Title :
Hybrid superconducting fault current limiter based on bulk melt textured YBa/sub 2/Cu/sub 3/O/sub 7/ ceramic composites
Author :
Granados, X. ; Obradors, X. ; Puig, T. ; Mendoza, E. ; Gomis, V. ; Pinol, S. ; Garcia-Tabares, L. ; Calero, J.
Author_Institution :
Inst. de Ciencia de Mater., Univ. Autonoma de Barcelona, Spain
fDate :
6/1/1999 12:00:00 AM
Abstract :
A hybrid fault current limiter (FCL) based on single domain bars of Y123/211 melt textured composites has been designed to operate at a 1 kV/400 A line. This consists of a conventional Cu primary coil inductively coupled to a secondary coil formed by the paralleling of single Cu turns each one shorted by a superconducting bar. The superconducting material has been prepared by the solidification techniques of Bridgman and top seeding in air which has allowed us to obtain bars with transport critical current densities of 20000 A/cm/sup 2/ at 77 K. Preliminary tests on the quench current, recovery time and AC-losses in normal operation have been performed. The differences and advantages of a hybrid FCL in comparison with a resistive and an inductive FCL is discussed.
Keywords :
barium compounds; copper compounds; critical current density (superconductivity); crystal growth from melt; fault current limiters; high-temperature superconductors; melt texturing; solidification; superconducting coils; superconducting devices; yttrium compounds; 1 kV; 400 A; 77 K; AC-losses; Bridgman technique; Cu primary coil; YBa/sub 2/Cu/sub 3/O/sub 7/-Y/sub 2/BaCuO/sub 5/; YBa/sub 2/Cu/sub 3/O/sub 7//Y/sub 2/BaCuO/sub 5/; bulk melt textured YBa/sub 2/Cu/sub 3/O/sub 7/ ceramic composites; hybrid superconducting fault current limiter; inductive fault current limiter; inductively couple coil; melt textured composites; quench current; recovery time; resistive fault current limiter; secondary coil; single domain bars; solidification techniques; superconducting material; top seeding; transport critical current densities; Bars; Ceramics; Copper; Fault current limiters; Fault currents; Protection; Superconducting coils; Superconducting materials; Superconducting transmission lines; Voltage;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
