Dynamic behavior analysis of the three-phase self-excited induction generator during electricity generation with variable energy sources

Abstract

This paper presents the analysis of the dynamic behavior of the self-excited three-phase induction generator (SEIG) during the generation of electricity from variable energy sources such as wind power. The work focuses especially on determining how the voltage, current, flow and power generated during the variation of the speed applied to the rotor behaves in a wide range from a variable energy source, allowing to determine which are the best conditions to generate the maximum active power. Simulation results are presented, explaining in detail the dynamic behavior in a wide range of variation of the speed applied to the rotor from a variable energy source.