Resumen

FERRER-VALLIN, Moises; SANCHEZ YANEZ, Pablo  y  SANTOS-FUENTEFRIA, Ariel. Cálculo del límite de potencia renovable mediante simulación Monte Carlo. Energética [online]. 2022, vol.43, n.3, pp. 131-140.  Epub 11-Nov-2022. ISSN 1815-5901.

Introducing renewable non-dispatchable energy sources such as wind and solar (PV) into a power system can cause frequency deviation problems in steady-state operation scenarios. These problems are mainly related to their inherent variability and the characteristics of the grid they are connected to. These problems can be amplified in isolated power systems. This research consists in calculating the maximum value of wind and solar PV that can be connected in an isolated power system while maintaining the frequency deviation values within standard limits. An algorithm based in Monte Carlo simulations was developed to fulfil this objective. The results obtained using the described algorithm show that, in an isolated power system, renewable power values increase, frequency deviations also increase, eventually failing to comply with grid code regulations. Results also show that introducing a properly sized energy storage helps decreasing out-of-limits frequency deviations, complying with the grid code regulations.

Palabras clave : wind power; photovoltaic power; frequency deviation; Monte Carlo simulations.

        · resumen en Inglés     · texto en Inglés     · Inglés ( pdf )