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浙江大学学报(工学版)
J4  2014, Vol. 48 Issue (4): 616-624    DOI: 10.3785/j.issn.1008-973X.2014.04.009
电气工程     
核电汽轮发电机定子线棒换位及相关因素分析
吴磊, 梁艳萍
哈尔滨理工大学 电气与电子工程学院,黑龙江 哈尔滨 150080
Stator bar transposition and analysis of related factors of nuclear turbo-generator
WU Lei, LIANG Yan-ping
School of Electrical and Electronic Engineering, Harbin University of Science and Technology, Harbin 150080, China
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摘要:

为了保障核电汽轮发电机的绝缘安全和提高运行效率,在工程中一般采用定子双罗贝尔换位线棒来减小股线环流损耗.针对传统解析法无法精确计算股线沿换位路径所有的漏磁分布情况,以一台600 MW汽轮发电机为例,建立齿槽定子线棒双罗贝尔换位方式三维实体模型,结合场路耦合法进行数值计算.通过对线棒不同换位编织方式的对比分析得出,采用不等换位节距,长换位节距越靠近槽中心段,股线数目越少,空心股线空心率越高,则槽中心线磁通密度Bx分量沿轴向的“凸起状”越不明显,股线电流有效值的差异性越小,股线的环流损耗越小.
Abstract:

Stator double-Roebel transposition bar was used to reduce circulating current losses in engineering in general in order to guarantee insulation safety and improve operational efficiency of nuclear turbo-generator. Traditional analytical method can not accurately calculate all distributions of leakage magnetic flux along the strand transposition path. A 600 MW turbo-generator was set as an example and three-dimensional solid model of stator bars with double-Roebel transposition way in a single slot was established. The field-circuit coupling method was used in numerical calculation. Comparative analysis of different transposition weave ways of bar showed that if unequal transposition pitch was adopted, the long transposition pitch was near slot center section, the number of strands was fewer and the hollow ratio of hollow strands was higher. Then “convex” of flux density Bx component of groove centerline along axial direction was less obvious, the difference of current virtual value among strands was smaller and the circulating current loss of strands was smaller.
出版日期: 2014-09-03
:  TM 311  
通讯作者: 梁艳萍,女,教授,博导.     E-mail: liangyanping2010@126.com
作者简介: 吴磊(1987—),男,博士生,从事电机电磁场数值计算的研究. E-mail: wl19870617@126.com
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引用本文:

吴磊, 梁艳萍. 核电汽轮发电机定子线棒换位及相关因素分析[J]. J4, 2014, 48(4): 616-624.

WU Lei, LIANG Yan-ping. Stator bar transposition and analysis of related factors of nuclear turbo-generator. J4, 2014, 48(4): 616-624.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2014.04.009        http://www.zjujournals.com/eng/CN/Y2014/V48/I4/616

