Conveners
C4OrC - Cryogenic Systems and Facilities
- Christopher Clausen (Linde Cryogenics)
- Pascale Dauguet (Air Liquide Advanced Technologies)
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Dr Antonio Perin (CERN)02/07/2015, 09:00CEC-02 - Large-Scale Systems, Facilities, and TestingContributed Oral PresentationTo expand CERN testing capability to superconducting devices that cannot be installed in existing test facilities because of their size and/or mass, CERN is building a new cryogenic test facility for large and heavy devices. The first devices to be tested in the facility will be the S-FRS superconducting magnets for the FAIR project that is currently under construction at the GSI Research...Go to contribution page
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Dr Jie Yuan (AMSC)02/07/2015, 09:15CEC-08 - Cryogenic Power Cables and LeadsContributed Oral PresentationIn the last decade, significant advances in the performance of second generation (2G) high temperature superconducting wire have made it suitable for commercially viable applications such as electric power cables and fault current limiters. Currently, the U.S. Department of Homeland Security is co-funding the design, development and demonstration of an inherently fault current limiting HTS...Go to contribution page
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Alain Girard (CEA), Bernard Rousset (CEA)02/07/2015, 09:30CEC-02 - Large-Scale Systems, Facilities, and TestingContributed Oral PresentationRecently, CEA Grenoble SBT has designed, built and tested three liquid helium facilities dedicated to turbulence studies. All these experiments are able to operate either in HeI or HeII within the same cooldown. Another common technical specificity of these three facilities is the use of moving parts inside liquid helium. The SHREK experiment is a von Karman swirling flow between 72cm...Go to contribution page
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Mr Qiyong Zhang (Institute of Plasma Physics, Chinese Academy of Sciences)02/07/2015, 10:00CEC-02 - Large-Scale Systems, Facilities, and TestingContributed Oral PresentationSuperconducting magnet of Central Solenoid (CS) model coil of China Fusion Engineering Test Reactor (CFETR) is made of Nb3Sn/NbTi cable-in-conduit conductor (CICC), and operated by forced-flow cooling with a large amount of supercritical helium. The cryogenic circulation pump can be effective to achieve the supercritical helium (SHe) circulation to the forced-flow cooled (FFC) cable-in-conduit...Go to contribution page