FEASIBILITY OF LYAPUNOV FUNCTIONS FOR POWER-SYSTEM TRANSIENT STABILITY ANALYSIS BY THE CONTROLLING UEP METHOD

Date

1992-03-01

Author

ESKICIOGLU, AM
Sevaioğlu, Osman

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Recently a great deal of improvement has been achieved in reducing the inherent conservativeness of the direct method of Lyapunov in its application to the transient stability analysis of multimachine power systems. One major discovery is the recognition of the fault location as a critical factor for the determination of the boundary of the stability region. The controlling UEP method takes into consideration the relevant unstable equilibrium points to construct Lyapunov surfaces, local approximations to the stability boundary, giving more accurate estimates. In this paper, three common Lyapunov functions are used in a comparative evaluation to determine their feasibility for the local Lyapunov surface approach. It is shown that the performance of the chosen Lyapunov functions varies considerably in transient stability analysis. The accuracy in the estimates provided by each function, on the other hand, is understood to be rather different in various cases of instability occurring in power systems.

Subject Keywords

General Engineering, Lyapunov methods, Power system control, Stability

URI

https://hdl.handle.net/11511/58031

Journal

IEE PROCEEDINGS-C GENERATION TRANSMISSION AND DISTRIBUTION

DOI

https://doi.org/10.1049/ip-c.1992.0024

Collections

Department of Electrical and Electronics Engineering, Article

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Citation Formats

A. ESKICIOGLU and O. Sevaioğlu, “FEASIBILITY OF LYAPUNOV FUNCTIONS FOR POWER-SYSTEM TRANSIENT STABILITY ANALYSIS BY THE CONTROLLING UEP METHOD,” IEE PROCEEDINGS-C GENERATION TRANSMISSION AND DISTRIBUTION, pp. 152–156, 1992, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/58031.