气态氮对铝挤压生产率的影响[J].模具技术,1989(2):4-11.
4超导材料[J].电技术：英文版,2005(4):8-9.
5Fritz Klocke Alexander Kramer Dieter Lung.液氮冷却提高刀具寿命[J].现代制造,2012(5):62-64.
6宋萌,陈路,任丽,王作帅,胡南南,曹昆南,于兵.超导可控电抗器低温系统冷却管道设计[J].低温与超导,2015,43(2):55-58. 被引量：2
7王珀.超导体不寻常[J].百科知识,2005(04X):12-13.
8范宇峰,龚领会,徐向东,李来风,张亮,肖立业.10米10.5kV/1.5kA三相交流高温超导电缆液氮冷却系统的设计[J].低温工程,2004(2):27-29. 被引量：5
9日本超导线应用的七大工程[J].金属功能材料,2014,21(5):13-13.
10马钟锦.钕系氧化物超导体[J].世界发明,1996(9):17-17.

Journal of Central South University

2012年第11期

浏览历史

内容加载中请稍等...

Liquid nitrogen level meter for high-temperature superconductor (HTS) 被引量：1

参考文献12

同被引文献3

引证文献1

二级引证文献2

相关作者

相关机构

相关主题

浏览历史