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Energy extraction in the CERN large hadron collider (LHC)
Summary form given only, as follows. In case of a resistive transition (a quench) fast and reliable extraction of the magnetic energy, stored in the superconducting coils of the electromagnets of a particle collider, represents a vital part of its magnet protection system. Together with the quench d...
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| creator | Dahlerup-Petersen, K. Medvedko, A. Erokhin, A. Kazmin, B. Sytchev, V. Vassiliev, L. |
| description | Summary form given only, as follows. In case of a resistive transition (a quench) fast and reliable extraction of the magnetic energy, stored in the superconducting coils of the electromagnets of a particle collider, represents a vital part of its magnet protection system. Together with the quench detectors, the quench heaters and the presence of cold by-pass diodes across each magnet the energy extraction facilities provide the requisite means of protecting the quenching superconductors from damage due to excessive local energy dissipation. In the case of the LHC machine at CERN, the energy, stored in each of its eight superconducting dipole chains, exceeds 1.3 GJ. This energy will be absorbed in huge dump resistors, located in the underground collider tunnel or adjacent galleries, during the exponential decay of the 13 kA magnet excitation current, as a result of the activation of the dump switches. Also the sixteen, 13 kA quadrupole chains and some two hundred, 600 A circuits of LHC corrector magnets will be equipped with extraction systems. The extraction switch-gear is based on specially designed, mechanical DC breakers, combined with capacitive snubber circuits for arc suppression. The paper contains a complete system description, including modelling and simulation of the pulsed powering of the dump switches. It presents the calculation, concept and design, the manufacture and results from type and reliability testing of the prototypes of the various components, including the control and acquisition electronics. Related security, redundancy and radiation issues will be highlighted. Finally, the plans for the installation and operation of the almost 300 tons of extraction equipment will be described. |
| doi_str_mv | 10.1109/PPPS.2001.961178 |
| format | conference_proceeding |
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In case of a resistive transition (a quench) fast and reliable extraction of the magnetic energy, stored in the superconducting coils of the electromagnets of a particle collider, represents a vital part of its magnet protection system. Together with the quench detectors, the quench heaters and the presence of cold by-pass diodes across each magnet the energy extraction facilities provide the requisite means of protecting the quenching superconductors from damage due to excessive local energy dissipation. In the case of the LHC machine at CERN, the energy, stored in each of its eight superconducting dipole chains, exceeds 1.3 GJ. This energy will be absorbed in huge dump resistors, located in the underground collider tunnel or adjacent galleries, during the exponential decay of the 13 kA magnet excitation current, as a result of the activation of the dump switches. Also the sixteen, 13 kA quadrupole chains and some two hundred, 600 A circuits of LHC corrector magnets will be equipped with extraction systems. The extraction switch-gear is based on specially designed, mechanical DC breakers, combined with capacitive snubber circuits for arc suppression. The paper contains a complete system description, including modelling and simulation of the pulsed powering of the dump switches. It presents the calculation, concept and design, the manufacture and results from type and reliability testing of the prototypes of the various components, including the control and acquisition electronics. Related security, redundancy and radiation issues will be highlighted. Finally, the plans for the installation and operation of the almost 300 tons of extraction equipment will be described.</description><identifier>ISBN: 9780780371415</identifier><identifier>ISBN: 0780371410</identifier><identifier>DOI: 10.1109/PPPS.2001.961178</identifier><language>eng</language><publisher>IEEE</publisher><subject>Detectors ; Diodes ; Electromagnets ; Electronic equipment testing ; Large Hadron Collider ; Protection ; Superconducting coils ; Superconducting magnets ; Superconductivity ; Switches</subject><ispartof>IEEE Conference Record - Abstracts. PPPS-2001 Pulsed Power Plasma Science 2001. 28th IEEE International Conference on Plasma Science and 13th IEEE International Pulsed Power Conference (Cat. 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This energy will be absorbed in huge dump resistors, located in the underground collider tunnel or adjacent galleries, during the exponential decay of the 13 kA magnet excitation current, as a result of the activation of the dump switches. Also the sixteen, 13 kA quadrupole chains and some two hundred, 600 A circuits of LHC corrector magnets will be equipped with extraction systems. The extraction switch-gear is based on specially designed, mechanical DC breakers, combined with capacitive snubber circuits for arc suppression. The paper contains a complete system description, including modelling and simulation of the pulsed powering of the dump switches. It presents the calculation, concept and design, the manufacture and results from type and reliability testing of the prototypes of the various components, including the control and acquisition electronics. Related security, redundancy and radiation issues will be highlighted. Finally, the plans for the installation and operation of the almost 300 tons of extraction equipment will be described.