Grid-forming control methods for weakly connected offshore WPPs

Sulav Ghimire; Kanakesh V. Kkuni; Simon C. Jakobsen; Thyge Knueppel; Kim H. Jensen; Emerson Guest; Tonny W. Rasmussen; Guangya Yang

doi:10.1049/icp.2023.2744

Grid-forming control methods for weakly connected offshore WPPs

Sulav Ghimire^*, Kanakesh V. Kkuni, Simon C. Jakobsen, Thyge Knueppel, Kim H. Jensen, Emerson Guest, Tonny W. Rasmussen, Guangya Yang

^*Corresponding author for this work

Siemens Gamesa Renewable Energy A/S

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

Abstract

Grid-forming control (GFC) has seen numerous technological advances in their control types, applications, and the multitude of services they provide. Some examples of the services they provide include black start, inertial frequency response, and islanded operation capabilities with the possibility of re-synchronization without the need of additional support from other devices such as storage. State of the art literature proposes a variety of GFCs which can provide single or multiple of these services. However, study of these different GFCs for weakly-connected offshore wind power plants (WPPs) based on time-domain simulation and focusing on the large signal disturbance is not well covered. This paper reviews some of the most researched grid-forming control methods applicable to offshore WPPs and provides a comparative investigation and discussion of their stability properties and applicability, especially when connected to a weak-grid. The paper also provides a discussion on the prerequisites and challenges surrounding the comparative study of different GFCs.

Original language	English
Title of host publication	Proceedings of 22nd Wind and Solar Integration Workshop (WIW 2023)
Number of pages	8
Publisher	Institution of Engineering and Technology
Publication date	2023
Pages	246-253
ISBN (Electronic)	978-1-83953-966-4
DOIs	https://doi.org/10.1049/icp.2023.2744
Publication status	Published - 2023
Event	22^nd Wind and Solar Integration Workshop - DTU, Lyngby, Denmark Duration: 26 Sept 2023 → 28 Sept 2023 https://windintegrationworkshop.org/copenhagen2023/

Conference

Conference	22^nd Wind and Solar Integration Workshop
Location	DTU
Country/Territory	Denmark
City	Lyngby
Period	26/09/2023 → 28/09/2023
Internet address	https://windintegrationworkshop.org/copenhagen2023/

Keywords

Offshore WPPs
Small-signal stability
Grid-forming control
Weak grids
Converter control

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10.1049/icp.2023.2744

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@inproceedings{af920c7a70f7465aa530e772fc72fabd,

title = "Grid-forming control methods for weakly connected offshore WPPs",

abstract = "Grid-forming control (GFC) has seen numerous technological advances in their control types, applications, and the multitude of services they provide. Some examples of the services they provide include black start, inertial frequency response, and islanded operation capabilities with the possibility of re-synchronization without the need of additional support from other devices such as storage. State of the art literature proposes a variety of GFCs which can provide single or multiple of these services. However, study of these different GFCs for weakly-connected offshore wind power plants (WPPs) based on time-domain simulation and focusing on the large signal disturbance is not well covered. This paper reviews some of the most researched grid-forming control methods applicable to offshore WPPs and provides a comparative investigation and discussion of their stability properties and applicability, especially when connected to a weak-grid. The paper also provides a discussion on the prerequisites and challenges surrounding the comparative study of different GFCs.",

keywords = "Offshore WPPs, Small-signal stability, Grid-forming control, Weak grids, Converter control",

author = "Sulav Ghimire and Kkuni, {Kanakesh V.} and Jakobsen, {Simon C.} and Thyge Knueppel and Jensen, {Kim H.} and Emerson Guest and Rasmussen, {Tonny W.} and Guangya Yang",

year = "2023",

doi = "10.1049/icp.2023.2744",

language = "English",

pages = "246--253",

booktitle = "Proceedings of 22nd Wind and Solar Integration Workshop (WIW 2023)",

publisher = "Institution of Engineering and Technology",

note = "22nd Wind and Solar Integration Workshop , WIW 2023 ; Conference date: 26-09-2023 Through 28-09-2023",

url = "https://windintegrationworkshop.org/copenhagen2023/",

}

Ghimire, S, Kkuni, KV, Jakobsen, SC, Knueppel, T, Jensen, KH, Guest, E, Rasmussen, TW & Yang, G 2023, Grid-forming control methods for weakly connected offshore WPPs. in Proceedings of 22nd Wind and Solar Integration Workshop (WIW 2023). Institution of Engineering and Technology, pp. 246-253, 22^nd Wind and Solar Integration Workshop
, Lyngby, Denmark, 26/09/2023. https://doi.org/10.1049/icp.2023.2744

Grid-forming control methods for weakly connected offshore WPPs. / Ghimire, Sulav; Kkuni, Kanakesh V.; Jakobsen, Simon C. et al.
Proceedings of 22nd Wind and Solar Integration Workshop (WIW 2023). Institution of Engineering and Technology, 2023. p. 246-253.

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

TY - GEN

T1 - Grid-forming control methods for weakly connected offshore WPPs

AU - Ghimire, Sulav

AU - Kkuni, Kanakesh V.

AU - Jakobsen, Simon C.

AU - Knueppel, Thyge

AU - Jensen, Kim H.

AU - Guest, Emerson

AU - Rasmussen, Tonny W.

AU - Yang, Guangya

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N2 - Grid-forming control (GFC) has seen numerous technological advances in their control types, applications, and the multitude of services they provide. Some examples of the services they provide include black start, inertial frequency response, and islanded operation capabilities with the possibility of re-synchronization without the need of additional support from other devices such as storage. State of the art literature proposes a variety of GFCs which can provide single or multiple of these services. However, study of these different GFCs for weakly-connected offshore wind power plants (WPPs) based on time-domain simulation and focusing on the large signal disturbance is not well covered. This paper reviews some of the most researched grid-forming control methods applicable to offshore WPPs and provides a comparative investigation and discussion of their stability properties and applicability, especially when connected to a weak-grid. The paper also provides a discussion on the prerequisites and challenges surrounding the comparative study of different GFCs.

AB - Grid-forming control (GFC) has seen numerous technological advances in their control types, applications, and the multitude of services they provide. Some examples of the services they provide include black start, inertial frequency response, and islanded operation capabilities with the possibility of re-synchronization without the need of additional support from other devices such as storage. State of the art literature proposes a variety of GFCs which can provide single or multiple of these services. However, study of these different GFCs for weakly-connected offshore wind power plants (WPPs) based on time-domain simulation and focusing on the large signal disturbance is not well covered. This paper reviews some of the most researched grid-forming control methods applicable to offshore WPPs and provides a comparative investigation and discussion of their stability properties and applicability, especially when connected to a weak-grid. The paper also provides a discussion on the prerequisites and challenges surrounding the comparative study of different GFCs.

KW - Offshore WPPs

KW - Small-signal stability

KW - Grid-forming control

KW - Weak grids

KW - Converter control

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M3 - Article in proceedings

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BT - Proceedings of 22nd Wind and Solar Integration Workshop (WIW 2023)

PB - Institution of Engineering and Technology

T2 - 22nd Wind and Solar Integration Workshop

Y2 - 26 September 2023 through 28 September 2023

ER -

Grid-forming control methods for weakly connected offshore WPPs

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Keywords

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