A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits

The large hadron collider (LHC) at CERN has been operating and generating physics experimental data since September 2008, and following its first long shut down, it has entered a second, 4-year-long physics run. It is to date the largest superconducting installation ever built, counting over 9000 ma...

Descripción completa

Detalles Bibliográficos
Autores principales: Bottura, Luca, Tock, Jean-Philippe, Auchmann, Bernard, Bednarek, Mateusz, Calcoen, Daniel, Charifoulline, Zinour, Coelingh, Gert-Jan, D'Angelo, Giorgio, Hagen, Per, Le Naour, Sandrine, Mentink, Matthias, Milanese, Attilio, Modena, Michele, Montabonnet, Valerie, Perin, Antonio, Pojer, Mirko, Rodriguez-Mateos, Felix, Romera, Ivan, Scheuerlein, Christian, Schmidt, Rudiger, Siemko, Andrzej, Solfaroli, Matteo, Steckert, Jens, Todesco, Ezio, Verweij, Arjan, Willering, Gerard, Wollmann, Daniel, Zerlauth, Markus
Lenguaje:eng
Publicado: 2017
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.1109/TASC.2017.2772805
http://cds.cern.ch/record/2302119
_version_ 1780957257680289792
author Bottura, Luca
Tock, Jean-Philippe
Auchmann, Bernard
Bednarek, Mateusz
Calcoen, Daniel
Charifoulline, Zinour
Coelingh, Gert-Jan
D'Angelo, Giorgio
Hagen, Per
Le Naour, Sandrine
Mentink, Matthias
Milanese, Attilio
Modena, Michele
Montabonnet, Valerie
Perin, Antonio
Pojer, Mirko
Rodriguez-Mateos, Felix
Romera, Ivan
Scheuerlein, Christian
Schmidt, Rudiger
Siemko, Andrzej
Solfaroli, Matteo
Steckert, Jens
Todesco, Ezio
Verweij, Arjan
Willering, Gerard
Wollmann, Daniel
Zerlauth, Markus
author_facet Bottura, Luca
Tock, Jean-Philippe
Auchmann, Bernard
Bednarek, Mateusz
Calcoen, Daniel
Charifoulline, Zinour
Coelingh, Gert-Jan
D'Angelo, Giorgio
Hagen, Per
Le Naour, Sandrine
Mentink, Matthias
Milanese, Attilio
Modena, Michele
Montabonnet, Valerie
Perin, Antonio
Pojer, Mirko
Rodriguez-Mateos, Felix
Romera, Ivan
Scheuerlein, Christian
Schmidt, Rudiger
Siemko, Andrzej
Solfaroli, Matteo
Steckert, Jens
Todesco, Ezio
Verweij, Arjan
Willering, Gerard
Wollmann, Daniel
Zerlauth, Markus
author_sort Bottura, Luca
collection CERN
description The large hadron collider (LHC) at CERN has been operating and generating physics experimental data since September 2008, and following its first long shut down, it has entered a second, 4-year-long physics run. It is to date the largest superconducting installation ever built, counting over 9000 magnets along its 27-km long circumference. A significant operational experience has been accumulated, including the occurrence and consequences of electrical faults at the level of the superconducting magnets, as well as their protection and instrumentation circuits. The purpose of this paper is to provide a first overview of the most common electrical faults and their frequency of occurrence in the first years of operation, and to perform a statistical analysis that can provide reference values for future productions of similar dimensions and nature.
id oai-inspirehep.net-1648281
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2017
record_format invenio
spelling oai-inspirehep.net-16482812020-12-14T13:46:11Zdoi:10.1109/TASC.2017.2772805http://cds.cern.ch/record/2302119engBottura, LucaTock, Jean-PhilippeAuchmann, BernardBednarek, MateuszCalcoen, DanielCharifoulline, ZinourCoelingh, Gert-JanD'Angelo, GiorgioHagen, PerLe Naour, SandrineMentink, MatthiasMilanese, AttilioModena, MicheleMontabonnet, ValeriePerin, AntonioPojer, MirkoRodriguez-Mateos, FelixRomera, IvanScheuerlein, ChristianSchmidt, RudigerSiemko, AndrzejSolfaroli, MatteoSteckert, JensTodesco, EzioVerweij, ArjanWillering, GerardWollmann, DanielZerlauth, MarkusA Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and CircuitsAccelerators and Storage RingsThe large hadron collider (LHC) at CERN has been operating and generating physics experimental data since September 2008, and following its first long shut down, it has entered a second, 4-year-long physics run. It is to date the largest superconducting installation ever built, counting over 9000 magnets along its 27-km long circumference. A significant operational experience has been accumulated, including the occurrence and consequences of electrical faults at the level of the superconducting magnets, as well as their protection and instrumentation circuits. The purpose of this paper is to provide a first overview of the most common electrical faults and their frequency of occurrence in the first years of operation, and to perform a statistical analysis that can provide reference values for future productions of similar dimensions and nature.oai:inspirehep.net:16482812017
spellingShingle Accelerators and Storage Rings
Bottura, Luca
Tock, Jean-Philippe
Auchmann, Bernard
Bednarek, Mateusz
Calcoen, Daniel
Charifoulline, Zinour
Coelingh, Gert-Jan
D'Angelo, Giorgio
Hagen, Per
Le Naour, Sandrine
Mentink, Matthias
Milanese, Attilio
Modena, Michele
Montabonnet, Valerie
Perin, Antonio
Pojer, Mirko
Rodriguez-Mateos, Felix
Romera, Ivan
