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基于电压补偿原理的超导储能-限流集成系统 被引量:7

A Superconducting Magnetic Energy Storage-Current Limiting Integrated System (SMES-CL) Based on Voltage Compensation Principle
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摘要 基于电压补偿原理,将串联式超导储能系统和限流电抗器集成起来,提出了一种超导储能- 限流集成系统(SMES-CL)。该系统不仅解决了限流电抗器带来的稳态无功压降问题,而且解决了串联式超导储能系统保护困难的问题。它既可以快速自动投入限制故障电流以保护整个变电站和自身,还可以对系统进行功率补偿以提高电能质量。文中分析了SMES-CL的集成结构,对于它的工作原理,包括稳态补偿原理和故障限流原理进行了讨论。在一个SMES-CL模型样机上进行了试验,验证了它的有效性。 Based on voltage compensation principle, a superconducting magnetic energy storage-current limiting (SMES-CL) integrated system is proposed by integrating series SMES (SSMES) and fault current limiting inductor. SMES-CL solves the problem of the steady passive voltage brought by the fault current limiting inductor and that of the protection for SSMES. SMES-CL not only can limit the fault current very quickly and automatically to protect the whole substation and itself, but also can compensate the system with active and passive power to improve the power quality. The integrated configuration of SMES-CL is given, and its operating principles including the steady compensation principle and the fault current limiting principle are also analyzed. The SMES-CL is tested on a prototype model and its validity is confirmed.
作者 赵彩宏 郭风 郭文勇 黄晓华 刘昕 肖立业 林良真 余运佳
机构地区 中国科学院电工研究所应用超导重点实验室
出处 《电力系统自动化》 EI CSCD 北大核心 2006年第2期68-71,108,共5页 Automation of Electric Power Systems
基金 国家杰出青年科学基金资助项目(50225723)中国高技术研究发展计划(863计划)资助项目(2002AA306351)中国科学院创新方向性项目资助(KGCX2-SW-307)。
关键词 超导储能-限流集成系统 电压补偿 串联式超导储能系统 限流电抗器 集成结构 superconducting magnetic energy storage current limiting (SMES-CL) integrated system voltage compensation series superconducting magnetic energy storage (SSMES) fault current limiting inductor integrated configuration
分类号 TM917 [电气工程—电力电子与电力传动]
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参考文献13

  • 1LAMOREE J, MUELLER D, VINETT P et al. Voltage Sag Analysis Case Studies. IEEE Trans on Industry Applications,1994, 30(4): 1083-1089.
  • 2CHAEBS, LEE W C, HYUN D S et al. An Over Current Protection Scheme for Series Active Compensators. In:Proceedings of 27th Annual Conference of the IEEE on Industrial Electronics Society, Vol 2. Denver (CO, USA):2001. 1509-1514.
  • 3CHAEB S, LEE W C, LEE T K et al. A Fault Protection Scheme for Unified Power Quality Conditioners. In:Proceedings of 4th IEEE International Conference on Power Electronics and Drive Systems, Vol 1. Denpassar (Indonesia):2001. 66-71.
  • 4MORAN L A, PASTORNI I, DIXON J. A Fault Protection Scheme for Series Active Power Filters. IEEE Trans on Power Electronics, 1999, 14(1): 928-938.
  • 5PAASI J, LEHTONEN J, VERHAEGE T et al. Design Performance of a Superconducting Power Link. IEEE Trans on Applied Superconductivity, 2001, 11(1):1928-1931.
  • 6KURUPAKORN C, HAYAKAWA N, KASHIMA N et al.Development of High Temperature Superconducting Fault Current Limiting Transformer (HT/sub c/-SFCLT) with Bi2212 Bulk Coil, IEEE Trans on Applied Superconductivity,2004, 14(2): 900-903.
  • 7YOKOYAMA K, SATO T, NOMURA T et al. Application of Single DC Reactor Type Fault Current Limiter as a Power Source. IEEE Trans on Applied Superconductivity, 2001, 11(1): 2106-2109.
  • 8KAMOLYABUTRA D, MITANI Y, TSUJI K. System Stabilizing Control and Current Limiting by a SMES with a Series Phase Compensator. IEEE Trans on Applied Superconductivity, 2001, 11(1): 1753-1756.
  • 9KAMOLYABUTRA D, MITANI Y, TSUJI K. Evaluation on Fault Current Limiting and Power System Stabilization by a SMES with a Series Phase Compensator, In: 2001 IEEE Porto Power Tech Proceedings, Vol 2. Porto (Portugal):2001.6-12.
  • 10WANG Zan-ji, ZHANG Guo-qiang, QIU Ming. The Feasibility Study on the Combined Equipment Between Micro-SMES and Inductive/Electronic Type Fault Current Limiter.IEEE Trans on Applied Superconductivity, 2003,13(2) :2116-2119.

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电力系统自动化
2006年 第2期

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