Diferentes estrategias para sincronizar un nuevo Sistema de Almacenamiento con un horno de arco eléctrico

Abstract

Mitigating large active power fluctuations in electric arc furnaces at the start and end of the melting process is critical as it threatens the frequency stability of low power electrical systems. The use of a low-capacity battery energy storage system can help to mitigate the power fluctuations. This paper aims to present the results obtained on the application of different synchronization strategies with a low energy capacity Battery Energy Storage System under two classifications (i) in ramp mode and (ii) smoothing filters. Using MATLAB/SIMULINK (academically licensed 41037228) the different synchronization strategies were modeled, and their advantages and disadvantages were determined. It is concluded that synchronization through a low-pass filter is the most favorable variant for reducing active power variability.