Title :
Aggregation properties of linearized two-time-scale power networks
Author :
Date, Ranjit A. ; Chow, Joe H.
Author_Institution :
Rensselaer Polytech. Inst., Troy, NY, USA
fDate :
7/1/1991 12:00:00 AM
Abstract :
In the slow coherency approach, the slow coherent areas of a power system are aggregated to form a slow subsystem to model the dynamics of the interchange between the areas. The aggregation process associated with the slow coherency approach that uses the singular perturbation technique to correct for the internal connections within the coherent areas to generate improved slow aggregates is discussed. Three aggregation properties are discussed: (1) the static load buses can be retained in the aggregation process; (2) the aggregation can be performed on a per-coherent-area basis; and (3) the aggregation process can be decomposed into a sequence of aggregating two coherent machines at each step. These properties allow practical algorithms to be designed for applying the slow coherency approach to large power systems
Keywords :
load distribution; perturbation theory; power systems; aggregation process; coherent machines; interchange dynamics; linearized two-time-scale power networks; power system; singular perturbation technique; slow coherent areas; static load buses; Aggregates; Algorithm design and analysis; Frequency; Large-scale systems; Memory; Network topology; Perturbation methods; Power system dynamics; Power system modeling; Power system stability;
Journal_Title :
Circuits and Systems, IEEE Transactions on