[1] XIA Sheng, YAO Ying-ying. Optimization of transposition in stator bars of hydro-generators [C]∥6th International Conference on Electromagnetic Field Problems and Applications (ICEF). Dalian: IEEE, 2012: 1-4.
[2] FUJITA M, KABATA Y, TOKUMASU T, et al. Circulating currents in stator coils of large turbine generator and loss reduction [J]. IEEE Transactions on Industry Applications, 2009, 45(2): 685-693.
[3] BENNINGTON B J, BRENNER W C. Transpositions in turbogenerator coil sides short circuited at each end [J]. IEEE Transactions on Power Apparatus and Systems, 1970, PAS-89(8): 1915-1921.
[4] 梁艳萍,吴磊,边旭.基于多截面场路耦合法的大型水轮发电机定子线棒换位分析[J].电机与控制学报,2013, 17(8): 63-69.
LIANG Yan-ping, WU Lei, BIAN Xu. Stator bars transposition analysis of large hydro-generator based on multi-section method coupled field-circuit [J]. Electric Machines and Control, 2013,17(8): 63-69.
[5] 汪耕. 大型汽轮发电机设计、制造与运行[M].上海:上海科学技术出版社,2000.
[6] 梁艳萍,孙洋,孙玉田.1000MW水轮发电机定子股线环流损耗分析计算[J].电机与控制学报,2011,15(7): 65-70.
LIANG Yan-ping, SUN Yang, SUN Yu-tian. Calculation and analysis on circulating current losses in the stator bar strands of a 1000MW hydro-generator [J]. Electric Machines and Control, 2011,15(7):  65-70.
[7] REDDY P B, JAHNS T M, BOHN T P. Transposition effects on bundle proximity losses in high-speed PM machines [C]∥IEEE Energy Conversion Congress and Exposition.San Jose: IEEE,2009: 19191926.
[8] 韩力,石小坤,郭宁.水轮发电机定子线棒换位新方法研究[J]. 大电机技术,2009(3): 1-5.
HAN Li, SHI Xiao-kun, GUO Ning. New method for the stator bar transposition of hydrogenerators [J]. Large Electric Machine and Hydraulic Turbine, 2009(3): 1-5.
[9] 张日强,宋文谦.大型交流电机定子线棒换位技术综述[J].大电机技术,2001(1): 22-23.
ZHANG Ri-qiang, SONG Wen-qian. A review on the transposition of stator bar for large AC electric machines [J]. Large Electric Machine and Hydraulic Turbine, 2001(1): 22-23.
[10] 郭有光,王雪帆,朱建国.电机定子线棒股线间环流的简化计算模型[J].华中理工大学学报,2000, 28(5): 86-88.
GUO You-guang, WANG Xue-fan, ZHU Jian-guo. Simplified calculation model to circulation among stator bar strands [J]. Huazhong University of Science and Technology Journal, 2000, 28(5): 86-88.
[11] 王国海.三峡右岸全空冷水轮发电机关键技术研究[J].中国电机工程学报,2009, 29(15): 74-79.
WANG Guo-hai. Research on key technologies of installed in three gorges right bank station fully air cooled hydro-generators [J]. Proceedings of the CSEE, 2009, 29(15): 7479.
[12] 郭宁,韩力,石小坤.水轮发电机定子线棒4种换位的分析与比较[J].重庆大学学报:自然科学版,2007,30(2): 42-45.
GUO Ning, HAN Li, SHI Xiao-kun. The analysis and comparison of four transpositions of hydrogenerator stator bars [J]. Journal of Chongqing University: Natural Science Edition, 2007,30(2): 42-45.
[13] 周光厚.大型水轮发电机定子线棒换位方式研究[J].东方电机,2004(2): 27-30.
ZHOU Guang-hou. The research of stator bars transposition way of large-scale hydro-generator [J]. Dongfang Electrical Machinery, 2004(2): 2730.
[14] 罗荣杰,温方方.大型汽轮发电机定子绕组线棒内环流损耗的分析[J].大电机技术,1994(2): 1724.
LUO Rong-jie, WEN Fang-fang. Analysis of the circulating current loss of stator winding bars of large turbogenenrators [J]. Large Electric Machine and Hydraulic Turbine, 1994(2): 17-24.
[15] HATTORI K, IDE K, TAKAHASHI K, et al. Performance assessment study of a 250MVA air-cooled turbo generator [C]∥ IEEE Electric Machines and Drives Conference.Madison: IEEE,2003: 124-128.
[16] TANIYAMA Y, UEDA T, FUJITA M, et al. Technologies for high efficiency large capacity turbine generator [C]∥International Conference on Electrical Machines and Systems. Tokoy: IEEE, 2009: 16.
[17] NAGAKURA K, OTAKA T, KAKIUCHI M, et al. Development of the world’s largest hydrogen indirectly cooled turbine generator [C]∥ International Conference on Electrical Machines and Systems. Tokoy: IEEE, 2009: 1-6.
[18] HALDEMANN J. Transposition in stator bars of large turbogenerators [J]. IEEE Transactions on Energy Conversion,2004,19(2): 553560.
[19] HATTORI K, TAKAHASHI K, IDE K. Calculation of temperature in a large turbine generator with multilayer Roebel transposition coils [C]∥Papers of Technical Meeting on Rotating Machinery, 2003, RM-3(113-134): 75-80.
[20] 张道岩,李金香.定子绕组换位方案优化设计[J]. 上海大中型电机, 2004(2): 12-15.
ZHANG Dao-yan, LI Jin-xiang. Optimum design of stator winding transposition [J]. Shanghai Large and Medium Motors, 2004(2): 12-15.
[21] 杜灿勋,桂卫华,周光厚.大型全空冷水轮发电机定子线棒损耗和温度场综合计算[J].中国电机工程学报,2012,32(12): 111-119.
DU Can-xun, GUI Wei-hua, ZHOU Guang-hou.Excessive losses and temperature field calculation of stator coil bars in air-cooled large hydro-generators [J]. Proceedings of the CSEE, 2012, 32(12): 111-119.
[22] 姜可熏,韩力.田坝弃水电站的水轮发电机定子线棒换位的分析计算[J].东方电机,1995(2): 23-30.
JIANG Ke-xun,HAN Li.Calculation and analysis on stator bar transposition of hydro-generator of Tianbaqi [J]. DongFang Electrical Machine,1995(2): 2330.
[23] 梁艳萍,边旭,于鸿浩,等. 多线棒不完全换位定子绕组环流损耗的分析计算[J].中国电机工程学报,2013, 33(24): 168-174.
LIANG Yan-ping, BIAN Xu, YU Hong-hao, et al. Analysis and calculation on circulating current loss in stator winding with multiple bars per layer of deficient transposition [J]. Proceedings of the CSEE, 2013, 33(24): 168-174.
[24] 汤藴璆,梁艳萍.电机电磁场的分析与计算[M]. 北京:机械工业出版社,2010: 99-105.
[25] 谢德馨,姚缨英,白保东,等.三维涡流场的有限元分析[M].北京:机械工业出版社,2001: 11-25.
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