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采用基准模型的导磁钢板及取向硅钢叠片的电磁特性 被引量:8

Electromagnetic Properties of Solid and Laminated Steel Using the Benchmark Models
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摘要 为了研究电力变压器内由导磁钢板和取向硅钢片组成的结构件在实际工作状态下的电磁特性,基于Problem21基准族中的Model B及Model M1,考察不同激励方式下导磁钢板及取向硅钢片的损耗和磁通的分布,研究不同激励源之间的交叉作用对导磁钢板和取向硅钢片特性的影响,提出解决计算三维非线性和各向异性涡流问题的实用措施,不同激励方式下铁损和磁通的计算结果和测量结果具有较好一致性,所得结果和结论有助于通过优化设计来提高电力变压器的性能指标。 In order to study the working electromagnetic properties of the transformer structural parts,which are made of the magnetic steel plate and the grain-oriented silicon steel.The effect of the excitation patterns on both the iron loss and flux inside the solid magnetic steel plate and the laminated silicon steel sheets were investigated in detail based on P21-B and P21-M1.The different electromagnetic behavior of the laminated or solid magnetic steel under the interaction between individual excitations was also examined.Some practical approaches were proposed to solve the nonlinear and anisotropic eddy current problems under 3D excitation conditions.All the calculated and measured results of both iron loss and flux for different test cases are practically in good agreement.
作者 杜永 程志光 颜威利 范亚娜 赵志刚 刘兰荣
机构地区 河北工业大学电气与自动化学院 保定天威集团技术中心
出处 《高电压技术》 EI CAS CSCD 北大核心 2010年第5期1199-1204,共6页 High Voltage Engineering
基金 国家自然科学基金(50777042) 河北省自然科学基金(E2006001036)~~
关键词 导磁钢板 取向硅钢片 各向异性 PROBLEM 21基准族 铁损 磁通 magnetic steel plate grain-oriented silicon steel anisotropy Problem 21 benchmark families iron loss magnetic flux
分类号 TM41 [电气工程—电器]
  • 相关文献

参考文献15

  • 1Xie D, Cheng Z. Development of magnetic characteristic modeling of electrical steel sheet in computational electromagnetics[C] // Electromagnetic Field Problems and Applieations-II, Vol 22, TSI Press Series. Hawaii, USA: [s. n. ], 2008: 351-355.
  • 2杜永,程志光,谢德馨,颜威利,范亚娜,张俊杰,刘兰荣.各向异性取向硅钢片的多方向磁性能模拟[J].高电压技术,2009,35(12):3022-3026. 被引量:16
  • 3Yang Sumei, Cheng Zhiguang, Yan Weili, et al. Stray loss analysis for magnetic shielding with lamination[C]// ICEMS. Wuhan, China: IEEE, 2008: 907-911.
  • 4Du Y, Cheng Z, Zhang J, et al. Additional iron loss modeling inside silicon steel laminations [C]// IEMDC. Miami, USA: IEEE, 2009: 826-831.
  • 5Igarashi H, Watanabe K, Kost A. A reduced model for finite element analysis of steel laminations[J]. IEEE Trans on Magnetics, 2006, 42(4): 739-742.
  • 6Cheng Z, Takahashi N, Forghani B, et al. Analysis and measurements of iron loss and flux inside silicon steel laminations[J]. IEEE Trans on Magnetics, 2009, 45(3) : 1222-1225.
  • 7Cheng Z, Takahashi N, Yang S, et al. Loss spectrum and electromagnetic behavior of Problem 21 family[J]. IEEE Trans on Magnetics, 2006, 42(4) : 1467 -1470.
  • 8Cheng Z, Takahashi N, Forghani B, et al. Large power transformer-based stray-field toss modeling and validation[C] // IEMDC. Miami, USA: IEEE, 2009:548-555.
  • 9Kaimori H, kameari A, Fujiwara K. FEM computation of magnetic field and iron loss in laminated iron core u sin g homogenization method[J]. IEEE Trans on Magn, 2007, 43(4) : 1405-1408.
  • 10Dedulle J M, Meunier G, Foggia A, et al. Magnetic fields in nonlinear anisotropic grain-oriented iron sheet[J]. IEEE Trans on Magn, 1990, 26(2) : 524-527.

二级参考文献16

  • 1程志光,高橋則雄,弗甘尼·博札德,等.电气工程电磁场模拟和应用[M].北京:科学出版社,2009.
  • 2Xie D, Cheng Z. Development of magnetic characteristic modeling of electrical steel sheet in computational eleetromagnetics [J]. Electromagnetic Field Problems and Applications-11, 2008, 22: 351-355.
  • 3Cheng Z, Takahasbi N, Forghani B, et al. Analysis and measurements of iron loss and flux inside silicon steel laminations[J]. IEEE Trans on Magn, 2009, 45(3): 1222-1225.
  • 4Takahashi N, Sakura T, Cheng Z. Nonlinear analysis of eddy current and hysteresis losses of 3-D stray field loss model (Problem21)[J]. IEEE Transon Magn, 2001, 37(5); 3672-3675.
  • 5Cheng Z, Hao R, Takahashi N, et al. Engineering-oriented benchmarking of Problem 21 family and experimental verification[J].IEEE Transon Magn, 2004, 40(2): 1394-1397.
  • 6Cheng Z, Takahashi N, Yang S, et al. Loss spectrum and electromagnetic behavior of problem 21 family[J].IEEE Trans on Magn, 2006, 42(4) : 1467-1470.
  • 7Napoli A Di, Paggi R. A model of anisotropic grain-oriented steel[J].IEEE Trans on Magn, 1983, 19(4): 1557-1561.
  • 8Shen D, SabonnadEre J C, Meunier G, et al. 3D anistropic magnetic field calculation in transformer loints[J]. IEEE Trans on Magn, 1987, 23(5): 3873-3875.
  • 9Nakata T, Takahashi N, Fujiwara K, et al. Measurement of magnetic characteristics along arbitrary directions of up to high flux densities grain-oriented silicon steel[J].IEEE Trans on Magn, 1987, 23(5): 3544-3546.
  • 10DeduUe M, Meunier G, Foggia A, et al. Magnetic fields in nonlinear anisotropie grain oriented iron-sheet[J]. IEEE Trans on Magn, 1990, 26(2): 524-526.

共引文献15

同被引文献103

引证文献8

二级引证文献110

高电压技术
2010年 第5期

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