[1]谢 飞,屈 鲁,金 环.非线性变压器理论在高压直流故障电流限制器中的应用研究[J].高压电器,2019,55(09):57-63.[doi:10.13296/j.1001-1609.hva.2019.09.008]
 XIE Fei,QU Lu,JIN Huan.Application of Nonlinear Transformer Theory in HVDC Fault Current Limiter[J].High Voltage Apparatus,2019,55(09):57-63.[doi:10.13296/j.1001-1609.hva.2019.09.008]
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非线性变压器理论在高压直流故障电流限制器中的应用研究()
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《高压电器》[ISSN:1001-1609/CN:61-11271/TM]

卷:
第55卷
期数:
2019年09期
页码:
57-63
栏目:
直流变压器专题
出版日期:
2019-09-30

文章信息/Info

Title:
Application of Nonlinear Transformer Theory in HVDC Fault Current Limiter
作者:
谢 飞12 屈 鲁3 金 环4
(1. 顺德职业技术学院智能制造学院, 广东 佛山 528300; 2. 华南理工大学自动化学院 , 广州 510640; 3. 清华大学电机 工程与应用电子技术系, 北京 100084; 4. 中国科学院等离子体物理研究所, 合肥  230031)
Author(s):
XIE Fei12 QU Lu3 JIN Huan4
(1. Department of Intelligent Manufacturing, Shunde Polytechnic, Guangdong Foshan 528300, China; 2. School of Automation Science and Engineering, South China University of Technology, Guangzhou 510640, China; 3. Department of Electrical Engineering, Tsinghua University, Beijing 100084, China; 4. Institute of Plasma Physics, Chinese Academy of Sciences, Hefei 230031, China)
关键词:
先进实验超导托卡马克 故障电流限制器 平行四边形磁滞模型 铁心叠片 变压器非线性模型
Keywords:
experimental advanced superconducting TOKAMAK(EAST) fault current limiter(FCL) parallelogram hysteresis loop core lamination nonlinear transformer model
DOI:
10.13296/j.1001-1609.hva.2019.09.008
摘要:
高压直流故障电流限制器(fault current limiter,FCL)是先进超导托卡马克装置 系统中用于抑制短路电流,保护中性束注入系统的一种类变压器装置。文中从变压器铁心叠片 的涡流损耗特性出发,采用分段线性插值的方法对FCL非线性磁滞回线模型进行优化,推导出 非线性激磁电阻与电感的并联模型。通过仿真及实验的对比分析,结果表明优化磁滞回线模型 仿真波形与试验结果吻合度高,短路电流抑制效果良好。
Abstract:
Fault current limiter(FCL) is a sort of quasi-transformer that inhibits short-circuit current and protect neutral beam injector in the system of the experimental advanced superconducting TOKAMAK(EAST). Starting from the eddy-current loss properties of transformer core disk, this paper adopted the piecewise linear interpolation method to optimize the HVDC FCL non-linear hysteresis loop and derive a nonlinear exciting resistance-inductance parallel model. A comparative analysis of simulation and experimental results indicates the optimized hysteresis loop model’s simulation waveform fits well with the experimental results, and short-circuit current suppression effect is good.

参考文献/References:

