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谐波电流对同步发电机温升的影响分析 被引量:2

Analysis of Impact of Harmonic Current on Temperature Rise of Synchronous Generator
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摘要 小容量发电机组为非线性负荷供电时,大量的谐波电流会流过同步电机的定子电枢绕组。在趋肤效应和邻近效应的影响下,高频谐波电流无法均匀分布在绕组导线截面上,而是沿绕线边缘传导。这增大了同步发电机的绕组电阻,引起发电机发热增加,效率降低,容量减小。分析谐波流经同步发电机定子绕组时趋肤效应和邻近效应的作用原理,用有限元分析软件Maxwell对电流在绕组截面上的分布规律进行仿真研究,并将绕组近似等效为若干个电感线圈,得到一种对谐波电流发热功率的估算方法。 Lots of harmonic currents will flow through the armature winding of the stator of synchronous generator when power supply is provided for non-linear load by generator set with small capacity. Under skin effect and proximity effect, the high frequency harmonic current is not evenly distributed on the cross-section of conductor, but transmits along the winding edge, resulting in increases of winding resistance and heat of generator, efficiency and capacity reduction. The paper analyzes the action principle when the harmonic current flows through armature winding of the stator of synchronous generator, conducts the simulation study on distribution rule of current on winding cross-section with finite element analysis software Maxwell and obtains an estimation method for heating power of harmonic current by making the windings equivalent to several inductance coils.
作者 毕国升 宋鹏超 王金全
机构地区 解放军 解放军理工大学国防工程学院
出处 《建筑电气》 2015年第5期25-28,共4页 Building Electricity
关键词 谐波电流 同步发电机 趋肤效应 邻近效应 发热功率估算 电流分布规律 有限元分析软件Maxwell 仿真 harmonic current synchronous generator skin effect power, estimation currentelement analysis software proximity effect heatingdistribution regularity finiteMaxwell simulation
分类号 TM31 [电气工程—电机]
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参考文献9

  • 1刘晓东,姜建国.电网谐波对同步发电机的影响[J].电工技术,1997(3):8-11. 被引量:4
  • 2宋鹏超,王金全,夏明,吕强,杨涛.谐波电流对同步发电机输出电压的影响分析[J].微电机,2013,46(2):5-8. 被引量:6
  • 3郑仕群.自备柴油发电机组容量选择[J].现代建筑电气,2011,2(7):42-44. 被引量:5
  • 4杨征.柴油发电机组功率匹配优化设计[J].柴油机设计与制造,2012,18(1):24-25. 被引量:5
  • 5华锡锋.浅谈柴油发电机组容量的选择[J].建筑电气,2004,23(5):19-21. 被引量:1
  • 6Xi Nan, Charles R.Sullivan. An Improved Calculation of Proximity - Effect Loss in High - Frequency Windings of Round Conductor [ C 1//Power Electronics Specialist Conference, 2003 : 853 - 860.
  • 7Rafal Wrobel, Adrian Mlot, Phil H. Mellor. Contribution of End- Winding Proximity Losses to Temperature Vibration in Electromagnetic Deviees[Jl. IEEE Transactions on Industrial Eleetronics, 2012, 59 (2): 848-857.
  • 8N. Kondrath, M. K. Kazimierczuk. Inductor Winding Loss Owing to Skin and Proximity Effects Including Harmonics in Non- Isolated Pulse- Width Modulated DC - DC Converters Operating in Continuous Conduction Mode[J]. IEL Power Electronics, 2010, 3 (6): 989-1000.
  • 9Katsumi Yamazaki, Satoshi Kuramochi. Additional Harmonic Losses of Induction Motors by PWM Inverters: Comparison between Result of Finite Element Method and IEC/TC 60034 [C~ // 2012 International Conference on Electrical Machines (ICEM), 2012: 1552-1558.

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建筑电气
2015年 第5期

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