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Fully-distributed deloading operation of DFIG-based wind farm for load sharing

Fully-distributed deloading operation of DFIG-based wind farm for load sharing
Fully-distributed deloading operation of DFIG-based wind farm for load sharing

A system-level consensus-based deloading operation is proposed for DFIG-based wind farm (WF) participating in system active power regulation. Rotor overspeeding control (ROC) and pitch angle control (PAC) are coordinated for load sharing among each wind turbine (WT). For ROC, a novel fully-distributed consensus protocol is developed for fair load sharing control without the need to know the total active power capacity. Considering the influences of wind turbines' individual differences and rotor speed limit, the amount of WTs involved in consensus protocol are dynamically adjusted according to their varying operating points. Further, a distributed optimization strategy is designed for active power setting-points allocation to curtail the utilization of WF's pitch angle during PAC. As the result, the proposed strategy can fully and quickly extract the available rotor overspeeding margin for a high kinetic energy storage and a better dynamic performance in ROC stage, and further minimize the dependency on pitch angle when facing deeper deloading operation. Case studies demonstrate the effectiveness of the proposed scheme.

Consensus-based distributed control, Deloading operation, DFIG-based wind farm, Pitch angle control, Rotor overspeeding control
1949-3029
430-440
Dong, Zhen
aba7081a-fba2-470f-a954-29603012f666
Li, Zhongguo
4e946c87-2de7-4e95-9a45-3d5f7853f78e
Dong, Yi
355a62d9-5d1a-4c14-a900-9911e8c62453
Jiang, Shuoying
ec161d45-6d01-4369-bf1d-5082dcb68ef7
Ding, Zhengtao
5589b7c6-eadd-4383-885f-bcc2017f71b8
Dong, Zhen
aba7081a-fba2-470f-a954-29603012f666
Li, Zhongguo
4e946c87-2de7-4e95-9a45-3d5f7853f78e
Dong, Yi
355a62d9-5d1a-4c14-a900-9911e8c62453
Jiang, Shuoying
ec161d45-6d01-4369-bf1d-5082dcb68ef7
Ding, Zhengtao
5589b7c6-eadd-4383-885f-bcc2017f71b8

Dong, Zhen, Li, Zhongguo, Dong, Yi, Jiang, Shuoying and Ding, Zhengtao (2021) Fully-distributed deloading operation of DFIG-based wind farm for load sharing. IEEE Transactions on Sustainable Energy, 12 (1), 430-440, [9119162]. (doi:10.1109/TSTE.2020.3002690).

Record type: Article

Abstract

A system-level consensus-based deloading operation is proposed for DFIG-based wind farm (WF) participating in system active power regulation. Rotor overspeeding control (ROC) and pitch angle control (PAC) are coordinated for load sharing among each wind turbine (WT). For ROC, a novel fully-distributed consensus protocol is developed for fair load sharing control without the need to know the total active power capacity. Considering the influences of wind turbines' individual differences and rotor speed limit, the amount of WTs involved in consensus protocol are dynamically adjusted according to their varying operating points. Further, a distributed optimization strategy is designed for active power setting-points allocation to curtail the utilization of WF's pitch angle during PAC. As the result, the proposed strategy can fully and quickly extract the available rotor overspeeding margin for a high kinetic energy storage and a better dynamic performance in ROC stage, and further minimize the dependency on pitch angle when facing deeper deloading operation. Case studies demonstrate the effectiveness of the proposed scheme.

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More information

e-pub ahead of print date: 16 June 2020
Published date: 1 January 2021
Additional Information: Publisher Copyright: © 2010-2012 IEEE.
Keywords: Consensus-based distributed control, Deloading operation, DFIG-based wind farm, Pitch angle control, Rotor overspeeding control

Identifiers

Local EPrints ID: 484088
URI: http://eprints.soton.ac.uk/id/eprint/484088
DOI: doi:10.1109/TSTE.2020.3002690
ISSN: 1949-3029
PURE UUID: 14f37e6b-4f0f-4341-9d59-4900b27c873a
ORCID for Yi Dong: ORCID iD orcid.org/0000-0003-3047-7777

Catalogue record

Date deposited: 09 Nov 2023 18:18
Last modified: 18 Mar 2024 04:17

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Contributors

Author: Zhen Dong
Author: Zhongguo Li
Author: Yi Dong ORCID iD
Author: Shuoying Jiang
Author: Zhengtao Ding

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