Lyapunov stability of grid-connected wind turbines with permanent magnet synchronous generator

Nguyen, Phuong T. H.; Stüdli, Sonja; Braslavsky, Julio H.; Middleton, Richard H.

Title: Lyapunov stability of grid-connected wind turbines with permanent magnet synchronous generator
Creator: Nguyen, Phuong T. H.; Stüdli, Sonja; Braslavsky, Julio H.; Middleton, Richard H.
Relation: European Journal of Control Vol. 65, Issue May 2022, no. 100615
Publisher Link: http://dx.doi.org/10.1016/j.ejcon.2022.100615
Publisher: Elsevier
Resource Type: journal article
Date: 2022
Description: Dynamic stability across a range of operating conditions and disturbances is an essential requirement in the control of wind turbines. To analyse and design for closed-loop stability, existing methods typically rely on the numerical evaluation of a small-signal model of the system around each operating condition. This approach, however, is an inefficient way to capture and shape dynamic behaviour over the wide ranges of operating conditions and parameter values arising in practical implementations. This work presents an analytic stability analysis for presents an analytic stability analysis for (PMSG) wind turbines. The proposed methodology, based on a Lyapunov function constructed from an analytic expression of the system Jacobian, enables the identification of regions of operation and parameter values for the wind turbine system within which its stability can be guaranteed. A feedback linearisation control strategy is adopted to deal with the nonlinear relationship between the generator speed and the DC-link voltage in the turbine back-to-back converter. The closed-loop response performance of the design based on the proposed methodology is compared to that of a conventional PI control design via simulation tests conducted on a 2 MW turbine model and a 5 MW (PMSG) reference turbine model on the FAST physics-based simulation tool developed by NREL.
Subject: FAST; feedback linearisation; Lyapunov method; permanent magnet synchronous generator; stability analysis; wind energy conversion system; SDG 7; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1472822
Identifier: uon:48920
Identifier: ISSN:0947-3580
Language: eng
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