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José R. Sicchar
Depto. Eng. Controle & Automação, Escola Superior de Tecnologia, Universidade do Estado do Amazonas, AM
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Carlos T. Da Costa Jr.
ITEC- Faculdade de Engenharia Elétrica, Universidade Federal do Pará, PA
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Raimundo C. De Oliveira
Depto. Eng. Controle & Automação, Escola Superior de Tecnologia, Universidade do Estado do Amazonas, AM
Keywords:
Phase-load balance, Low-Voltage grid, Local-controller, Hierarchical-Petri nets, Smart-Grids
Abstract
The load imbalance in the low-voltage grid phases compromises the load stability also power quality provided to the final consumer. In this, sense, the phase-load-balance of grid by dynamic switching, is an efficient way for this problem. However, is important to establish a load stability for a long-lasting. This article proposes a phase balance local controller model based on combined algorithms, that considers beyond the current state of monthly load consumption (of final consumers) its twelve-step forward forecast. Providing, an optimal switching selection based on, the load consumption future state in the final consumer’s phases. The model is developed in Hierarchical- Petri nets. The results point to an efficient attenuation of phase imbalance, applied to three kinds of consumers (single-phase, bi-phase, and three-phase). Therefore, ensuring in low- voltage circuits, the load balance for long-duration.
