Risk-based DC security assessment for future DC-independent system operator
—The use of multi-terminal HVDC to integrate wind power coming from the North Sea opens de door for a new transmission system model, the DC-Independent System Operator (DC-ISO). DC-ISO will face highly stressed and varying conditions that requires new risk assessment tools to ensure security of supp...
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2015
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Online Access: | https://hdl.handle.net/2134/17699 |
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rr-article-95576992015-01-01T00:00:00Z Risk-based DC security assessment for future DC-independent system operator Francisco Gonzalez-Longatt (1249602) C. Carmona-Delgado (7210382) J. Riquelme (7210385) M. Burgos (7210388) Jose L. Rueda (7206215) Fuzzy inference system HVDC Multiterminal HVDC Randomness Risk Security assessment Uncertainty Wind power —The use of multi-terminal HVDC to integrate wind power coming from the North Sea opens de door for a new transmission system model, the DC-Independent System Operator (DC-ISO). DC-ISO will face highly stressed and varying conditions that requires new risk assessment tools to ensure security of supply. This paper proposes a novel risk-based static security assessment methodology named risk-based DC security assessment (RB-DCSA). It combines a probabilistic approach to include uncertainties and a fuzzy inference system to quantify the systemic and individual component risk associated with operational scenarios considering uncertainties. The proposed methodology is illustrated using a multi-terminal HVDC system where the variability of wind speed at the offshore wind is included. 2015-01-01T00:00:00Z Text Conference contribution 2134/17699 https://figshare.com/articles/conference_contribution/Risk-based_DC_security_assessment_for_future_DC-independent_system_operator/9557699 CC BY-NC-ND 4.0 |
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Loughborough University |
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topic |
Fuzzy inference system HVDC Multiterminal HVDC Randomness Risk Security assessment Uncertainty Wind power |
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Fuzzy inference system HVDC Multiterminal HVDC Randomness Risk Security assessment Uncertainty Wind power Francisco Gonzalez-Longatt C. Carmona-Delgado J. Riquelme M. Burgos Jose L. Rueda Risk-based DC security assessment for future DC-independent system operator |
description |
—The use of multi-terminal HVDC to integrate wind power coming from the North Sea opens de door for a new transmission system model, the DC-Independent System Operator (DC-ISO). DC-ISO will face highly stressed and varying conditions that requires new risk assessment tools to ensure security of supply. This paper proposes a novel risk-based static security assessment methodology named risk-based DC security assessment (RB-DCSA). It combines a probabilistic approach to include uncertainties and a fuzzy inference system to quantify the systemic and individual component risk associated with operational scenarios considering uncertainties. The proposed methodology is illustrated using a multi-terminal HVDC system where the variability of wind speed at the offshore wind is included. |
format |
Default Conference proceeding |
author |
Francisco Gonzalez-Longatt C. Carmona-Delgado J. Riquelme M. Burgos Jose L. Rueda |
author_facet |
Francisco Gonzalez-Longatt C. Carmona-Delgado J. Riquelme M. Burgos Jose L. Rueda |
author_sort |
Francisco Gonzalez-Longatt (1249602) |
title |
Risk-based DC security assessment for future DC-independent system operator |
title_short |
Risk-based DC security assessment for future DC-independent system operator |
title_full |
Risk-based DC security assessment for future DC-independent system operator |
title_fullStr |
Risk-based DC security assessment for future DC-independent system operator |
title_full_unstemmed |
Risk-based DC security assessment for future DC-independent system operator |
title_sort |
risk-based dc security assessment for future dc-independent system operator |
publishDate |
2015 |
url |
https://hdl.handle.net/2134/17699 |
_version_ |
1794751260625207296 |