Facilitating wide-band oscillation analysis in wind farms with a novel linearization analysis framework based on the average-value model

Facilitating wide-band oscillation analysis in wind farms with a novel linearization analysis framework based on the average-value model

Wide-band oscillations have become a significant issue limiting the development of wind power. Both large-signal and small-signal analyses require extensive model derivation. Moreover, the large number and high order of wind turbines have driven the development of simplified models, whose applicabil...

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Bibliographic Details
Main Authors: Qiufang Zhang, Yin Xu, Jinghan He
Format: Article
Language:English
Published: Tsinghua University Press 2025-06-01
Series:iEnergy
Subjects:
wide-band oscillation analysis
average-value model (avm)
doubly fed induction generator (dfig)
permanent magnet synchronous generator (pmsg)
eigenvalue analysis
impedance analysis
Online Access:https://www.sciopen.com/article/10.23919/IEN.2025.0010
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Summary:Wide-band oscillations have become a significant issue limiting the development of wind power. Both large-signal and small-signal analyses require extensive model derivation. Moreover, the large number and high order of wind turbines have driven the development of simplified models, whose applicability remains controversial. In this paper, a wide-band oscillation analysis method based on the average-value model (AVM) is proposed for wind farms (WFs). A novel linearization analysis framework is developed, leveraging the continuous-time characteristics of the AVM and MATLAB/Simulink’s built-in linearization tools. This significantly reduces modeling complexity and computational costs while maintaining model fidelity. Additionally, an object-based initial value estimation method of state variables is introduced, which, when combined with steady-state point-solving tools, greatly reduces the computational effort required for equilibrium point solving in batch linearization analysis. The proposed method is validated in both doubly fed induction generator (DFIG)-based and permanent magnet synchronous generator (PMSG)-based WFs. Furthermore, a comprehensive analysis is conducted for the first time to examine the impact of the machine-side system on the system stability of the non-fully controlled PMSG-based WF.
ISSN:2771-9197

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