Title :
Synchrony, aggregation, and multi-area eigenanalysis
Author :
Ramaswamy, Ganesh N. ; Verghese, George C. ; Rouco, Luis ; Vialas, Christine ; DeMarco, Christopher L.
Author_Institution :
Lab. for Electromagn. & Electron. Syst., MIT, Cambridge, MA, USA
Abstract :
This paper explores synchrony, a generalization of the concept of slow-coherency, and outlines how it can form the basis for efficient construction of dynamic equivalents by aggregation. The paper describes a novel approach for selecting the inter-area modes that are to be represented by the aggregate model. A clustering algorithm for recognizing approximate synchrony is presented, and improvements over the standard slow-coherency recognition algorithm are noted. Using for illustration a 23-generator power system model with 325 state variables, the paper demonstrates the effectiveness of a synchrony-based approach to decomposing the eigenanalysis of the electromechanical modes, separating the computation of inter-area and intra-area modes in the style of multi-area selective modal analysis.
Keywords :
eigenvalues and eigenfunctions; pattern recognition; power system analysis computing; power system interconnection; 23-generator power system model; aggregation; clustering algorithm; dynamic equivalents; electromechanical modes; inter-area modes; intra-area modes; multi-area eigenanalysis; multi-area selective modal analysis; slow-coherency; slow-coherency recognition algorithm; synchrony; Clustering algorithms; Modal analysis; Power engineering and energy; Power generation; Power system analysis computing; Power system dynamics; Power system interconnection; Power system modeling; Power system transients; Time domain analysis;
Journal_Title :
Power Systems, IEEE Transactions on
