Title :
Quench Distribution During an Overcurrent Fault Condition in Highly Homogeneous REBCO Coated Conductor
Author :
Hidaka, Hideto ; Kurihara, Chihaya ; Daibo, M. ; Iijima, Y. ; Itoh, M. ; Saitoh, Takashi
Author_Institution :
Fujikura Ltd., Sakura, Japan
Abstract :
One of the most important factor for resistive-type fault current limiters is uniform voltage distribution under fault condition. Homogeneous distribution of Ic and resistance of nonsuperconducting state in the longitudinal direction are essential for uniform quenching. Recently, we have succeeded in manufacturing the highly homogeneous superconducting RE BCO coated conductor. In this paper, we report the voltage distribution in our coated conductor under fault condition, at 50 Hz for a half cycle. The experimental results show that applied voltage, which is necessary to quench over the entire length of sample, depends on Ic and normal state resistance on Tc.
Keywords :
conductors (electric); electric resistance; quenching (thermal); superconducting fault current limiters; voltage distribution; homogeneous REBCO coated conductor; longitudinal direction; nonsuperconducting state; overcurrent fault condition; quench distribution; resistive-type fault current limiters; uniform voltage distribution; Conductors; Resistance; Superconducting integrated circuits; Time factors; Voltage measurement; Yttrium barium copper oxide; Fault current limiters; high temperature superconductors; superconducting devices; superconducting thin films;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2275752
