002636331 001__ 2636331
002636331 003__ SzGeCERN
002636331 005__ 20180828205544.0
002636331 0247_ $$2DOI$$9submitter$$a10.1109/TASC.2016.2626270
002636331 0248_ $$aoai:inspirehep.net:1689436$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002636331 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1689436$$d2018-08-27T15:26:26Z$$h2018-08-28T05:19:07Z$$mmarcxml
002636331 035__ $$9Inspire$$a1689436
002636331 041__ $$aeng
002636331 100__ $$aSerio, Luigi$$jORCID:[email protected]$$uCERN
002636331 245__ $$9submitter$$aA New Cryogenic Test Facility for Large and Heavy Superconducting Magnets
002636331 246__ $$9crossref$$aA New Cryogenic Test Facility for Large and Heavy Superconducting Magnets
002636331 260__ $$c2016
002636331 300__ $$a5 p
002636331 520__ $$9submitter$$aCERN has recently designed and constructed a new cryogenic facility for testing large and heavy superconducting magnets at liquid helium temperatures. The facility, erected in a large assembly hall with cranes capable of up to 100 t, provides a cooling capacity of 1.2 kW at 4.5 K equivalent, 15-kW LN$_2$ cooling and warming capabilities for up to three magnets in parallel. The facility provides the required technical infrastructure for continuous and reliable operation. Test capabilities comprise electrical, cryogenics, vacuum and mechanical verification, and validation at ambient and liquid helium temperatures. A comprehensive survey and magnetic measurement system, comprising a hall-probe mapper, a rotating-coil magnetometer, a stretched wire, a translating fluxmeter, and a laser tracker, allows the detailed measurement of the magnetic field strength and quality on a large volume. The magnetic axes of the quadrupoles can be established within $\pm 0.2$ mm at $1 \sigma$ accuracy. The facility has been equipped with power supplies, three converters of $\pm 500$ A/120 V, and six converters of $\pm 600$ A/40 V, as well as the required energy extraction, quench protection, data acquisition, and interlocks for the testing of superconducting magnets for the FAIR project, currently under construction at the GSI Research Center, in Darmstadt, Germany. The versatile design of the facility, its layout, and testing capabilities complements CERN's other test infrastructures for large superconducting magnets. We report on the design, construction, and commissioning of the facility as well as the expected capabilities and performances for future tests of large and heavy superconducting magnets.
002636331 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002636331 690C_ $$aCERN
002636331 700__ $$aSchnizer, [email protected]$$uDarmstadt, GSI
002636331 700__ $$aArnaud, [email protected]$$uCERN
002636331 700__ $$aBertone, [email protected]$$uCERN
002636331 700__ $$aBlanco, Enrique$$iINSPIRE-00657753$$memail:[email protected]$$uCERN
002636331 700__ $$aCalcoen, Daniel$$kORCID:0000-0002-8668-3759$$memail:[email protected]$$uCERN
002636331 700__ $$aCharrondiere, [email protected]$$uCERN
002636331 700__ $$aCho, Eun [email protected]$$uDarmstadt, GSI
002636331 700__ $$aCoelingh, [email protected]$$uCERN
002636331 700__ $$aDahlerup-Petersen, [email protected]$$uCERN
002636331 700__ $$aDhalla, [email protected]$$uCERN
002636331 700__ $$aDenz, Reiner$$kORCID:0000-0002-2389-9034$$memail:[email protected]$$uCERN
002636331 700__ $$aDerking, J [email protected]$$uCERN
002636331 700__ $$aGolluccio, [email protected]$$uCERN
002636331 700__ $$aHay, [email protected]$$uCERN
002636331 700__ $$aHenriques, [email protected]$$uCERN
002636331 700__ $$aInglese, [email protected]$$uCERN
002636331 700__ $$aKosmicki, [email protected]$$uCERN
002636331 700__ $$aMertens, [email protected]$$uCERN
002636331 700__ $$aMissiaen, [email protected]$$uCERN
002636331 700__ $$aMueller, [email protected]$$uDarmstadt, GSI
002636331 700__ $$aMuttoni, [email protected]$$uCERN
