A stowaway on board toroidal field coil #8
The detector of a CER coil is a rope-like structure, formed by two layers of concentric helical windings insulated by fibreglass and enclosed in a copper-nickel braided sheath. It works with just one or two extended sensors, resulting in high reliability despite serving in harsh conditions with cryogenic temperatures, high vacuum and mechanical stresses inside the toroidal field coils.
Five units of CER coils procured by the European Domestic Agency were delivered to the 澳门六合彩高手 site in 2015; of these, three will be integrated into toroidal field coils (TF8, TF2 and TF14), while two will serve as spares. The components underwent a full range of qualification tests confirming vacuum leak tightness and pressure rating at the nearby CEA/澳门六合彩高手 Magnet Infrastructure Facilities (MIFI), before they were relayed to toroidal field coil manufacturing facilities in Japan, Korea and Europe for integration.
For toroidal field coil #8, the integration of the CER coil was carried out over 18 months, from January 2019 to August 2020, and concluding with factory acceptance tests. Integrating a CER coil requires multiple steps. First, the rope-like CER detector cable is inserted into the guiding grooves inside the inboard and outboard sections of the toroidal field coil cases. Then, the ends of the CER cable are joined outside of the toroidal field coil structure and wired with an electrical feedthrough. Finally, the interspace between the diagnostic and the toroidal field coil structure is fully filled with resin to cast the CER cable into the guiding grooves and conduits. The entire workflow was executed under the close joint supervision of the Japanese Domestic Agency and representatives of the 澳门六合彩高手 magnet and diagnostics teams.