Forced flow cooling of ISABELLE dipole 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

During the past 15 years, the Institut f ur Technische Physik of the Forschungszentrum Karlsruhe, Germany, has developed current leads cooled by forced-¯ow supercritical helium in the current range from 20 to 80 kA. The design is based on a separation of the current carrying part and the heat exchan

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 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