Title :
Coordinated Stabilizer Tuning in Large Power Systems Considering Multiple Operating Conditions
Author :
Ferraz, Julio C R ; Martins, Nelson ; Taranto, Glauco N.
Author_Institution :
CEPEL, Univ. Rio de Janeiro, Rio de Janeiro
Abstract :
This paper describes a new method for the coordinated gain tuning of PSSs, considering multiple operating points. The partial pole placement through the tuning of stabilizer gains is formulated as a nonlinear least squares problem, whose solution is obtained by the Newton method. The original problem is divided into various subproblems that are solved sequentially, in a way that is similar to continuation methods. The residues for the monitored poles, associated with the transfer functions of the stabilizer control loops (DeltaVPSS/DeltaVREF), are assembled into a rectangular matrix at every step of the continuation-like process. Results for the coordinated gain tuning of 36 stabilizers, considering 11 operating conditions, are described for a model of the Brazilian South-Southeast system.
Keywords :
Newton method; least squares approximations; power system stability; transfer functions; tuning; Brazilian South-Southeast system; Newton method; nonlinear least squares problem; partial pole placement; power system stabilizer tuning; rectangular matrix; stabilizer control loops; stabilizer gains; transfer functions; Equations; Least squares methods; Newton method; Power system dynamics; Power system modeling; Power system stability; Power systems; State feedback; Transfer functions; Tuning; Newton method; Small signal stability; coordinated design; eigenvalue; modal analysis; nonlinear least square; pole location; power system stabilizer; transfer function residue;
Conference_Titel :
Power Engineering Society General Meeting, 2007. IEEE
Conference_Location :
Tampa, FL
Print_ISBN :
1-4244-1296-X
Electronic_ISBN :
1932-5517
DOI :
10.1109/PES.2007.385675
