论文信息 - Clarifications of the BCU method for transient stability analysis

Clarifications of the BCU method for transient stability analysis

Energy function methods have been studied for many years, and have been applied to practical power system stability analysis problems of multi-machine power systems. Developments in real-time power system monitoring suggest that dynamic events can be monitored at the power system control centers, and naturally the energy function methods were tried as real-time stability prediction tools. However, a number of instances were uncovered, where the energy function methods which use the potential energy boundary surface as an approximation of the stability boundary produce unreliable results. In particular, during several transient stability studies, the boundary controlling unstable (BCU) equilibrium point method seemed to predict stable swings, whereas in reality the swings turned out to be unstable. This paper presents these counter-examples, and suggests an explanation as to why these methods produce a wrong result. >

[1] R. Podmore,et al. A Practical Method for the Direct Analysis of Transient Stability , 1979, IEEE Transactions on Power Apparatus and Systems.

[2] Naoto Kakimoto,et al. Transient Stability Analysis of Large-Scale Power System by Lyapunov's Direct Method , 1984, IEEE Transactions on Power Apparatus and Systems.

[3] M. Pavella,et al. Direct methods for studying dynamics of large-scale electric power systems - A survey , 1985, Autom..

[4] Felix F. Wu,et al. Foundations of the potential energy boundary surface method for power system transient stability analysis , 1988 .

[5] Claudio A. Canizares,et al. A vector energy function approach for security analysis of AC/DC systems , 1992 .

[6] Felix F. Wu,et al. A BCU method for direct analysis of power system transient stability , 1994 .