Impact of MMC-HVDC Control on Power System Dynamics: Various Concepts and Parameterization

Hasan, M; Shah, R; Amjady, N; Hossain, MJ; Islam, S

Impact of MMC-HVDC Control on Power System Dynamics: Various Concepts and Parameterization

Hasan, M Shah, R Amjady, N Hossain, MJ Islam, S

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Publisher:: Institute of Electrical and Electronics Engineers (IEEE)
Publication Type:: Conference Proceeding
Citation:: 2023 IEEE International Conference on Energy Technologies for Future Grids, ETFG 2023, 2023, 00, pp. 1-6
Issue Date:: 2023-01-01

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Field	Value	Language
dc.contributor.author	Hasan, M
dc.contributor.author	Shah, R
dc.contributor.author	Amjady, N
dc.contributor.author	Hossain, MJ
dc.contributor.author	Islam, S
dc.date	2023-12-03
dc.date.accessioned	2024-05-03T04:06:36Z
dc.date.available	2024-05-03T04:06:36Z
dc.date.issued	2023-01-01
dc.identifier.citation	2023 IEEE International Conference on Energy Technologies for Future Grids, ETFG 2023, 2023, 00, pp. 1-6
dc.identifier.isbn	9781665471640
dc.identifier.uri	http://hdl.handle.net/10453/178598
dc.description.abstract	Recently, the modular multi-level converter (MMC) based HVDC has become a popular method for integrating offshore wind and other renewable sources into the AC grid. Several studies have reported the possible use of MMC-HVDC to enhance grid strength. However, the control concept, parameterization, and the non-linearity related to fault-ride through behavior of MMC-HVDC greatly affects the dynamics of the host AC system. With the increasing number of HVDC and the stochastic behavior of current power systems, it is essential to comprehensively assess the impact of various control concepts of HVDC and control parametrization on the AC system. An equivalent and modified model of the Great British system has been used for this analysis with the enhanced reactive power and voltage control model. The various tuning and parameterization of the phase-locked loop control system are considered. The simulations conducted using the DIgSILENT PowerFactory show the relations of the control parameterization with the rotor angle and the short-term voltage stability of the system.
dc.language	en
dc.publisher	Institute of Electrical and Electronics Engineers (IEEE)
dc.relation.ispartof	2023 IEEE International Conference on Energy Technologies for Future Grids, ETFG 2023
dc.relation.ispartof	2023 IEEE International Conference on Energy Technologies for Future Grids (ETFG)
dc.relation.isbasedon	10.1109/ETFG55873.2023.10408266
dc.rights	info:eu-repo/semantics/closedAccess
dc.title	Impact of MMC-HVDC Control on Power System Dynamics: Various Concepts and Parameterization
dc.type	Conference Proceeding
utslib.citation.volume	00
pubs.organisational-group	University of Technology Sydney
pubs.organisational-group	University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	University of Technology Sydney/Faculty of Engineering and Information Technology/School of Electrical and Data Engineering
utslib.copyright.status	closed_access	*
dc.date.updated	2024-05-03T04:06:35Z
pubs.finish-date	2023-12-06
pubs.publication-status	Published
pubs.start-date	2023-12-03
pubs.volume	00

Abstract:

Recently, the modular multi-level converter (MMC) based HVDC has become a popular method for integrating offshore wind and other renewable sources into the AC grid. Several studies have reported the possible use of MMC-HVDC to enhance grid strength. However, the control concept, parameterization, and the non-linearity related to fault-ride through behavior of MMC-HVDC greatly affects the dynamics of the host AC system. With the increasing number of HVDC and the stochastic behavior of current power systems, it is essential to comprehensively assess the impact of various control concepts of HVDC and control parametrization on the AC system. An equivalent and modified model of the Great British system has been used for this analysis with the enhanced reactive power and voltage control model. The various tuning and parameterization of the phase-locked loop control system are considered. The simulations conducted using the DIgSILENT PowerFactory show the relations of the control parameterization with the rotor angle and the short-term voltage stability of the system.

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http://hdl.handle.net/10453/178598