Full featured implementation of quench simulation in superconducting magnets

A model of 3-D thermal process of a normal ,zone propagation during quench in solenoidal superconducting coils with epoxy-impregnated windings is suggested. A mathematical formulation reduces the 3-D problem to a I-D non-linear non-stationary differential -integral -difference heat balance equation

Theory based on the minimum propagating zone (MPZ) criterion overestimates the critical heat of quench in partially stabilized superconducting magnets. The discrepancy is especially important for high values of the Stekly parameter. In this paper the variational principle for the calculation of crit

A computer program for testing coil and protection design of a composed magnet system is presented. Small high field magnets consisting of two uniaxial cylindrical coils of different superconducting materials (eg Nb Ti and V3Ga or Nb3Sn) are considered, each coil may be subdivided into several secti

One of the most important thermofluid processes encountered in internally cooled superconducting magnets is that of quenching. Numerical simulation of the quench propagation involves accurately modelling a moving boundary layer at the quench front. Due to the highly non-linear nature of the quench p

A superconducting (SC) magnetically levitated (Maglev) transportation system has been developed in Japan and various experiments have been done on the new test line in Yamanashi prefecture. Although the superconducting electrodynamic suspension (EDS) system has the advantage of stable levitation wit