The BEST PATHS Project on MgB2 Superconducting Cables for Very High Power Transmission

BEST PATHS (acronym for "BEyond State-of-the-art Technologies for rePowering Ac corridors and multi-Terminal HVDC Systems") is a collaborative project within the FP7 framework of the European Commission that includes an MgB 2 -based power transmission line among its five constituent demons...

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Veröffentlicht in:	IEEE transactions on applied superconductivity 2016-04, Vol.26 (3), p.1-6
Hauptverfasser:	Ballarino, Amalia, Bruzek, Christian E., Dittmar, Nico, Giannelli, Sebastiano, Goldacker, Wilfried, Grasso, Giovanni, Grilli, Francesco, Haberstroh, Christoph, Hole, Stephane, Lesur, Frederic, Marian, Adela, Martinez-Val, Jose M., Martini, Luciano, Rubbia, Carlo, Salmieri, Delia, Schmidt, Frank, Tropeano, Matteo
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Sprache:	eng
Schlagworte:	BEST PATHS Cable insulation Cooling high-power transmission lines HVDC HVDC transmission MgB2 cables Superconducting cables superconducting links Wires
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creator	Ballarino, Amalia Bruzek, Christian E. Dittmar, Nico Giannelli, Sebastiano Goldacker, Wilfried Grasso, Giovanni Grilli, Francesco Haberstroh, Christoph Hole, Stephane Lesur, Frederic Marian, Adela Martinez-Val, Jose M. Martini, Luciano Rubbia, Carlo Salmieri, Delia Schmidt, Frank Tropeano, Matteo
description	BEST PATHS (acronym for "BEyond State-of-the-art Technologies for rePowering Ac corridors and multi-Terminal HVDC Systems") is a collaborative project within the FP7 framework of the European Commission that includes an MgB 2 -based power transmission line among its five constituent demonstrators. Led by Nexans and bringing together transmission operators, industry and research organizations, this demonstrator aims at validating the novel MgB 2 technology for very high power transfer (gigawatt range). The project foresees the development of a monopole cable system operating in helium gas in the range of 5-10 kA/200-320 kV, corresponding to a transmitted power from 1 to 3.2 GW. The main research and demonstration activities that will be pursued over the four-year project duration are: 1) development and manufacturing of MgB 2 wires and of the cable conductor; 2) design and manufacturing of the HVDC electrical insulation of the cable; 3) optimization of the required cryogenic system; 4) electromagnetic field analysis; 5) design and construction of a prototype electrical feeding system, including terminations and connectors; 6) testing of the demonstrator; 7) study of grid connection procedures and integration of a superconducting link into a transmission grid; and finally, 8) a socio-economic analysis of the MgB 2 power transmission system. CIGRE recommendations will be used to take into account the established international practices, and guidance will be given on newly addressed technical aspects. An overview of the project is presented in this paper, including the main tasks and challenges ahead, as well as the partners and their roles.
doi_str_mv	10.1109/TASC.2016.2545116
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Led by Nexans and bringing together transmission operators, industry and research organizations, this demonstrator aims at validating the novel MgB 2 technology for very high power transfer (gigawatt range). The project foresees the development of a monopole cable system operating in helium gas in the range of 5-10 kA/200-320 kV, corresponding to a transmitted power from 1 to 3.2 GW. The main research and demonstration activities that will be pursued over the four-year project duration are: 1) development and manufacturing of MgB 2 wires and of the cable conductor; 2) design and manufacturing of the HVDC electrical insulation of the cable; 3) optimization of the required cryogenic system; 4) electromagnetic field analysis; 5) design and construction of a prototype electrical feeding system, including terminations and connectors; 6) testing of the demonstrator; 7) study of grid connection procedures and integration of a superconducting link into a transmission grid; and finally, 8) a socio-economic analysis of the MgB 2 power transmission system. CIGRE recommendations will be used to take into account the established international practices, and guidance will be given on newly addressed technical aspects. An overview of the project is presented in this paper, including the main tasks and challenges ahead, as well as the partners and their roles.