Title :
Fault current tests of a 5-m HTS cable
Author :
Lue, J.W. ; Barber, G.C. ; Demko, J.A. ; Gouge, M.J. ; Stovall, J.P. ; Hughey, R.L. ; Sinha, U.K.
Author_Institution :
Oak Ridge Nat. Lab., TN, USA
fDate :
3/1/2001 12:00:00 AM
Abstract :
The first industrial demonstration of a three-phase, HTS power transmission cable at the Southwire manufacturing complex is in progress. One crucial issue during operation of the 30-m HTS cables is whether they can survive the fault current (which can be over an order of magnitude higher than the operating current) in the event of a short circuit fault and how HTS cables and the cryogenic system would respond. Simulated fault-current tests were performed at ORNL on a 5-m cable. This single-phase cable was constructed in the same way as the 30-m cables and is also rated for 1250 A at 7.2 kV AC line-to-ground voltage. Tests were performed with fault-current pulses of up to 15 kA (for 0.5 s) with pulse lengths of up to 5 s (at 6.8 kA). Although a large voltage drop was produced across the HTS cable during the fault-current pulse, no significant changes in the coolant temperature, pressure, or joint resistance were observed. The cable survived all 15 simulated fault-current shots without any degradation in its V-I characteristics
Keywords :
fault currents; high-temperature superconductors; power cable testing; power transmission faults; power transmission lines; superconducting cables; 0.5 s; 1250 A; 30 m; 5 m; 5 s; 6.8 kA; 7.2 kV; HTSC power cable; V-I characteristics; cryogenic system; fault current tests; line-to-ground voltage; short circuit fault; three-phase HTSC power transmission cable; Circuit faults; Circuit testing; Cryogenics; Fault currents; High temperature superconductors; Manufacturing industries; Performance evaluation; Power transmission; Superconducting cables; Voltage;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
