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VIPER: an industrially scalable high-current high-temperature superconductor cable
High-temperature superconductors (HTS) promise to revolutionize high-power applications like wind generators, DC power cables, particle accelerators, and fusion energy devices. A practical HTS cable must not degrade under severe mechanical, electrical, and thermal conditions; have simple, low-resist...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2020
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| Acceso en línea: | https://dx.doi.org/10.1088/1361-6668/abb8c0 http://cds.cern.ch/record/2744722 |
| _version_ | 1780968698901692416 |
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| author | Hartwig, Zachary S Vieira, Rui F Sorbom, Brandon N Badcock, Rodney A Bajko, Marta Beck, William K Castaldo, Bernardo Craighill, Christopher L Davies, Michael Estrada, Jose Fry, Vincent Golfinopoulos, Theodore Hubbard, Amanda E Irby, James H Kuznetsov, Sergey Lammi, Christopher J Michael, Philip C Mouratidis, Theodore Murray, Richard A Pfeiffer, Andrew T Pierson, Samuel Z Radovinsky, Alexi Rowell, Michael D Salazar, Erica E Segal, Michael Stahle, Peter W Takayasu, Makoto Toland, Thomas L Zhou, Lihua |
| author_facet | Hartwig, Zachary S Vieira, Rui F Sorbom, Brandon N Badcock, Rodney A Bajko, Marta Beck, William K Castaldo, Bernardo Craighill, Christopher L Davies, Michael Estrada, Jose Fry, Vincent Golfinopoulos, Theodore Hubbard, Amanda E Irby, James H Kuznetsov, Sergey Lammi, Christopher J Michael, Philip C Mouratidis, Theodore Murray, Richard A Pfeiffer, Andrew T Pierson, Samuel Z Radovinsky, Alexi Rowell, Michael D Salazar, Erica E Segal, Michael Stahle, Peter W Takayasu, Makoto Toland, Thomas L Zhou, Lihua |
| author_sort | Hartwig, Zachary S |
| collection | CERN |
| description | High-temperature superconductors (HTS) promise to revolutionize high-power applications like wind generators, DC power cables, particle accelerators, and fusion energy devices. A practical HTS cable must not degrade under severe mechanical, electrical, and thermal conditions; have simple, low-resistance, and manufacturable electrical joints; high thermal stability; and rapid detection of thermal runaway quench events. We have designed and experimentally qualified a vacuum pressure impregnated, insulated, partially transposed, extruded, and roll-formed (VIPER) cable that simultaneously satisfies all of these requirements for the first time. VIPER cable critical currents are stable over thousands of mechanical cycles at extreme electromechanical force levels, multiple cryogenic thermal cycles, and dozens of quench-like transient events. Electrical joints between VIPER cables are simple, robust, and demountable. Two independent, integrated fiber-optic quench detectors outperform standard quench detection approaches. VIPER cable represents a key milestone in next-step energy generation and transmission technologies and in the maturity of HTS as a technology. |
| id | oai-inspirehep.net-1822389 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | oai-inspirehep.net-18223892020-11-17T20:25:12Zdoi:10.1088/1361-6668/abb8c0http://cds.cern.ch/record/2744722engHartwig, Zachary SVieira, Rui FSorbom, Brandon NBadcock, Rodney ABajko, MartaBeck, William KCastaldo, BernardoCraighill, Christopher LDavies, MichaelEstrada, JoseFry, VincentGolfinopoulos, TheodoreHubbard, Amanda EIrby, James HKuznetsov, SergeyLammi, Christopher JMichael, Philip CMouratidis, TheodoreMurray, Richard APfeiffer, Andrew TPierson, Samuel ZRadovinsky, AlexiRowell, Michael DSalazar, Erica ESegal, MichaelStahle, Peter WTakayasu, MakotoToland, Thomas LZhou, LihuaVIPER: an industrially scalable high-current high-temperature superconductor cableHigh-temperature superconductors (HTS) promise to revolutionize high-power applications like wind generators, DC power cables, particle accelerators, and fusion energy devices. A practical HTS cable must not degrade under severe mechanical, electrical, and thermal conditions; have simple, low-resistance, and manufacturable electrical joints; high thermal stability; and rapid detection of thermal runaway quench events. We have designed and experimentally qualified a vacuum pressure impregnated, insulated, partially transposed, extruded, and roll-formed (VIPER) cable that simultaneously satisfies all of these requirements for the first time. VIPER cable critical currents are stable over thousands of mechanical cycles at extreme electromechanical force levels, multiple cryogenic thermal cycles, and dozens of quench-like transient events. Electrical joints between VIPER cables are simple, robust, and demountable. Two independent, integrated fiber-optic quench detectors outperform standard quench detection approaches. VIPER cable represents a key milestone in next-step energy generation and transmission technologies and in the maturity of HTS as a technology.oai:inspirehep.net:18223892020 |
| spellingShingle | Hartwig, Zachary S Vieira, Rui F Sorbom, Brandon N Badcock, Rodney A Bajko, Marta Beck, William K Castaldo, Bernardo Craighill, Christopher L Davies, Michael Estrada, Jose Fry, Vincent Golfinopoulos, Theodore Hubbard, Amanda E Irby, James H Kuznetsov, Sergey Lammi, Christopher J Michael, Philip C Mouratidis, Theodore Murray, Richard A Pfeiffer, Andrew T Pierson, Samuel Z Radovinsky, Alexi Rowell, Michael D Salazar, Erica E Segal, Michael Stahle, Peter W Takayasu, Makoto Toland, Thomas L Zhou, Lihua VIPER: an industrially scalable high-current high-temperature superconductor cable |
| title | VIPER: an industrially scalable high-current high-temperature superconductor cable |
| title_full | VIPER: an industrially scalable high-current high-temperature superconductor cable |
| title_fullStr | VIPER: an industrially scalable high-current high-temperature superconductor cable |
| title_full_unstemmed | VIPER: an industrially scalable high-current high-temperature superconductor cable |
| title_short | VIPER: an industrially scalable high-current high-temperature superconductor cable |
| title_sort | viper: an industrially scalable high-current high-temperature superconductor cable |
| url | https://dx.doi.org/10.1088/1361-6668/abb8c0 http://cds.cern.ch/record/2744722 |
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