Review of HVDC systems for enhancing resilience after extreme natural events

Abstract Compared with AC systems, HVDC systems are more flexible and potentially contribute to enhancing system resilience. Currently, three types of HVDC technologies, LCC‐HVDC (Line‐commutated Current‐sourced Converters, LCC), VSC‐HVDC (Voltage Sourced Converter, VSC), and MMC‐HVDC (Modular‐Multi...

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Autores principales: Chuhang Luo, Liang Liang, Xiaoyang Bai
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Publicado: Wiley 2021
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Acceso en línea:https://doaj.org/article/207414b677594743b6aa984a54541ac5
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spelling oai:doaj.org-article:207414b677594743b6aa984a54541ac52021-11-19T06:50:34ZReview of HVDC systems for enhancing resilience after extreme natural events2051-330510.1049/tje2.12062https://doaj.org/article/207414b677594743b6aa984a54541ac52021-11-01T00:00:00Zhttps://doi.org/10.1049/tje2.12062https://doaj.org/toc/2051-3305Abstract Compared with AC systems, HVDC systems are more flexible and potentially contribute to enhancing system resilience. Currently, three types of HVDC technologies, LCC‐HVDC (Line‐commutated Current‐sourced Converters, LCC), VSC‐HVDC (Voltage Sourced Converter, VSC), and MMC‐HVDC (Modular‐Multilevel‐Converter, MMC), are applied in practical projects. All types of HVDC systems can be applied to stabilize the system frequency of AC power systems and facilitate system recovery after extreme natural events. The operation characteristics, methods, and control strategies of different HVDC technologies for facilitating system operation are reviewed herein; it is indicated that HVDC technology is an effective solution for enhancing system resilience. Renewable resources, energy storage systems, and demand response devices can be coordinated well with HVDC systems. The frequency and voltage regulation ability of power systems and the black start ability can be enhanced by introducing HVDC systems into power systems. Several isolated AC power systems can be connected to HVDC systems. These AC systems can interact with other AC systems through HVDC systems by conforming to their operational characteristics and constraints. The resilience of these AC systems can be enhanced by these interactions. Additionally, related operation methods and control strategies will also be reviewed.Chuhang LuoLiang LiangXiaoyang BaiWileyarticleEngineering (General). Civil engineering (General)TA1-2040ENThe Journal of Engineering, Vol 2021, Iss 11, Pp 653-664 (2021)
institution DOAJ
collection DOAJ
language EN
topic Engineering (General). Civil engineering (General)
TA1-2040
spellingShingle Engineering (General). Civil engineering (General)
TA1-2040
Chuhang Luo
Liang Liang
Xiaoyang Bai
Review of HVDC systems for enhancing resilience after extreme natural events
description Abstract Compared with AC systems, HVDC systems are more flexible and potentially contribute to enhancing system resilience. Currently, three types of HVDC technologies, LCC‐HVDC (Line‐commutated Current‐sourced Converters, LCC), VSC‐HVDC (Voltage Sourced Converter, VSC), and MMC‐HVDC (Modular‐Multilevel‐Converter, MMC), are applied in practical projects. All types of HVDC systems can be applied to stabilize the system frequency of AC power systems and facilitate system recovery after extreme natural events. The operation characteristics, methods, and control strategies of different HVDC technologies for facilitating system operation are reviewed herein; it is indicated that HVDC technology is an effective solution for enhancing system resilience. Renewable resources, energy storage systems, and demand response devices can be coordinated well with HVDC systems. The frequency and voltage regulation ability of power systems and the black start ability can be enhanced by introducing HVDC systems into power systems. Several isolated AC power systems can be connected to HVDC systems. These AC systems can interact with other AC systems through HVDC systems by conforming to their operational characteristics and constraints. The resilience of these AC systems can be enhanced by these interactions. Additionally, related operation methods and control strategies will also be reviewed.
format article
author Chuhang Luo
Liang Liang
Xiaoyang Bai
author_facet Chuhang Luo
Liang Liang
Xiaoyang Bai
author_sort Chuhang Luo
title Review of HVDC systems for enhancing resilience after extreme natural events
title_short Review of HVDC systems for enhancing resilience after extreme natural events
title_full Review of HVDC systems for enhancing resilience after extreme natural events
title_fullStr Review of HVDC systems for enhancing resilience after extreme natural events
title_full_unstemmed Review of HVDC systems for enhancing resilience after extreme natural events
title_sort review of hvdc systems for enhancing resilience after extreme natural events
publisher Wiley
publishDate 2021
url https://doaj.org/article/207414b677594743b6aa984a54541ac5
work_keys_str_mv AT chuhangluo reviewofhvdcsystemsforenhancingresilienceafterextremenaturalevents
AT liangliang reviewofhvdcsystemsforenhancingresilienceafterextremenaturalevents
AT xiaoyangbai reviewofhvdcsystemsforenhancingresilienceafterextremenaturalevents
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