摘要
为研究大规模逆变型分布式发电对电力系统暂态和电压稳定性的影响,借助PSCAD/EMTDC仿真软件,以一个12母线测试系统为研究对象,建立电力系统和逆变型DG的动态模型。通过暂态仿真和理论分析,重点研究了不同渗透率DG对主同步发电机最大转速偏差和转速偏离频率的影响,分析了不同控制模式的DG在故障前(稳态)、故障期间和故障后对母线电压的影响。研究结果表明:渗透率越高,逆变型DG对系统暂态稳定性的负作用越大,但电压控制的逆变型DG能明显改善系统电压的稳定性。
In order to investigate the impacts of large scale DGs on the power system transient and voltage stability, the dynamic models of the power system and DGs in a 12-bus test system are modeled in detail by PSCAD/EMTDC software. And then through simulation and theory analysis, the impact of the DGs with different penetration level on the maximum rotor speed deviation and the rotor speed deviation frequency of the main synchronous generators are studied, and the impact of the DGs with different control models on the power system bus voltages, before a fault (steady state), during a fault and after a fault is analyzed. The research results show that the inverter interfaced DGs have a more negative impact on the power system transient stability with the penetration level increasing, but the voltage controlled inverter interfaced DGs significantly improve the voltage in the power system buses after fault clearances.
出处
《电力系统保护与控制》
EI
CSCD
北大核心
2014年第17期84-89,共6页
Power System Protection and Control
关键词
分布式发电
高渗透率
控制模式
动态模型
暂态稳定
电压稳定
distributed generation
high penetration level
control mode
dynamic model
transient stability
voltage stability
