Downstream effect on stability in cable-in-conduit superconductor

The transient stability of a Nb-Ti, cable-in-conduit conductor cooled with supercritical helium was investigated experimentally by inductively heating the conductor for short-time durations. Data were gathered for zero and nonzero imposed flow rates. In addition, some of the zero-flow measurements w

Experiments investigating the stability of cable-in-conduit superconductors were performed using test conductors composed of small, quadruplex cables enclosed in steel tubes. To examine the effects of a variation in stabilizer resistivity, all test conductors contained two strands of identical NbTi/

Report contains a discription of method and some results of interstrar~<l <:oupll~Ig AC-losses calculation for CICC-type superconductors for tokamak reak~ors. The method is a modified version of calculation technique developed previously for 7-strand cables and adjusted for AC -losses calculation fo

In a numerical simulation of the motion induced by local heating of the helium in a cable-inconduit superconductor Luongo et al. discovered a new phenomenon they called thermal hydraulic quenchback. After the creation of a local normal zone, its expansion compresses and displaces adjacent cold heliu

The scope of the following paper is to revise the model of the well-cooled/ill-cooled transition in cable-in-conduit conductors (CICCs), introducing the concept of a transition regime where the energy margin decreases from high to low (ideally zero) values gradually. This description is arrived at u