Title :
Effect of external heat input on stability of conduction cooled HTS coils
Author_Institution :
Gen. Electr. Med. Syst., Florence, SC, USA
fDate :
6/1/2004 12:00:00 AM
Abstract :
Stability crisis develops in conduction cooled magnets (CCM) if the cooling length exceeds a critical value L*, brought by the strong temperature dependence of the index loss. In practical cases, windings are often subject to an additional thermal input (e.g., from joints, suspension etc.) superimposed on the index loss, which reduces stable parametric space and affects the design criteria. Analysis is presented of the effect of external heat on coil stability for the cases of uniform and localized heat sources. Dimensionless limiting criteria are obtained which define the design margin for CCM with an external thermal input; influence of the input location within the coil is analyzed. Minimum quench energies for conduction-cooled windings are determined by numerical modeling. The specifics of quench development from a localized disturbance in CCM are described.
Keywords :
cooling; heat conduction; high-temperature superconductors; superconducting coils; superconducting magnets; thermal stability; windings; coil stability; conduction cooled HTS coils; conduction cooled magnets; conduction crisis; conduction-cooled windings; cooling length; design criteria; design margin; design parameters; external heat input; index loss; localized disturbance; localized heat sources; minimum quench energies; numerical modeling; quench development; stable parametric space; strong temperature dependence; Coils; Conductors; Cooling; Design optimization; High temperature superconductors; Magnetic levitation; Magnets; Stability analysis; Steady-state; Temperature dependence; Conduction cooled HTS windings; conduction crisis; design parameters; index loss; quench; stability;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.830558
