Title :
Quench protection of superconducting transformers
Author :
Iwakuma, M. ; Funaki, K. ; Takeo, M. ; Yamafuji, K.
Author_Institution :
Fac. of Eng., Kyushu Univ., Fukuoka, Japan
fDate :
3/1/1991 12:00:00 AM
Abstract :
Protection of superconducting transformers from the quench caused by excess fault current was studied theoretically with the aid of a simple equivalent circuit model which was composed of leakage inductance and resistances of the conductor. The authors distinguished the resistance in the flux-flow state from that in the normal state, and basic parameters of the transformer, such as sizes, leakage inductance, and conductor length, were determined as functions of one-turn voltage. The quench process after the short-circuit was numerically analyzed by this circuit equation with the aid of the heat-balance equation. The maximum temperature rise of the conductor until interruption of the power line was found to increase monotonically with the one-turn voltage, but the minimum is around several percent of the copper ratio in the conductor. To suppress the temperature rise, therefore, the one-turn voltage should be limited to smaller values than in conventional transformers, even if the copper ratio is optimized for the rated capacity and voltage
Keywords :
equivalent circuits; flux flow; power transformers; superconducting magnets; conductor length; copper ratio; equivalent circuit model; excess fault current; flux-flow state; heat-balance equation; leakage inductance; maximum temperature rise; one-turn voltage; quench; resistances; sizes; superconducting transformers; Circuit analysis; Conductors; Copper; Equations; Equivalent circuits; Fault currents; Inductance; Protection; Temperature; Transformers;
Journal_Title :
Magnetics, IEEE Transactions on
