Analysis on the Dielectric Characteristics of Insulation Gases for Developing a High Voltage Superconducting Fault Current Limiter

Kang H.; Ko T. K.

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Analysis on the Dielectric Characteristics of Insulation Gases for Developing a High Voltage Superconducting Fault Current Limiter

机译：开发高压超导故障限流器的绝缘气体介电特性分析

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摘要

A sub-cooled liquid nitrogen $({rm LN}_{2})$ cooling system is known as an appropriate method for developing a high voltage superconducting fault current limiter (SFCL). The pressure of a sub-cooled ${rm LN}_{2}$ cooling system should be controlled by injecting non-condensable gas such as gaseous helium (GHe) and gaseous neon (GNe) into the cryostat. Therefore, the electrical breakdown voltage of current leads is directly influenced by an injected gaseous medium. In this study, electrical insulation experiments on GHe and GNe are conducted and the results are compared with each other. Also, the dielectric characteristics of GHe and GNe are analyzed by using field utilization factors. It is found that the dielectric characteristics of GHe are superior to those of GNe under the same conditions. The experimental results are applicable for designing the current leads of a high voltage superconducting fault current limiter.

机译：过冷的液氮（{rm LN} _ {2}）$冷却系统是开发高压超导故障限流器（SFCL）的合适方法。过冷的$ {rm LN} _ {2} $冷却系统的压力应通过将不可冷凝的气体（例如气态氦（GHe）和气态氖（GNe））注入低温恒温器来控制。因此，电流导线的击穿电压直接受到注入的气态介质的影响。在这项研究中，进行了GHe和GNe的电绝缘实验，并将结果进行了比较。另外，通过使用场利用因子来分析GHe和GNe的介电特性。发现在相同条件下，GHe的介电特性优于GNe。实验结果可用于设计高压超导故障限流器的电流引线。

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来源
《Applied Superconductivity, IEEE Transactions on》 |2011年第3期|p.1332-1335|共4页
作者
Kang H.; Ko T. K.;
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作者单位

Department of Electrical Engineering, Chungju National University, Chungju, Korea;

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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
中图分类
关键词
Current lead; electrical breakdown; gas insulation; high voltage superconducting apparatus; sub-cooled liquid nitrogen;

机译：电流引线;电击穿;气体绝缘;高压超导设备;过冷液氮;

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1. Experimental Study on the Lightning Impulse Dielectric Characteristics of Sub-Cooled Liquid Nitrogen for a High Voltage Superconducting Fault Current Limiter [J] . Na J. B., Kang H., Kim Y. J., Applied Superconductivity, IEEE Transactions on . 2011,第3期

机译：高压超导故障限流器亚冷液氮雷电冲击介电特性的实验研究
2. Analysis of Fault Current Limiting Characteristics According to the Fault Angle in an Integrated Three-Phase Flux-Lock Type Superconducting Fault Current Limiter [J] . Park C.-R., Du H.-I., Choi B.-H., IEEE Transactions on Applied Superconductivity . 2008,第2期

机译：三相磁通锁定型超导故障限流器中基于故障角的故障限流特性分析
3. Analysis of Unsymmetrical Faults in High Voltage Power Systems With Superconducting Fault Current Limiters [J] . Stemmle M., Neumann C., Merschel F., IEEE Transactions on Applied Superconductivity . 2007,第2期

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4. The Electrical Insulation Study of High Voltage Current Leads for Superconducting Fault Current Limiter [C] . X.D.Zhang, L.Z.Lin, Y.S.Han International conference on magnet technology;MT-15 . 1998

机译：超导故障限流器高压电流引线的电绝缘研究
5. A non-superconducting fault current limiter (NSFCL). [D] . Chen, Song. 2014

机译：非超导故障电流限制器（NSFCL）。
6. Study of Resistive-Type Superconducting Fault Current Limiters for a Hybrid High Voltage Direct Current System [O] . Lei Chen, Huiwen He, Guocheng Li, 2019

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7. High-Voltage Superconducting Fault Current Limiters Based on High-Diffusivity Dielectric Substrates [O] . Guy Deutscher 2018

机译：基于高扩散介电基板的高压超导故障电流限制器

Analysis on the Dielectric Characteristics of Insulation Gases for Developing a High Voltage Superconducting Fault Current Limiter

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