</description><subject>Detectors</subject><subject>Diodes</subject><subject>Electromagnets</subject><subject>Electronic equipment testing</subject><subject>Large Hadron Collider</subject><subject>Protection</subject><subject>Superconducting coils</subject><subject>Superconducting magnets</subject><subject>Superconductivity</subject><subject>Switches</subject><isbn>9780780371415</isbn><isbn>0780371410</isbn><fulltext>true</fulltext><rsrctype>conference_proceeding</rsrctype><creationdate>2001</creationdate><recordtype>conference_proceeding</recordtype><sourceid>6IE</sourceid><recordid>eNotj0tLxDAUhQMiKGP34ipLXbTm5jFJllKqIxQtPtbDTXs7E6kdSbtw_r2F8XDgWxz44DB2DaIAEP6-aZr3QgoBhV8DWHfGMm-dWKosaDAXLJumL7FEG621v2S-Gintjpx-54TtHA8jjyOf98TL6u2FD5h2xPfYpWVoD8MQO0r8tt6Ud1fsvMdhouyfK_b5WH2Um7x-fXouH-o8grFzDs6vpQkBgwXZggkGlQxKGW0RtUOrNUobRFChN95BZ13QupeBhCdSXq3YzckbiWj7k-I3puP29E_9Adi6Q48</recordid><startdate>2001</startdate><enddate>2001</enddate><creator>Dahlerup-Petersen, K.</creator><creator>Medvedko, A.</creator><creator>Erokhin, A.</creator><creator>Kazmin, B.</creator><creator>Sytchev, V.</creator><creator>Vassiliev, L.</creator><general>IEEE</general><scope>6IE</scope><scope>6IH</scope><scope>CBEJK</scope><scope>RIE</scope><scope>RIO</scope></search><sort><creationdate>2001</creationdate><title>Energy extraction in the CERN large hadron collider (LHC)</title><author>Dahlerup-Petersen, K. ; Medvedko, A. ; Erokhin, A. ; Kazmin, B. ; Sytchev, V. ; Vassiliev, L.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-i157t-189625bbab712c15b5a32b33547aa48a744a27b0b3bf5981d78b44f2be09ee393</frbrgroupid><rsrctype>conference_proceedings</rsrctype><prefilter>conference_proceedings</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Detectors</topic><topic>Diodes</topic><topic>Electromagnets</topic><topic>Electronic equipment testing</topic><topic>Large Hadron Collider</topic><topic>Protection</topic><topic>Superconducting coils</topic><topic>Superconducting magnets</topic><topic>Superconductivity</topic><topic>Switches</topic><toplevel>online_resources</toplevel><creatorcontrib>Dahlerup-Petersen, K.</creatorcontrib><creatorcontrib>Medvedko, A.</creatorcontrib><creatorcontrib>Erokhin, A.</creatorcontrib><creatorcontrib>Kazmin, B.</creatorcontrib><creatorcontrib>Sytchev, V.</creatorcontrib><creatorcontrib>Vassiliev, L.</creatorcontrib><collection>IEEE Electronic Library (IEL) Conference Proceedings</collection><collection>IEEE Proceedings Order Plan (POP) 1998-present by volume</collection><collection>IEEE Xplore All Conference Proceedings</collection><collection>IEEE/IET Electronic Library</collection><collection>IEEE Proceedings Order Plans (POP) 1998-present</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Dahlerup-Petersen, K.</au><au>Medvedko, A.</au><au>Erokhin, A.</au><au>Kazmin, B.</au><au>Sytchev, V.</au><au>Vassiliev, L.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Energy extraction in the CERN large hadron collider (LHC)</atitle><btitle>IEEE Conference Record - Abstracts. 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In the case of the LHC machine at CERN, the energy, stored in each of its eight superconducting dipole chains, exceeds 1.3 GJ. This energy will be absorbed in huge dump resistors, located in the underground collider tunnel or adjacent galleries, during the exponential decay of the 13 kA magnet excitation current, as a result of the activation of the dump switches. Also the sixteen, 13 kA quadrupole chains and some two hundred, 600 A circuits of LHC corrector magnets will be equipped with extraction systems. The extraction switch-gear is based on specially designed, mechanical DC breakers, combined with capacitive snubber circuits for arc suppression. The paper contains a complete system description, including modelling and simulation of the pulsed powering of the dump switches. It presents the calculation, concept and design, the manufacture and results from type and reliability testing of the prototypes of the various components, including the control and acquisition electronics. 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| identifier | ISBN: 9780780371415 |
| ispartof | IEEE Conference Record - Abstracts. PPPS-2001 Pulsed Power Plasma Science 2001. 28th IEEE International Conference on Plasma Science and 13th IEEE International Pulsed Power Conference (Cat. No.01CH37, 2001, p.428 |
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| language | eng |
| recordid | cdi_ieee_primary_961178 |
| source | IEEE Electronic Library (IEL) Conference Proceedings |
| subjects | Detectors Diodes Electromagnets Electronic equipment testing Large Hadron Collider Protection Superconducting coils Superconducting magnets Superconductivity Switches |
| title | Energy extraction in the CERN large hadron collider (LHC) |
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