Title :
Quench Test of HTS Coils for Generator Application at GE
Author :
Li, L. ; Zhang, R. ; Wang, W. ; Alexander, J. ; Huang, X. ; Sivasubramaniam, K. ; Laskaris, E.T. ; Bray, J.W. ; Fogarty, J.M.
Author_Institution :
Gen. Electr. Global Res. Center, Niskayuna
fDate :
6/1/2007 12:00:00 AM
Abstract :
When a synchronous generator connected to the power grid experiences a fault, it is required to stay on line, ride through the fault, and be able to carry full rated field current when the fault is cleared. The peak current during these events could be 2 times higher than the normal operating current. This may cause an HTS rotor coil to go into normal state and generate Joule heating. If the fault event is short enough and the heat dumped can be carried away by the cooling system, the coil may recover to the superconducting state at the end of the fault. Otherwise, the coil may thermally run away, or dasiaquenchpsila. To investigate the quench behavior of the HTS rotor coil of the 100 MVA generator at GE Global Research Center, a 1.5 MVA prototype coil was developed and tested to quench under different conditions. The experiment design, set up, tests and test results are presented in this paper.
Keywords :
high-temperature superconductors; rotors; superconducting coils; synchronous generators; GE Global Research Center; HTS rotor coil; Joule heating; cooling system; generator application; high temperature superconductors; normal operating current; power grid fault; quench test; superconducting state; synchronous generator; Heat recovery; Heating; High temperature superconductors; Mesh generation; Power generation; Power grids; Rotors; Superconducting coils; Synchronous generators; Testing; High temperature superconductor; over current; quench; superconducting generators;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2007.899688
