TY - EJOU AU - Li, Dexin AU - Gao, Song AU - Xu, Rui AU - Sun, Cong AU - Yang, Heling TI - A Time-Varying Subsynchronous Oscillation Suppression Strategy for DFIG-Based Wind Farms Using a Dual-Layer Adaptive Bandpass Filter T2 - Energy Engineering PY - VL - IS - SN - 1546-0118 AB - Sub-synchronous oscillations (SSOs) have become a growing concern in DFIG (Doubly fed Induction Generator)-based wind farms due to complex interactions between converter control and grid dynamics. This paper proposes a time-varying oscillation suppression strategy based on a Dual-Layer Adaptive Band-Pass filter (DL-ABPF). The outer-layer filter separates and tracks the target oscillation mode, while the inner-layer filter is activated under dual discriminant criteria to achieve real-time directional damping. Within a wide-area monitoring framework, the strategy employs secondary dynamic data storage and the ESPRIT algorithm for online identification of modal frequency and damping factor. Once activated, the inner filter updates its central frequency adaptively, and the filtered signal is injected into the converter controller through a damping feedback channel, forming a closed-loop structure of “monitoring–discrimination–suppression”. Simulation studies under sub-synchronous control interaction (SSCI) and sub-synchronous resonance (SSR) conditions verify that the proposed method can continuously track and suppress oscillations under frequency drift and parameter variations. Unlike conventional single-layer filtering schemes that primarily perform monitoring, the DL-ABPF integrates monitoring and suppression within a unified framework, and its effectiveness under frequency drift and operating-condition variations is illustrated in the presented case studies. KW - Adaptive oscillation suppression; DFIG-based wind farm; dual-layer adaptive band-pass filter; ESPRIT; sub-synchronous oscillation DO - 10.32604/ee.2026.076664