TITLE:
A Steady State Voltage Stability Analysis of Wind Power Centralized System
AUTHORS:
Shuo Yang, Weisheng Wang, Chun Liu, Yuehui Huang, Chi Li, Jing Wang
KEYWORDS:
Wind Power Centralized System, Static State Voltage Stability, Doubly Fed Induction Generator, Wind Turbine Generator, Reactive Power, Model Analysis
JOURNAL NAME:
Energy and Power Engineering,
Vol.9 No.4B,
April
6,
2017
ABSTRACT:
It is significant to research the voltage stability of the wind power centralized system (WPCS) for the effective development of the large scale clustering wind energy resources. A steady state voltage stability analysis of the WPCS by employing the PV curve and model analysis is proposed to reveal the voltage stability influence from different aspects. The PV curve is utilized to trace and indicate the voltage collapse point of the WPCS when the small disturbance of wind power is increased gradually. Then the steady state voltage instability modes of the WPCS are analyzed by calculating the bus participation factors of the minimum eigenvalue model at the collapse point. The simulation results of an actual WPCS in North China show that the static state voltage instability mode of the WPCS is closely related to the operating features and control strategies of different reactive power sources. In addition, the implementation of the doubly-fed induction generator wind turbine generator voltage control is beneficial to improve the WPCS voltage stability.