</description><identifier>ISSN: 1051-8223</identifier><identifier>EISSN: 1558-2515</identifier><identifier>DOI: 10.1109/TASC.2016.2545116</identifier><identifier>CODEN: ITASE9</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>BEST PATHS ; Cable insulation ; Cooling ; high-power transmission lines ; HVDC ; HVDC transmission ; MgB2 cables ; Superconducting cables ; superconducting links ; Wires</subject><ispartof>IEEE transactions on applied superconductivity, 2016-04, Vol.26 (3), p.1-6</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Led by Nexans and bringing together transmission operators, industry and research organizations, this demonstrator aims at validating the novel MgB 2 technology for very high power transfer (gigawatt range). The project foresees the development of a monopole cable system operating in helium gas in the range of 5-10 kA/200-320 kV, corresponding to a transmitted power from 1 to 3.2 GW. The main research and demonstration activities that will be pursued over the four-year project duration are: 1) development and manufacturing of MgB 2 wires and of the cable conductor; 2) design and manufacturing of the HVDC electrical insulation of the cable; 3) optimization of the required cryogenic system; 4) electromagnetic field analysis; 5) design and construction of a prototype electrical feeding system, including terminations and connectors; 6) testing of the demonstrator; 7) study of grid connection procedures and integration of a superconducting link into a transmission grid; and finally, 8) a socio-economic analysis of the MgB 2 power transmission system. CIGRE recommendations will be used to take into account the established international practices, and guidance will be given on newly addressed technical aspects. An overview of the project is presented in this paper, including the main tasks and challenges ahead, as well as the partners and their roles.</description><subject>BEST PATHS</subject><subject>Cable insulation</subject><subject>Cooling</subject><subject>high-power transmission lines</subject><subject>HVDC</subject><subject>HVDC transmission</subject><subject>MgB2 cables</subject><subject>Superconducting cables</subject><subject>superconducting links</subject><subject>Wires</subject><issn>1051-8223</issn><issn>1558-2515</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNotjlFLwzAUhYMoOKc_QHwJ-NyZe9PbpI9bUSdMHLTutaRdunVszUxWZP_ewnw65-HjO4exRxATAJG-FNM8m6CAZIIUE0ByxUZApCMkoOuhC4JII8pbdhfCTgiIdUwjtiq2ls9e84Ivp8U850vvdrY-cdfxz80Med4fra9dt-7rU9tteGaqvQ28cZ6vrD_zebvZ8qX7tZ4X3nTh0IbQuu6e3TRmH-zDf47Z99trkc2jxdf7RzZdRC0KeYoMrlGlqZLGNIRroLgWCoZvTdKQRVVrQdJgZaytpJCV0ESNSCqUGuMESI7Z88V79O6nt-FU7lzvu2GyBKUVpFoJHKinC9Vaa8ujbw_Gn0sVSz0w8g98EFmz</recordid><startdate>20160401</startdate><enddate>20160401</enddate><creator>Ballarino, Amalia</creator><creator>Bruzek, Christian E.</creator><creator>Dittmar, Nico</creator><creator>Giannelli, Sebastiano</creator><creator>Goldacker, Wilfried</creator><creator>Grasso, Giovanni</creator><creator>Grilli, Francesco</creator><creator>Haberstroh, Christoph</creator><creator>Hole, Stephane</creator><creator>Lesur, Frederic</creator><creator>Marian, Adela</creator><creator>Martinez-Val, Jose M.</creator><creator>Martini, Luciano</creator><creator>Rubbia, Carlo</creator><creator>Salmieri, Delia</creator><creator>Schmidt, Frank</creator><creator>Tropeano, Matteo</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Led by Nexans and bringing together transmission operators, industry and research organizations, this demonstrator aims at validating the novel MgB 2 technology for very high power transfer (gigawatt range). The project foresees the development of a monopole cable system operating in helium gas in the range of 5-10 kA/200-320 kV, corresponding to a transmitted power from 1 to 3.2 GW. The main research and demonstration activities that will be pursued over the four-year project duration are: 1) development and manufacturing of MgB 2 wires and of the cable conductor; 2) design and manufacturing of the HVDC electrical insulation of the cable; 3) optimization of the required cryogenic system; 4) electromagnetic field analysis; 5) design and construction of a prototype electrical feeding system, including terminations and connectors; 6) testing of the demonstrator; 7) study of grid connection procedures and integration of a superconducting link into a transmission grid; and finally, 8) a socio-economic analysis of the MgB 2 power transmission system. CIGRE recommendations will be used to take into account the established international practices, and guidance will be given on newly addressed technical aspects. An overview of the project is presented in this paper, including the main tasks and challenges ahead, as well as the partners and their roles.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TASC.2016.2545116</doi><tpages>6</tpages></addata></record>
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subjects	BEST PATHS Cable insulation Cooling high-power transmission lines HVDC HVDC transmission MgB2 cables Superconducting cables superconducting links Wires
title	The BEST PATHS Project on MgB2 Superconducting Cables for Very High Power Transmission
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