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Auteurs principaux: Creusot, Christophe, Morandi, Antonio, Mimmi, Francesco, Guerra, Emiliano, Bertinato, Alberto, Steckler, Pierre-Baptiste, Ribani, Pier Luigi, Fabbri, Massimo, Bocchi, Marco, Musso, Andrea, Angeli, Giuliano, Brasiliano, Diego
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2412.12758
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author Creusot, Christophe
Morandi, Antonio
Mimmi, Francesco
Guerra, Emiliano
Bertinato, Alberto
Steckler, Pierre-Baptiste
Ribani, Pier Luigi
Fabbri, Massimo
Bocchi, Marco
Musso, Andrea
Angeli, Giuliano
Brasiliano, Diego
author_facet Creusot, Christophe
Morandi, Antonio
Mimmi, Francesco
Guerra, Emiliano
Bertinato, Alberto
Steckler, Pierre-Baptiste
Ribani, Pier Luigi
Fabbri, Massimo
Bocchi, Marco
Musso, Andrea
Angeli, Giuliano
Brasiliano, Diego
contents The European project SCARLET aims to study and realize a demonstrator of a MVDC (Medium Voltage Direct Current) high-power superconducting cable. This device might be employed to connect offshore wind farms with land, expecting to significantly simplify the offshore platform by eliminating the need for its conversion function. For this purpose, windmill conversion chain must be modified to directly produce the MVDC export voltage. In this scenario, this paper presents the case of a 1GW offshore windmill superconducting link and outlines the design consideration for a 1 GW onshore converter. For this cable, a protection strategy that combines DC circuit breakers with a Resistive Superconducting Fault Current Limiter is proposed. Moreover, this works demonstrates how a superconducting cable can be modelled as an electrical circuit to be integrated into a network simulation tool, enabling the investigation of various fault scenarios and protection strategies. Finally, a specific result is discussed to exemplify how the proposed approach can benefit the design of both the electrical network and the superconducting cable itself.
format Preprint
id arxiv_https___arxiv_org_abs_2412_12758
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Superconducting Cable Modelling into Electro-Magnetic Transient Simulation Tool
Creusot, Christophe
Morandi, Antonio
Mimmi, Francesco
Guerra, Emiliano
Bertinato, Alberto
Steckler, Pierre-Baptiste
Ribani, Pier Luigi
Fabbri, Massimo
Bocchi, Marco
Musso, Andrea
Angeli, Giuliano
Brasiliano, Diego
Superconductivity
The European project SCARLET aims to study and realize a demonstrator of a MVDC (Medium Voltage Direct Current) high-power superconducting cable. This device might be employed to connect offshore wind farms with land, expecting to significantly simplify the offshore platform by eliminating the need for its conversion function. For this purpose, windmill conversion chain must be modified to directly produce the MVDC export voltage. In this scenario, this paper presents the case of a 1GW offshore windmill superconducting link and outlines the design consideration for a 1 GW onshore converter. For this cable, a protection strategy that combines DC circuit breakers with a Resistive Superconducting Fault Current Limiter is proposed. Moreover, this works demonstrates how a superconducting cable can be modelled as an electrical circuit to be integrated into a network simulation tool, enabling the investigation of various fault scenarios and protection strategies. Finally, a specific result is discussed to exemplify how the proposed approach can benefit the design of both the electrical network and the superconducting cable itself.
title Superconducting Cable Modelling into Electro-Magnetic Transient Simulation Tool
topic Superconductivity
url https://arxiv.org/abs/2412.12758