초록 ▼

A conductor element for a superconducting FCL has an elongate superconducting element 18 surrounded by bodies 26a, 26b, which form a thermal mass around the element 18. The thermal mass is in thermal connection with a cooling system, such as a cryogenic system. The bodies 26a, 26b are solid, for ex

A conductor element for a superconducting FCL has an elongate superconducting element 18 surrounded by bodies 26a, 26b, which form a thermal mass around the element 18. The thermal mass is in thermal connection with a cooling system, such as a cryogenic system. The bodies 26a, 26b are solid, for example copper. The thermal mass maintains even temperature along the element 18, to improve fault response and recovery. Cooling functions are provided externally of the conductor element and may be by means of conventional cryogenic cooling systems. The element is free of cryogens and robust.

대표청구항 ▼

The invention claimed is: 1. A conductor element for a fault current limiter, comprising: a superconducting element which quenches to a normal conducting state when at least one of the current density and temperature is above a fault value; and a thermal mass in thermal contact with the superconduc

The invention claimed is: 1. A conductor element for a fault current limiter, comprising: a superconducting element which quenches to a normal conducting state when at least one of the current density and temperature is above a fault value; and a thermal mass in thermal contact with the superconducting element to absorb heat from the superconducting element to a sufficient thermal capacity to inhibit a guenching within a derived characteristic thermal distance of the thermal mass from the superconducting element; wherein the thermal mass is provided by at least two bodies in solid form associated with electrical insulation to inhibit continuous electrical conductivity at least longitudinally from one body to another body along the superconducting element through the bodies of the thermal mass; and wherein the conductor element further comprises a connection arrangement for providing, in use, thermal connection between the thermal mass and a cooling system on one side of the thermal mass away from the super conducting element to define a direct thermal path across the thermal mass. 2. An element according to claim 1, wherein the superconducting element is elongate, the body or bodies being located around the element. 3. An element according to claim 1, wherein the thermal mass comprises a plurality of bodies forming a plurality of layers around the superconducting element. 4. An element according to claim 2, wherein the or each layer of the mass comprises a plurality of bodies at respective positions around the element. 5. An element according to claim 2, wherein the or each layer of the mass comprises a plurality of bodies at respective positions along the element. 6. An element according to claim 3, wherein adjacent bodies of the thermal mass are in thermal contact. 7. An element according to claim 3, wherein a body of electrically insulating material is provided between adjacent bodies. 8. An element according to claim 3, wherein an additional body of thermally conducting material is provided in thermal contact with the superconducting element in the vicinity of boundaries between bodies of the thermal mass, to reduce the likelihood of hot spots occurring in the superconducting element at that vicinity. 9. An element according to claim 3, wherein resistors are provided between adjacent bodies to bridge the electrically insulating material. 10. An element according to claim 1, wherein the or at least one of the bodies is of copper. 11. An element according to claim 10, wherein at least one of the bodies is oxygen-free, high conductivity copper. 12. An element according to claim 1, wherein the thermal mass thickness is no more than three times the characteristic thermal distance. 13. An element according to claim 1, wherein the conductor element is arranged in serpentine manner across a surface which, in use, is in thermal contact with the cooling system. 14. An element according to claim 1, further comprising at least one coil connected in parallel with all or part of the superconducting element and coiled around the superconducting element. 15. An element according to claim 14, wherein the or each of the coils may be connected in parallel with a respective part of the length of the superconducting element. 16. A fault current limiter, comprising: 1. connection terminals for connecting the limiter in circuit; 2. a conductor element according to claim 1, connected between the connection terminals; and 3. a cooling system which, in use, cools the thermal mass of the conductor element. 17. A limiter according to claim 16, further comprising a shunt resistance connected in parallel with the conductor element between the terminals and having a resistance lower than the conductor element when the superconducting element of the conductor is quenched.