On the cooling of forced flow cable conductors for superconducting magnets

A review of the engineering considerations for the application of forced flow He II is presented. Issues discussed include: steady state and transient heat transfer up to the highly transient thermal shock regime; pressure drop and circulation methods. The survey of the He II heat transfer processes

A cold box, which does not have temperature expanders, designed for a forced cooling system is described. The cold box can be used to main rain superconducting magnets at 4.5 -+ 5 K for a Iong period of time. Tests on the cold box have shown that the mass flow rate of forced cooling flow is 6 + -10

The forced flow superconducting coil especially made from a cable-in-conduit conductor (CICC) is applied for large-scale devices such as fusion magnets because it has high mechanical and electrical performance potential. It has merits for application for pulsed operation coils such as fusion magnets

The discharge of stored magnetic energy of sc magnets in the GJ range requires discharge powers up to several hundreds of MW. The present state-of-the-art of sc high current cables in the 50 kA range leads to voltages of several tens of kV. Forced flow cooled conductors allow a rigid winding constru