Stability of NbTi forced-flow superconducting cable

The stability of a forced-flow cooled superconducting coil is investigated by use of numerical simulation. A numerical code to integrate the simultaneous partial differential equation system composed of the 1D hydrodynamic equations and the 1D thermal conduction equation has been developed. By using

The stability of a superconducting cable is investigated by measuring the heat flux cooled by liquid helium. It was found that the heater power needed to make the cable go to the normal state can be given by PH = Ps + Eo (A mrn/T, where, Ps is the steady heater power needed to make the cable go norm

## An analytical approach is presented for the determination of the propagation of thermal waves in helium cooled superconducting cables caused by a disturbance resulting in the energy deposition over a finite length of the conductor. The problem is reduced to the solution of an integral equation fo

A numerical analysis of the thermal stability of a superconductor composite cooled by forced-flow supercritical helium has been performed. The analytical model consists of simultaneous two-dimensional coolant flow equations and a one-dimensional superconductor equation. The equations of conservation