GFL-GFM Hybrid Control Strategy and Power Support Characteristics for PMSG-based Wind Turbines Adapted to Variations in Short Circuit Ratio and Inertia

SU Kaiyuan; LIU Pengyin; YIN Bo; CONG Cong; XIE Xiaorong

doi:10.13334/j.0258-8013.pcsee.250506

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GFL-GFM Hybrid Control Strategy and Power Support Characteristics for PMSG-based Wind Turbines Adapted to Variations in Short Circuit Ratio and Inertia

更新时间：2026-01-08

- GFL-GFM Hybrid Control Strategy and Power Support Characteristics for PMSG-based Wind Turbines Adapted to Variations in Short Circuit Ratio and Inertia
- Vol. 45, Issue 15, Pages: 5798-5809(2025)
- 作者机构：
  
  1. 新型电力系统运行与控制全国重点实验室(清华大学), 北京市海淀区,100084
  2. 中国大唐集团科技创新有限公司, 河北省雄安新区,070001
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.250506
  CLC：
- Published：2025
- 稿件说明：
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SU Kaiyuan, LIU Pengyin, YIN Bo, et al. GFL-GFM Hybrid Control Strategy and Power Support Characteristics for PMSG-based Wind Turbines Adapted to Variations in Short Circuit Ratio and Inertia[J]. 2025, 45(15): 5798-5809.
DOI：

SU Kaiyuan, LIU Pengyin, YIN Bo, et al. GFL-GFM Hybrid Control Strategy and Power Support Characteristics for PMSG-based Wind Turbines Adapted to Variations in Short Circuit Ratio and Inertia[J]. 2025, 45(15): 5798-5809. DOI： 10.13334/j.0258-8013.pcsee.250506.

摘要

随着风电等新能源的大规模接入，电力系统强度与惯量复杂多变，为跟/构网单一控制带来挑战。针对此问题，该文提出一种适应短路比与惯量变化的直驱风电机组跟-构网融合控制策略并研究其功率支撑特性。首先，基于同步融合框架，设计机侧-网侧协同的风电控制策略，提出以短路比、惯量比为判据的融合系数表达式；其次，建立融合控制的有功-频率、无功-电压动态响应模型，分析其参数影响及支撑特性；最后，利用电磁暂态仿真验证控制策略有效性。结果表明，融合控制风电可根据电网短路比、惯量自适应调整跟-构网特性和备用容量，在复杂工况下实现宽短路比运行、有功支撑及稳定-经济性平衡。

Abstract

With the large-scale integration of renewable energy sources such as wind power

power system strength and inertia have become increasingly variable and complex

challenging conventional grid-following (GFL)/grid-forming (GFM) control approaches. This paper proposes an adaptive GFL-GFM hybrid control strategy for PMSG-based wind turbines in response to variations in short-circuit ratio (SCR) and inertia. First

a coordinated wind power control strategy of machine-side and grid-side converters is designed based on a synchronized hybrid framework with a hybrid coefficient expression with SCR and inertia ratio as criteria. Second

active power-frequency and reactive power-voltage dynamic response models for the hybrid control are established to analyze parametric influences and power support capabilities. Finally

electromagnetic transient simulations verify the effectiveness of the proposed control strategy. Results show that the hybrid control strategy allows the wind turbine to adaptively adjust its GFL-GFM characteristics and reserve capacity according to SCR and inertia

achieving wide SCR operation

active power support

and a stability-economy balance under complex operating conditions.

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