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交流励磁机系统模型与静态励磁系统模型大干扰稳定性分析
引用本文:张栩,孔任慧,姚刚. 交流励磁机系统模型与静态励磁系统模型大干扰稳定性分析[J]. 贵州电力技术, 2012, 0(8): 5-6
作者姓名:张栩  孔任慧  姚刚
作者单位:贵州大学电气工程学院,贵州贵阳550003
摘    要:选择交流励磁机系统IEEE—AC2A模型与静态励磁系统IEEE—ST1A模型进行仿真研究,仿真结果表明系统受大干扰后,静态励磁系统在抑制功角摆动、维持发电机机端电压和维持系统频率的能力上优于交流励磁机系统,为励磁系统建模,励磁系统选型,励磁系统大干扰稳定性分析等相关研究工作提供了可借鉴的经验。

关 键 词:交流励磁机系统  静态励磁系统  大干扰稳定性分析

Analysis of transient stability for models of AC exciter and static excitation system
Zhang Xu,Kong Renhui,Yao Gang. Analysis of transient stability for models of AC exciter and static excitation system[J]. Guizhou Electric Power Technology, 2012, 0(8): 5-6
Authors:Zhang Xu  Kong Renhui  Yao Gang
Affiliation:(Electrical Engineering College of Guizhou University, Guiyang 550003 Guizhou China)
Abstract:This article chose IEEE - AC2A model of AC exciter system and IEEE - ST1A model of static excitation system to do simulation. Sum up that static excitation system was better than AC exciter system in inhibiting swing of power - angle, maintaining terminal voltage of generator, maintaining system frequency when large disturbance oeeurod. Some quotable experience for excitation system modeling and selection were provided.
Keywords:AC exciter system  static excitation system  transient stability
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