VELOZ, Carlos; JIMENEZ J, Diego L; ALMACHE B, Verónica C    SALAZAR ACHIG, Roberto. A non-linear optimization model assessment for the economic dispatch of isolated microgrids. []. , 31, pp.32-42. ISSN 1390-860X.  https://doi.org/10.17163/ings.n31.2024.03.

The present research work shows the optimal energy management of an isolated microgrid based on nonconventional renewable energy sources. For which an economic dispatch problem is proposed that seeks to supply the electrical demand at the lowest posible operating cost, based on a mixed integer nonlinear optimization problem. The nonlinearity of the algorithm is presented by including the characteristic equation of the real operation of the generating set in the optimization model. The input data to the economic office such as solar radiation and wind speed were obtained from the NASA platform located on Santa Cruz Island, Galapagos province, Ecuador. In addition, the electricity demand data was obtained from real measurements of the sector. The economic dispatch problem has been determined for 12, 24 and 168 hours respectively, obtaining a proportional energy distribution for each case of 50.40% supplied by the photovoltaic generator, 23.92% by the diesel generator, 17.14% by the battery bank and 5.53% by the wind generator, so the demand was supplied in its entirety, meeting the objective that the generating set does not present intermittencies and obtaining the lowest operating cost of the system.

: Economic dispatch; mixed-integer nonlinear optimization problem; non-conventional renewable energy; isolated microgrid..

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