Numerical analysis of thermal stability of an immersion-cooled, pancake type superconducting coil

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

Thermal stability of a conduction-cooled Bi-2223/Ag pancake coil has been investigated by means of a time dependent numerical analysis. The coil is cooled by a cryocooler through a cooling plate. This study focused on the temperature profile in the coil and the thermal runaway current. It is suggest

Thermal disturbance and quench propagation have been visualized by utilizing attenuation of the luminous energy of reflected light from the interface of conductor surface and liquid helium. The results of optical measurement with a high-speed video system were in very close agreement with the measur