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基于场路耦合有限元的三相共箱气体绝缘母线暂态电动力分析 被引量:13

Dynamic Electromagnetic Force Analysis of Three Phase Enclosure Type GIB Based on Field-Circuit Coupling Theory
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摘要 基于瞬态场路耦合有限元理论建立了外部电压源激励下的三相共箱气体绝缘母线电路-电磁-结构场数值计算模型。采用顺序耦合方法将电磁场分析得到的节点电磁力作为载荷施加到结构场有限元模型中计算外壳的振动特性。通过将计算结果与镜像电流法和外壳振动测试结果进行对比验证该计算模型的有效性。基于该模型分析计算了工频稳态和不同短路故障条件下三相共箱气体绝缘母线电动力空间分布特性和时变特性,计算结果表明由于三相导体位于同一金属壳体内,短路故障类型将直接影响导体和外壳上电动力的分布特性。单相短路故障条件下气体绝缘母线导体短路电动力在幅值上要大于相间短路和三相短路且在时间上要早于相间短路和三相短路。计算模型和分析结果可用于三相共箱气体绝缘母线结构优化设计和短路故障监测。 A circuit-electromagnetic-mechanical coupling numerical calculation model of three phase enclosure type gas insulated bus (GIB) excited by external voltage source was developed based on transient circuit-field coupling finite element (FEM) theory. Nodal forces which obtained from electromagnetic analysis as load inputs in structure FEM model by sequential coupling method and vibration characteristics of tank calculated. Calculation model was demonstrated by image currents method and tank vibration experimental results. Spatial distribution and time-varying characteristics of electrodynamics force in three phase enclosure type GIB under steady and different short circuit conditions were analyzed by the calculation model. Results show that electrodynamics force distribution characteristics in conductors and tank, are directly influenced by types of short circuit fault since all three phase conductors are sealed inside single metal tank. Electrodynamics forces under single phase short circuit condition have larger amplitudes and earlier peak moments than those of two phase and three phase short circuit conditions The calculation model and the analysis results can be helpful for configuration optimal design and short circuit fault monitoring of three phase enclosure type GIB.
作者 舒乃秋 关向雨 康兵 李自品 邹明翰
机构地区 武汉大学电气工程学院
出处 《电网技术》 EI CSCD 北大核心 2015年第5期1456-1462,共7页 Power System Technology
基金 中央高校基本科研业务费专项资金资助项目(2012207020208)~~
关键词 场路耦合 气体绝缘母线 电动力 短路 有限元 振动 field-circuit coupling GIB electrodynamic force short circuit FEM vibration
分类号 TM721 [电气工程—电力系统及自动化]
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参考文献23

  • 1Azumi K, Kuwahara H, Sakon I, et al. Design considerations on three phase enclosure type gas insulated substation[J]. IEEE Trans on Power Apparatus and Systems, 1980, PAS-99(3): 947-955.
  • 2Mukaiyama Y, Takagi I, Izumi K, et al. Investigation on abnormal phenomena of contacts using disconnecting switch and detachable bus in 300 kV GIS[J]. IEEE Trans on Power Delivery, 1990, 15(1): 189-195.
  • 3HamaH, Marutani T, TakatsukaK, etal. Characteristics of short circuit electromagnetic forces in three phase enclosure type gas insulated bus[J]. IEEE Transactions on Power Delivery, 1987, PWRD-2(2): 367-373.
  • 4杨瑞棠.GIS振动的分析[J].华通技术,2001,20(2):11-14. 被引量:13
  • 5Kanno Y, Amemiya T, Takahashi N, et al. The short circuit electromagnetic force of the three-phase encapsulated gas insulated bus-bar[J]. IEEE Transactions on Power Apparatus and Systems, 1984 PAS-103(6): 1386-1393.
  • 6o Mori S, Imai S, Ninomiya K, et al. Characteristics of gas insulated transmission lines bonded at both ends in relation to short-circuit force[J]. IEEE Transactions on Power Apparatus and Systems, 1981, PAS-100(5): 2311-2319.
  • 7Labirdis D, Hatziathanassiou V. Finite element computation of field, forces and inductances in underground SF6 insulated cables using a coupled magneto-thermal formulation[J]. IEEE Trans on Magnetics, 1994, 30(4).. 1407-1415.
  • 8Takeuchi T, Yoshizawa T ; Kuse Y. 3-D Nonlinear transient electromagnetic analysis of short circuit electromagnetic forces in a three-phase enclosure-type gas insulated bus[J]. IEEE Transactions on Magnetics, 2000, 36(4): 1754-1757.
  • 9Bedrosian G. A new method for coupling finite element field solutions with external circuits and kinematics[J]. IEEE Transactions on Magnetics, 1993, 29(2).. 1664-1668.
  • 10Weiss J, Jarg V K. Steady state eddy current analysis in multiply-excited magnetic systems with arbitrary terminal conditions[J]. IEEE Transactions on Magnetics, 1998, 24(6) .. 2676-2678.

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