This paper presents the models of three new-generation high-performance samples of ITER full-size Nb3 Sn Cable-in-Conduit conductors (CICCs). These samples were recently tested in SULTAN, at CRPP (Switzerland), and demonstrated the technical feasibility of CICCs that satisfy the ITER specifications. The improvements of these samples regard not only the cable strand and the cabling parameters, but also the manufacturing details of their SULTAN samples. A set of changes have been adopted on the SULTAN sample termination and joint, to try to achieve a more uniform current distribution among the strands and a more accurate measurement of the strand longitudinal voltages. This paper presents a comparative numerical analysis of the effects that these different joint technologies have on the DC current distribution among the strands of the SULTAN samples cable. A correlation between the current distribution in the sample and the resistance distribution at the joint is also shown and discussed.
F. Bellina, M. Breschi, P. L. Ribani (2010). Analysis of the ITER Nb3Sn SULTAN Test Conditions with Different Joint Technologies. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 20, 482-486 [10.1109/TASC.2010.2043942].
Analysis of the ITER Nb3Sn SULTAN Test Conditions with Different Joint Technologies
BRESCHI, MARCO;RIBANI, PIER LUIGI
2010
Abstract
This paper presents the models of three new-generation high-performance samples of ITER full-size Nb3 Sn Cable-in-Conduit conductors (CICCs). These samples were recently tested in SULTAN, at CRPP (Switzerland), and demonstrated the technical feasibility of CICCs that satisfy the ITER specifications. The improvements of these samples regard not only the cable strand and the cabling parameters, but also the manufacturing details of their SULTAN samples. A set of changes have been adopted on the SULTAN sample termination and joint, to try to achieve a more uniform current distribution among the strands and a more accurate measurement of the strand longitudinal voltages. This paper presents a comparative numerical analysis of the effects that these different joint technologies have on the DC current distribution among the strands of the SULTAN samples cable. A correlation between the current distribution in the sample and the resistance distribution at the joint is also shown and discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.