摘要
特高压直流输电系统中的同步调相机需要在电网出现暂态故障时快速提供无功补偿,常工作在空载、过励和欠励工况,为了使端部结构件的设计满足多工况运行的要求,需要对多工况运行下的端部磁场与端部结构件涡流损耗进行校核。本文以一台300MVar同步调相机为例,建立了端部三维瞬态时步有限元计算模型,对空载、过励、失磁稳态三种典型运行工况下的端部磁场和结构件涡流损耗进行了对比分析,为大容量同步调相机端部结构件优化设计提供理论支持。
The synchronous compensator in ultra-high voltage power transmission system need to provide reactive power compensation fast when transient faults occur in the system,which usually operates under no-load,over-excited and under-excited conditions.The magnetic field and eddy current losses of end structures under multiple load conditions need to be checked in order to meet the demands of multiple load conditions.A 300MVar synchronous compensator is taken as an example in this paper,the three-dimensional transient time step finite element model is established,the magnetic field and eddy current losses of end structures under no-load,over-excited and no-excited conditions are compared and analyzed,which will provide theoretical basis for the optimal design of end structures in synchronous compensator.
作者
边旭
梁艳萍
朱二夯
黄浩
朱志佳
汪冬梅
BIAN Xu;LIANG Yanping;ZHU Erhang;HUANG Hao;ZHU Zhijia;WANG Dongmei(College of Electrical&Electronic Engineering,Harbin University of Science and Technology,Harbin 150080,China;Harbin Electric Machinery Company Limited,Harbin 150040,China)
出处
《大电机技术》
2018年第6期26-31,共6页
Large Electric Machine and Hydraulic Turbine
基金
黑龙江省青年科学基金(QC2018065)
关键词
同步调相机
端部磁场
端部结构件涡流损耗
多工况
有限元分析
synchronous compensator
end magnetic field
eddy current losses of end structures
multiple load conditions
finite element analysis
