Abstract-This article aims to investigate the sub-synchronous resonance issue that may be caused by the wind farms connected to an electrical network through a series-compensated transmission line. Two wind turbine types based on a doubly fed induction generator and a permanent magnet synchronous generator are modeled for sub-synchronous resonance analysis in detail, and the proportional and integral parameters of the control loops are optimized based on a computational intelligence method. The studies are carried out on the IEEE first benchmark model. Small-signal analysis is conducted to reveal the impacts of series compensation level, parameters of proportional and integral controllers, and wind speed on the existing oscillatory modes.
A Comparative Sub-synchronous Resonance Analysis of Grid-connected Doubly Fed Induction Generator Based and Permanent Magnet Synchronous Generator Based Wind Farms
2015
Aufsatz (Zeitschrift)
Englisch
permanent magnet synchronous generator , Electricity distribution , sub-synchronous resonance , rotor-side converter , doubly fed induction generator , generator-side converter , Generators , Electromagnetics , Controllers , Wind farms , computational intelligence , Turbines , grid-side converter , proportional and integral parameters , Neural networks , small-signal analysis , series compensation
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