1. 1-D thermal-hydraulic analysis of the high temperature superconducting current leads for the ITER magnet system from 5K to 300K
- Author
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P. Bauer, Roberto Zanino, L.S. Richard, Reinhard Heller, and Enrico Rizzo
- Subjects
Physics ,Steady state ,Large Hadron Collider ,Mechanical Engineering ,Nuclear engineering ,Solenoid ,Superconducting magnet ,Thermal hydraulics ,Nuclear magnetic resonance ,Nuclear Energy and Engineering ,Magnet ,Nuclear fusion ,General Materials Science ,Current (fluid) ,Civil and Structural Engineering - Abstract
The magnet system of ITER includes high temperature superconducting (HTS) current leads with a maximum current of 68 kA for the toroidal field (TF) coils, 55 kA for the poloidal field (PF)/central solenoid (CS) coils and 10 kA for the control coils (CC), respectively. Although different in terms of size and operative conditions, the ITER HTS current leads have been all designed on the basis of an established concept, which was successfully developed for the LHC at CERN and proven by the so-called 70 kA “demonstrator” lead made by KIT and by the ITER pre-prototypes made by ASIPP in China. A broad R&D campaign has been undertaken by ASIPP and CERN in order to find optimized designs for each component of the leads. Nevertheless, a comprehensive picture of the performance of the entire HTS current leads is not yet available. In this paper, a steady state, full length, thermal-hydraulic 1-D modeling is applied to the study of the three types (TF, PF/CS, CC) of ITER HTS current leads. The results of this predictive analysis are then compared with relevant ITER requirements. It was found that the present design of the HTS current leads will fulfill these specifications.
- Published
- 2013
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