Title :
Stability analysis of power systems using network decomposition and local gain analysis
Author :
Anghel, Marian ; Anderson, Jon ; Papachristodoulou, A.
Author_Institution :
Los Alamos Nat. Lab., Los Alamos, NM, USA
Abstract :
We introduce a method for analyzing large-scale power systems by decomposing them into coupled lower order subsystems. This reduces the computational complexity of the analysis and enables us to scale the Sum of Squares programming framework for nonlinear system analysis. The method constructs subsystem Lyapunov functions which are used to estimate the region of attraction pertaining to the equilibrium point of each isolated subsystem. Then a disturbance analysis framework uses the level sets defined by these Lyapunov functions to calculate the stability of pairwise interacting subsystems. This analysis is then used to infer the stability of the entire system when an external disturbance is applied. We demonstrate the application of these techniques to the transient stability analysis of power systems.
Keywords :
Lyapunov methods; computational complexity; nonlinear systems; power system faults; power system transient stability; Lyapunov functions; computational complexity; coupled lower order subsystems; disturbance analysis framework; equilibrium point; isolated subsystem; large-scale power systems; local gain analysis; network decomposition; nonlinear system analysis; pairwise interacting subsystems; sum of squares programming; transient stability analysis; Generators; Lyapunov methods; Polynomials; Power system dynamics; Power system stability; Stability analysis; Vectors;
Conference_Titel :
Bulk Power System Dynamics and Control - IX Optimization, Security and Control of the Emerging Power Grid (IREP), 2013 IREP Symposium
Conference_Location :
Rethymno
Electronic_ISBN :
978-1-4799-0199-9
DOI :
10.1109/IREP.2013.6629365
