Converter outage fault ride-through control strategy for offshore MT-HVDC network

Mohamed A. Abdelwahed; Ehab El-Saadany

doi:10.1109/CCECE.2016.7726854

Converter outage fault ride-through control strategy for offshore MT-HVDC network

Mohamed A. Abdelwahed
, Ehab El-Saadany

Electrical Engineering

University of Waterloo

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

2 Scopus citations

Abstract

This paper presents a fault ride through (FRT) control strategy for offshore MT HVDC (multi-terminal high voltage DC), which integrates type-4 wind-turbine based offshore-wind farms. The proposed control strategy are responsible for relieving DC voltage rise effects during a temporary grid side (GS) converter outage, by setting local measurements and communication-free control rules in wind farm (WF) converters and wind generators local controllers. The functionality and feasibility of the proposed control strategy are presented in this paper through simulations of a three terminals offshore HVDC network system.

Original language	British English
Title of host publication	2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781467387217
DOIs	https://doi.org/10.1109/CCECE.2016.7726854
State	Published - 31 Oct 2016
Event	2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016 - Vancouver, Canada Duration: 14 May 2016 → 18 May 2016

Publication series

Name	Canadian Conference on Electrical and Computer Engineering
Volume	2016-October
ISSN (Print)	0840-7789

Conference

Conference	2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016
Country/Territory	Canada
City	Vancouver
Period	14/05/16 → 18/05/16

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

FRT
MT VSC-HVDC
Offshore wind power integration
Type 4 wind generator
Wind Farms

Access to Document

10.1109/CCECE.2016.7726854

OpenUrl availability

Full text

Cite this

Abdelwahed, M. A., & El-Saadany, E. (2016). Converter outage fault ride-through control strategy for offshore MT-HVDC network. In 2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016 Article 7726854 (Canadian Conference on Electrical and Computer Engineering; Vol. 2016-October). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CCECE.2016.7726854

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abstract = "This paper presents a fault ride through (FRT) control strategy for offshore MT HVDC (multi-terminal high voltage DC), which integrates type-4 wind-turbine based offshore-wind farms. The proposed control strategy are responsible for relieving DC voltage rise effects during a temporary grid side (GS) converter outage, by setting local measurements and communication-free control rules in wind farm (WF) converters and wind generators local controllers. The functionality and feasibility of the proposed control strategy are presented in this paper through simulations of a three terminals offshore HVDC network system.",

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author = "Abdelwahed, \{Mohamed A.\} and Ehab El-Saadany",

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Abdelwahed, MA & El-Saadany, E 2016, Converter outage fault ride-through control strategy for offshore MT-HVDC network. in 2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016., 7726854, Canadian Conference on Electrical and Computer Engineering, vol. 2016-October, Institute of Electrical and Electronics Engineers Inc., 2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016, Vancouver, Canada, 14/05/16. https://doi.org/10.1109/CCECE.2016.7726854

Converter outage fault ride-through control strategy for offshore MT-HVDC network. / Abdelwahed, Mohamed A.; El-Saadany, Ehab.
2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016. Institute of Electrical and Electronics Engineers Inc., 2016. 7726854 (Canadian Conference on Electrical and Computer Engineering; Vol. 2016-October).

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

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AU - El-Saadany, Ehab

PY - 2016/10/31

Y1 - 2016/10/31

N2 - This paper presents a fault ride through (FRT) control strategy for offshore MT HVDC (multi-terminal high voltage DC), which integrates type-4 wind-turbine based offshore-wind farms. The proposed control strategy are responsible for relieving DC voltage rise effects during a temporary grid side (GS) converter outage, by setting local measurements and communication-free control rules in wind farm (WF) converters and wind generators local controllers. The functionality and feasibility of the proposed control strategy are presented in this paper through simulations of a three terminals offshore HVDC network system.

AB - This paper presents a fault ride through (FRT) control strategy for offshore MT HVDC (multi-terminal high voltage DC), which integrates type-4 wind-turbine based offshore-wind farms. The proposed control strategy are responsible for relieving DC voltage rise effects during a temporary grid side (GS) converter outage, by setting local measurements and communication-free control rules in wind farm (WF) converters and wind generators local controllers. The functionality and feasibility of the proposed control strategy are presented in this paper through simulations of a three terminals offshore HVDC network system.

KW - FRT

KW - MT VSC-HVDC

KW - Offshore wind power integration

KW - Type 4 wind generator

KW - Wind Farms

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M3 - Conference contribution

AN - SCOPUS:85006851750

T3 - Canadian Conference on Electrical and Computer Engineering

BT - 2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2016 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2016

Y2 - 14 May 2016 through 18 May 2016

ER -

Converter outage fault ride-through control strategy for offshore MT-HVDC network

Abstract

Publication series

Conference

UN SDGs

Keywords

Access to Document

OpenUrl availability

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