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Ingeniería
versão impressa ISSN 0121-750X
Resumo
GIL-GONZALEZ, Walter; HERRERA-OROZCO, Andres Ricardo e MOLINA-CABRERA, Alexander. Stochastic Mixed-Integer Branch Flow Optimization for the Optimal Integration of Fixed-Step Capacitor Banks in Electrical Distribution Grids. ing. [online]. 2024, vol.29, n.1, e21340. Epub 23-Maio-2024. ISSN 0121-750X. https://doi.org/10.14483/23448393.21340.
Context:
The use of capacitor banks is the most common and preferred solution for reducing power losses in electrical distribution networks, given their cost-effectiveness and low maintenance requirements. However, achieving their optimal integration in terms of location and size is a challenging problem.
Method:
This paper proposes a stochastic mixed-integer convex model based on a branch flow optimization model, which incorporates three different load-generation conditions, in order to address the stochastic nature of distribution systems.
Results:
The simulation results indicate that the proposed stochastic mixed-integer branch flow (SMIBF) model provides the best solution for all test feeders analyzed, reducing the objective function value by 39,81, 35,29, and 56,31 % regarding the benchmark case in the modified 33-, 69-, and 85-node test feeders, respectively.
Conclusions:
An SMIBF model was developed to optimally integrate fixed-step capacitor banks into electrical distribution grids. This model considered the stochastic nature of distribution systems under multiple operating conditions and ensured that the global optimum could be found.
Palavras-chave : stochastic mixed-integer model; branch flow optimization; fixed-step capacitor banks; electrical distribution network; global optimum.
