MT26 Abstracts, Timetable and Presentations

Session

Mon-Af-Or6 - Cable-in-Conduit Conductors

Mon-Af-Or6

23 Sept 2019, 16:30

Regency EF

Conveners

Mon-Af-Or6 - Cable-in-Conduit Conductors

• Antonio della Corte (ENEA)
• Simonetta Turtu' (ENEA)

1575. Mon-Af-Or6-01 [Invited]: SuperCIC: enhancing winding current density for high-field windings of tokamaks

Peter McIntyre (Texas A&M University)

23/09/2019, 16:30

Invited Oral Presentation

The design for a new approach to cable-in-conduit (SuperCIC) for use in the high-field windings of tokamaks. Two layers of high-field superconductor wires are cabled onto a thin-wall perforated center tube. An overwrap is applied and the cable is inserted as a loose fit into a sheath tube. The sheath tube is drawn down onto the cable to compress the wires onto the center tube and immobilize...

1108. Mon-Af-Or6-02: Manufacturing and Test of Next Generation 100 kA @ 10 T and 4.5 K ReBCO-CORC Cable-In-Conduit Conductors for Large-Scale Magnets

Dr Tim Mulder (CERN)

23/09/2019, 17:00

Contributed Oral Presentation

ReBCO-CORC Cable-In-Conduit Conductors are high-current multi-strand conductors aimed for application in large scale magnets, for example in magnets for particle detectors and fusion experiments; but also for use in bus lines feeding high currents to magnets or other devices. ReBCO based conductors open up the operating temperature range of 20 to 50 K, not accessible by any other practical...

1841. Mon-Af-Or6-03: Presentation withdrawn

23/09/2019, 17:15

897. Mon-Af-Or6-04: AC Loss Measurements of the DEMO TF React&Wind Conductor Prototype no. 2

Kamil Sedlak (EPFL Lausanne)

23/09/2019, 17:30

Contributed Oral Presentation

The EUROfusion DEMO is being designed as the fusion machine to be built after ITER. During the preconceptual phase, several design options are investigated by theoretical analyses as well as tests on newly developed conductor prototypes.

One design option for the toroidal field magnet (TF) and central solenoid (CS) is based on flat Nb3Sn forced-flow conductors made with react&wind technique....

754. Mon-Af-Or6-05: The design and R&D work of high performanceCICCs for CFETR TF

Dr Qin Jinggang (Institute of Plsama Physics, CAS)

23/09/2019, 17:45

Contributed Oral Presentation

The engineer design for CFETR, “China Fusion Engineering Test Reactor”, has start since 2017. Its magnet system includes the Toroidal Field (TF), Central Solenoid (CS) and Poloidal Field (PF) coils. The maximum field of TF will get around 14.5 T, which is much higher than that of other reactors. One full-scale TF coil will be built. Tremendous investigations need to be made in the development...