Title :
Conceptual Design Study of an Air Coil Fault Current Limiter
Author :
Nackel, Oliver ; Noe, M.
Author_Institution :
Inst. for Tech. Phys., Karlsruher Inst. of Technol., Eggenstein-Leopoldshafen, Germany
Abstract :
The air coil superconducting fault current limiter consists of two major parts: A primary copper winding and a secondary superconducting winding, made of short-circuited (RE)BCO tapes. Both windings are inductively coupled solenoids. The presented design method enables retrofitting existing, conventional shunt reactors with a secondary superconducting winding. The advantage of the retrofit is a low impedance during normal operation. This lowered impedance depends on different parameters, such as the critical current of the used superconducting tape or the distance between the windings. A calculation example shows that the impedance of a conventional shunt reactor can be lowered from 6% to 2.4% during normal operation and remains roughly the same during fault current limiting.
Keywords :
barium compounds; copper; critical currents; high-temperature superconductors; rare earth compounds; superconducting coils; superconducting fault current limiters; superconducting magnets; superconducting tapes; windings; air coil superconducting fault current limiter; critical current; design method; inductively coupled solenoids; primary copper winding; secondary superconducting winding; short-circuited (RE)BCO tapes; shunt reactors; superconducting tape; Impedance; Inductors; Shunts (electrical); Superconducting coils; Superconducting films; Windings; Air coil; conceptual design; superconducting fault current limiter;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2012.2234171
