Title :
A Novel Real-Time Searching Method for Power System Splitting Boundary
Author :
Wang, C.G. ; Zhang, B.H. ; Hao, Z.G. ; Shu, J. ; Li, P. ; Bo, Z.Q.
Author_Institution :
State Key Lab. of Electr. Insulation & Power Equip., Xi´´an Jiaotong Univ., Xi´´an, China
Abstract :
It is possible to prevent collapse of the whole post-fault power system, which is in unstable condition, by determining the splitting boundary so as to calm down the system oscillation. A fast method of searching for the splitting boundary of power system controlled islanding is presented in this paper, the aim of which is to minimize the load-generation imbalance in each island. The method contains three phases, namely, defining the domain of each generator according to power flow tracing algorithm, determining an initial splitting boundary based on the grouping information of generators, and refining the initial one to get the final splitting boundary. A real-time searching program for power system splitting boundary was developed based on the method. Simulations on the IEEE 118-bus power system and a practical power system show that the proposed method is effective and fast.
Keywords :
distributed power generation; load flow; power supply quality; power system control; power system faults; search problems; IEEE 118-bus power system; generator; load-generation imbalance; post-fault power system; power flow tracing algorithm; power system controlled islanding; power system splitting boundary; real-time searching method; splitting boundary; system oscillation; Digital relays; Impedance; Load flow; Monitoring; Power generation; Power system faults; Power system relaying; Power system simulation; Power systems; Real time systems; Controlled islanding; power flow tracing; power system; splitting boundary;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2010.2045012
