Resolução do problema de fluxo de carga para redes de distribuição utilizando o metodo desacoplado rapido com rotação automatica de eixos / Fast decoupled load flow method with automatic axes rotation for distribution systems

AUTOR(ES)
DATA DE PUBLICAÇÃO

2006

RESUMO

The fast decoupled loadflow (FDLF) [2] is a variant of the traditional Newton method [1] for solving the loadflow problem (find the operational state of electrical power networks). It is well-known that FDLF presents unsatisfactory performance when applied to distribution systems. Their unfavourable r/x branch ratios may lead to divergence or slow convergence (large number of iterations). A modification to the FDLF, called axesrotation[4], was proposed some time ago, which improves convergency of the method. The idea is to obtain a fictitious network for which the FDLF performs better and which operational state (voltage magnitudes and angles) is the same as the original network. However, the rotation angle is determined empirically. Recently the optimal axes rotation[5] was presented, suggesting some modifications that led to more automated calculations, despite of some undesirable effects on matrices handling and also to the physical meaning of networks during the iterative process. This research work presents a new algorithm for axes rotation that overcomes some disadvantages found in [4, 5], with good performance. Moreover, it brings an interesting contribution on the rotation of PV buses, not previously considered

ASSUNTO(S)

algorithms electric networks control algoritmos system analysis analise de sistemas electric loads sistemas de energia eletrica - controle distribution redes eletricas energia eletrica - distribuição electric power systems electricity

ACESSO AO ARTIGO

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