002636331 700__ $$aMoccia, Stefano$$iINSPIRE-00310697$$memail:[email protected]$$uCERN
002636331 700__ $$aNecca, [email protected]$$uCERN
002636331 700__ $$aPerin, [email protected]$$uCERN
002636331 700__ $$aPschorn, [email protected]$$uDarmstadt, GSI
002636331 700__ $$aRussenschuck, Stephan$$kORCID:0000-0003-3370-7419$$memail:[email protected]$$uCERN
002636331 700__ $$aSteckert, Jens$$uCERN
002636331 700__ $$aSzwangruber, [email protected]$$uDarmstadt, GSI
002636331 700__ $$aThiesen, [email protected]$$uCERN
002636331 700__ $$aVelonas, [email protected]$$uDarmstadt, GSI
002636331 700__ $$aWamers, [email protected]$$uDarmstadt, GSI
002636331 700__ $$aWillering, Gerard$$kORCID:0000-0002-0514-7488$$memail:[email protected]$$uCERN
002636331 700__ $$aXiang, [email protected]$$uDarmstadt, GSI
002636331 773__ $$c9500105$$n4$$pIEEE Trans. Appl. Supercond.$$v27$$wC16-09-04.2$$y2017
002636331 960__ $$a13
002636331 962__ $$b2223776$$k9500105$$ndenver20160904
002636331 980__ $$aARTICLE
002636331 980__ $$aConferencePaper
002636331 999C5 $$9CURATOR$$adoi:10.1109/TASC.2016.2539152$$hMierau, A.$$o1$$sIEEE Trans.Appl.Supercond.,26,4401605$$tTesting of the superconducting magnets for the FAIR project$$x1. A. Mierau et al., "Testing of the superconducting magnets for the FAIR project", IEEE Trans. Appl. Supercond., vol. 26, no. 4, Jun. 2016.$$y2016$$z0
002636331 999C5 $$mH / et al / Proc. Int. Particle Accel. Conf., pp. 2792-2794$$o2$$pMueller$$tStatus of the super-FRS magnet development for FAIR$$x2. H. Mueller et al., "Status of the super-FRS magnet development for FAIR", Proc. Int. Particle Accel. Conf. 2015, pp. 2792-2794, 2015.$$y2015$$z0
002636331 999C5 $$hDelruelle, N.$$mProc.Cryogenic Eng. Conf., pp. 249-254, Sep. 22-26$$o3$$tThe common cryogenic test facility for the ATLAS barrel and end-cap toroid magnets$$x3. N. Delruelle et al., "The common cryogenic test facility for the ATLAS barrel and end-cap toroid magnets", Proc. 2003 Cryogenic Eng. Conf., pp. 249-254, Sep. 22–26, 2003.$$y2003$$z0
002636331 999C5 $$9CURATOR$$adoi:10.1088/1757-899X/101/1/012185$$hPerin, A.$$o4$$sIOP Conf.Ser.Mater.Sci.Eng.,101,012185$$tA new cryogenic test facility for large superconducting devices at CERN$$x4. A. Perin et al., "A new cryogenic test facility for large superconducting devices at CERN", IOP Conf. Ser. Mater. Sci. Eng., vol. 101, 2015.$$z0
002636331 999C5 $$hFormenti, F.$$mProc. Int. Particle Accel. Conf., pp. 696-698$$o5$$tUpgrade of the quench protection system for the superconducting circuits of the LHC machine at CERN: From concept and design to the first operational experience$$x5. F. Formenti et al., "Upgrade of the quench protection system for the superconducting circuits of the LHC machine at CERN: From concept and design to the first operational experience", Proc. Int. Particle Accel. Conf. 2010, pp. 696-698, 2010.$$y2010$$z0
002636331 999C5 $$hAndreassen, O.O.$$mProc. 13th Int. Conf. Accel. Large Exp. Phys. Control Syst., pp. 366-370, Oct. 10-14$$o6$$tLHC magnets test benches controls renovation$$x6. O. O. Andreassen et al., "LHC magnets test benches controls renovation", Proc. 13th Int. Conf. Accel. Large Exp. Phys. Control Syst., pp. 366-370, Oct. 10–14, 2011.$$y2011$$z0
002636331 999C5 $$hBlanco, E.$$mProc. 13th Int. Conf. Accel. Large Exp. Phys. Control Syst., pp. 752-755, Oct. 10-14$$o7$$tUNICOS CPC v6: Evolution$$x7. E. Blanco et al., "UNICOS CPC v6: Evolution", Proc. 13th Int. Conf. Accel. Large Exp. Phys. Control Syst., pp. 752-755, Oct. 10–14, 2011.$$y2011$$z0
002636331 999C5 $$hGolluccio, G.$$mProc. Int. Particle Accel. Conf., pp. 1183-1185$$o8$$tInstruments and methods for the magnetic measurement of the super-FRS magnets$$x8. G. Golluccio et al., "Instruments and methods for the magnetic measurement of the super-FRS magnets", Proc. Int. Particle Accel. Conf. 2016, pp. 1183-1185, 2016.$$y2016$$z0