Scheuerlein, Christian
Schmidt, Rudiger
Siemko, Andrzej
Solfaroli, Matteo
Steckert, Jens
Todesco, Ezio
Verweij, Arjan
Willering, Gerard
Wollmann, Daniel
Zerlauth, Markus
A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits
title A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits
title_full A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits
title_fullStr A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits
title_full_unstemmed A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits
title_short A Statistical Analysis of Electrical Faults in the LHC Superconducting Magnets and Circuits
title_sort statistical analysis of electrical faults in the lhc superconducting magnets and circuits
topic Accelerators and Storage Rings
url https://dx.doi.org/10.1109/TASC.2017.2772805
http://cds.cern.ch/record/2302119
work_keys_str_mv AT botturaluca astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT tockjeanphilippe astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT auchmannbernard astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT bednarekmateusz astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT calcoendaniel astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT charifoullinezinour astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT coelinghgertjan astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT dangelogiorgio astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT hagenper astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT lenaoursandrine astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT mentinkmatthias astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT milaneseattilio astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT modenamichele astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT montabonnetvalerie astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT perinantonio astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT pojermirko astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT rodriguezmateosfelix astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT romeraivan astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT scheuerleinchristian astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT schmidtrudiger astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT siemkoandrzej astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT solfarolimatteo astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT steckertjens astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT todescoezio astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT verweijarjan astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT willeringgerard astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT wollmanndaniel astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT zerlauthmarkus astatisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT botturaluca statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT tockjeanphilippe statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT auchmannbernard statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT bednarekmateusz statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT calcoendaniel statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT charifoullinezinour statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT coelinghgertjan statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT dangelogiorgio statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT hagenper statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT lenaoursandrine statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT mentinkmatthias statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT milaneseattilio statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT modenamichele statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT montabonnetvalerie statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT perinantonio statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT pojermirko statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT rodriguezmateosfelix statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT romeraivan statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT scheuerleinchristian statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT schmidtrudiger statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT siemkoandrzej statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT solfarolimatteo statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT steckertjens statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT todescoezio statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT verweijarjan statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT willeringgerard statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT wollmanndaniel statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits
AT zerlauthmarkus statisticalanalysisofelectricalfaultsinthelhcsuperconductingmagnetsandcircuits

Ejemplares similares