[1] GAO Xiang. Sustained high βN plasmas on EAST TOKAMAK[J]. Physics Letters A, 2018,382(18):1242-1246.
[2] 胡纯栋,许永建.EAST中性束注入器研制进展[J]. 核技术,2015,38(11): 110603. HU Chundong XU Yongjian. Development progresses of EAST neutral beam injector[J]. Nuclear Techniques,2015,38(11): 110603.
[3] 胡立群,张晓东,姚若河. EAST 托卡马克的中性束注入方案[J]. 核技术,2006, 29(2): 142-152. HU Liqun,ZHANG Xiaodong,YAO Ruohe. EAST neutral beam injection project for EAST TOKAMAK[J]. Nuclear Techniques,2015,2006,29(2): 142-152.
[4] GE Li. On the safety of ITER accelerators[J]. Nature: Scientific Reports ,2013(6):2602.
[5] 李建刚. 托卡马克研究的现状及发展[J]. 物理,2016,45(2): 88-97. LI Jiangang.The status and progress of tokamak research[J]. Physics,2016,45(2): 88 -97.
[6] WANG Haitian,LI Ge,CAO Liang,et al. Parameter analysis for arc snubber of EAST neutral beam injector[J]. Plasma Science and Technology,2010,12(4): 499 -505.
[7] LI Ge,WANG Haitian,CAO Liang. The engineering design of NB snubber[J]. IEEE Transactions on Dei.,2011,18(4): 1287-1292.
[8] 曹 亮,李 格,王海田.直流高压缓冲器的研制[J]. 高电压技术,2010,36 (4):1269-1274. CAO Liang,LI Ge,WANG Haitian. Development of iron core snubber[J]. High Voltage Engineering,2010,36(4):1269-1274.
[9] 谢 飞,李 格,陈强健,等. 高压直流故障电流限制器的研制[J]. 武汉理工大学 学报,2013,35(5):134-139. XIE Fei,LI Ge,CHEN Qiangjian,et al. Research on high voltage direct current fault current limiter[J]. Journal of Wuhan University of Technology,2013,35(5):134-139.
[10] XIE Fei,LI Ge,CHENG Desheng.Analysis and development of a high performance core snubber based on deltamax[J]. IEEE Transactions on Dielectrics and Electrical Insulation,2013,20(4): 1056-1061.
[11] CAO Liang,LI Ge. Complete parallelogram hysteresis model for electric machines[J]. IEEE Transactions on Energy Conversion,2010,25(3): 626-632.
[12] QU Lu,LI Ge,XIE Fei,et al. Modeling,Simulation and analysis of the HV Snubber[J]. IEEE Transactions on plasma science. 2015,43(2): 603-609.
[13] 屈 鲁,李 格. 高压直流缓冲器的建模分析及应用[J]. 电网技术,2016,40 (6): 1766-1771. QU Lu,LI Ge. Modeling and simulation analysis on HVDC Snubber[J]. Power System Technology,2016,40(6):1766-1771.
[14] 付 鹏,李 格,周银贵,等. Snubber用高频高压隔离偏置电源研究[J]. 电源技 术,2012,36(1):111-117. FU Peng,LI Ge,ZHOU Yingui,et al. Study on high frequency high voltage insulation bias current supply for Snubber[J]. Power Supply Technology,2012,36(1):111-117.
[15] XIE Yahong,HU Chundong,LIU Sheng,et al. Arc discharge regulation of a megawatt hot cathode bucket ion source for the experimental advanced superconducting tokamak neutral beam injector[J]. Review of Scientific Instruments ,2012,83(1):013301.
[16] WANG Haitian,LI Ge,TANG Guangfu,et al. Equivalent circuit analysis for core snubber[J]. IEEE Transactions on Plasma Science,2012,40(3): 635-640.
[17] PESCEA A,LORENZIA A,DE GRANDOA L. A new approach to passive protection against high energy and high current breakdowns in the ITER NBI accelerator[J]. Fusion Engineering and Design,2009,(84): 1499-1504.
[18] CHOI J,NAMIHIRA T,SAKUGAWA T,et al. Loss characteristics of a magnetic core for pulsed power applications[J]. IEEE Transactions on Plasma Science,2007,35(6):1791-1796.
[19] FINK J H. BAKER W R,OWREN H M. Analysis and application of a transformer core that acts as an arc snubber[J]. IEEE Transactions on Plasma Science,1980,8(1):33-38.
[20] LI Ge. High-gain high-field fusion plasma[J]. Nature: Scientific Reports ,2015(5):15790.
[21] XIE Fei,LI Ge,CHENG Desheng. Analysis and application of the series core snubber[J]. Plasma Science and Technology,2013,15(5): 469-475.
[22] WATANABE K,YAMAMOTO M,TAKEMOTO J,et al. Design of a -1-MV dc UHV power supply for ITER NBI[J]. Nuclear Fusion,2009,49(5): 332-339.
[23] WATANABE K,MIZUNO M. Development of a high performance core snubber for high power neutral beam injectors[J]. Review of Scientific Instruments,1998,69 (12): 4136-4141.
[24] WINTER S D,KUENING R W,BERG G G. Pulse properties of large 50-50 NiFe tape cores[J]. IEEE Transactions on Magn,1970,41(6):41-45.
[25] HUANG Yiyun,LI Wei,WANG Junjia,et al. Analysis and design of the iron core as the arc snubber in the EAST NBI system[J]. Plasma Science and Technology, 2010,12(3):330-334.
[26] BURDT R,CURRY R D. Magnetic core test stand for energy loss and permeability measurements at a high constant magnetization rate and test results for nanocrystal line and ferrite materials[J]. Review of Scientific Instruments, 2008,79(9): 094703-1:094703-5.

备注/Memo

备注/Memo:
收稿日期:2019-07-09; 修回日期:2019-08-11基金项目:国家磁约束聚变工程专项(2010GB108003);中国科学院合肥物质科学研究院院长基 金专项(YZJJ2018QN11);广东省自然科学基金专项(2017A030310640);广东省数字化工厂工程 技术研究中心专项(2018-KJZX014)。 Project Supported by National Magnetic Confinement Fusion Science Program of China(2010GB108003),Special Foundation of Presidential Foundation of the Hefei Institute of Physical Science(YZJJ2018QN11),Chinese Academy of Sciences,Natural Science Foundation of Guangdong Province of China(2017A030310640),Special Project of Digital Factory of Guangdong Engineering Technology Research Center(2018- KJZX014).谢 飞(1980—),男,副教授,工学博士后,研究方向为电气可靠性分析、高频脉冲 电源技术、逆变器软开关技术。
更新日期/Last Update: 2019-09-10