Parameterized fast decoupled power flow methods for obtaining the maximum loading point of power systems. Part II. Performance evaluation
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Data
2004-04-01
Autores
Alves, D. A.
da Silva, LCP
Castro, C. A.
da Costa, V. F.
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Editor
Elsevier B.V.
Resumo
The parameterized fast decoupled power flow (PFDPF), versions XB and BX, using either theta or V as a parameter have been proposed by the authors in Part I of this paper. The use of reactive power injection of a selected PVbus (Q(PV)) as the continuation parameter for the computation of the maximum loading point (MLP) was also investigated. In this paper, the proposed versions obtained only with small modifications of the conventional one are used for the computation of the MLP of IEEE test systems (14, 30, 57 and 118 buses). These new versions are compared to each other with the purpose of pointing out their features, as well as the influence of reactive power and transformer tap limits. The results obtained with the new approaches are presented and discussed. The results show that the characteristics of the conventional FDPF method are enhanced and the region of convergence around the singular solution is enlarged. In addition, it is shown that these versions can be switched during the tracing process in order to efficiently determine all the PV curve points with few iterations. A trivial secant predictor, the modified zero-order polynomial, which uses the current solution and a fixed increment in the parameter (V, theta, or mu) as an estimate for the next solution, is used for the predictor step. (C) 2003 Elsevier B.V. All rights reserved.
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Palavras-chave
continuation power flow, fast decoupled power flow, maximum loading point, voltage collapse
Como citar
Electric Power Systems Research. Lausanne: Elsevier B.V. Sa, v. 69, n. 1, p. 85-92, 2004.