Impact of backlash nonlinearity on the dynamics of type-3 turbine-based windfarms
Impact of backlash nonlinearity on the dynamics of type-3 turbine-based windfarms
This paper considers detailed modeling of gear backlash in the drivetrains of a type-3 turbine-based windfarm in an interconnected power system. The detailed model has been used to: (a) thoroughly investigate the impact of backlash on the dynamic performance and response of the windfarm; (b) identify the nature of various modes and the change of the modal properties with changes in system parameters and operating conditions through eigenvalue analysis; and (c) study the effect of traditional lead-lag and linear quadratic stabilizers on oscillation suppression, particularly blade vibrations. Novel indices and realistic wind speed profile simulated using Van'der Hoven spectrum have been used to study the impact of backlash and variation in its width on the dynamic performance of the wind farm. Also, inadequacies in existing models of type-3 turbines have been identified in terms of control design.
Mir, Abdul Saleem
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Singh, Abhinav Kumar
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Pal, Bikash C.
c062978e-53eb-4d5d-ace8-746ccafa5fb0
Senroy, Nilanjan
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Mir, Abdul Saleem
491bb457-cbe5-4705-ab36-860b78763332
Singh, Abhinav Kumar
6df7029f-21e3-4a06-b5f7-da46f35fc8d3
Pal, Bikash C.
c062978e-53eb-4d5d-ace8-746ccafa5fb0
Senroy, Nilanjan
b4565b4f-78eb-4a88-8af9-9d8c29238a4d
Mir, Abdul Saleem, Singh, Abhinav Kumar, Pal, Bikash C. and Senroy, Nilanjan
(2023)
Impact of backlash nonlinearity on the dynamics of type-3 turbine-based windfarms.
IEEE Transactions on Power Systems.
(doi:10.1109/TPWRS.2023.3330604).
Abstract
This paper considers detailed modeling of gear backlash in the drivetrains of a type-3 turbine-based windfarm in an interconnected power system. The detailed model has been used to: (a) thoroughly investigate the impact of backlash on the dynamic performance and response of the windfarm; (b) identify the nature of various modes and the change of the modal properties with changes in system parameters and operating conditions through eigenvalue analysis; and (c) study the effect of traditional lead-lag and linear quadratic stabilizers on oscillation suppression, particularly blade vibrations. Novel indices and realistic wind speed profile simulated using Van'der Hoven spectrum have been used to study the impact of backlash and variation in its width on the dynamic performance of the wind farm. Also, inadequacies in existing models of type-3 turbines have been identified in terms of control design.
Text
Impact_of_Backlash_Nonlinearity_on_the_Dynamics_of_Type-3_Turbine-based_Windfarms
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e-pub ahead of print date: 6 November 2023
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Local EPrints ID: 487088
URI: http://eprints.soton.ac.uk/id/eprint/487088
ISSN: 0885-8950
PURE UUID: 7a78ca35-8d40-4508-8d26-284c45530cd5
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Date deposited: 13 Feb 2024 17:31
Last modified: 18 Mar 2024 03:52
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Contributors
Author:
Abdul Saleem Mir
Author:
Abhinav Kumar Singh
Author:
Bikash C. Pal
Author:
Nilanjan Senroy
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