An Adaptive Control Method for Improving Voltage and Frequency Stability of Wind-Thermal Bundled System

Abstract

Aiming at the low frequency oscillation and voltage drop caused by the wind-thermal bundled system transmitted to the load center across AC and DC lines, an adaptive sliding mode gain control method based on the structure decentralized control theory is proposed. On the basis of this method, a rotor-side adaptive terminal sliding mode controller for doubly-fed induction generator based on synchronous rotating coordinate system is designed. Based on RTDS, a real-time simulation platform for transient stability control of ``wind-thermal bundled" transmission system was developed, and real-time simulation experiments were performed. Experimental results prove that the proposed method in this paper can effectively suppresses the frequency and voltage fiuctuations of the system, significantly improve the transient stability of the system and enhance the robustness of the system during grid faults.