Fundamental performance of flux-lock type fault current limiter with two air-core coils

Matsumura, T., Kimura, A., Shimizu, H., Yokomizu, Y., Goto, M.

06 1900

No description available.

Bi2223 bulk

fault current limiter

flux-lock

magnetic field

A study on required volume of superconducting element for flux flow resistance type fault current limiter

Shimizu, H., Yokomizu, Y., Goto, M., Matsumura, T., Murayama, N.

06 1900

No description available.

Critical current

element volume

fault current limiter

flux flow resistance

Current Limiting Characteristics of Parallel-Connected Coated Conductors for High-Tc Superconducting Fault Current Limiting Transformer (HTc-SFCLT)

Omura, Koki, Kojima, Hiroki, Hayakawa, Naoki, Endo, Fumihiro, Noe, Mathias, Okubo, Hitoshi

06 1900

No description available.

Superconducting fault current limiter

YBCO coated conductor

superconducting transformer

Development of high temperature superconducting fault current limiting transformer (HT/sub c/-SFCLT) with Bi2212 bulk coil

Kurupakorn, C., Hayakawa, N., Kashima, N., Nagaya, S., Noe, M., Juengst, K.-P., Okubo, H.

06 1900

No description available.

MCP-BSCCO2212

recovery

superconducting fault current limiter

superconducting transformer

Recovery characteristics after current limitation of high temperature superconducting fault current limiting transformer (HTc-SFCLT)

Kurupakorn, C., Kojima, H., Hayakawa, N., Goto, M., Kashima, N., Nagaya, S., Noe, M., Juengst, K.-P., Okubo, H.

06 1900

No description available.

MCP-BSCCO2212

recovery

superconducting

fault current limiter

superconducting transformer

High-Tc Superconducting Fault Current Limiting Transformer ( HTc-SFCLT ) With 2G Coated Conductors

Okubo, H., Kurupakorn, C., Ito, S., Kojima, H., Hayakawa, N., Endo, F., Noe, M.

January 2007

No description available.

Superconducting fault current limiter

superconducting transformer

2G coated conductor

High Temperature Superconducting Partial Core Transformer and Fault Current Limiter

Sham,Jit Kumar

January 2015

The thesis begins with an introduction to transformer theory. The partial core transformer is then introduced and compared with a full core design. A brief introduction to superconductors and high temperature superconductors is then presented. High temperature superconducting fault current limiters are then examined and the advantage of a high temperature superconducting partial core transformer and fault current limiter as a single unit is highlighted. The reverse design model is discussed followed by the model parameters that are used in designing the high temperature superconducting partial core transformer. Partial core transformers with copper windings and high temperature superconductor windings at the University of Canterbury were then tested and the measured results compared with the results calculated from the reverse design model, to validate the model. The high temperature superconducting partial core transformer failed during an endurance run and the investigation of the failure is then presented. The results of the failure investigation prompted an alternative winding insulation design. A model to calculate the time at which the high temperature superconducting winding of the partial core transformer would melt at different currents was then built. The time was calculated to be used in the operation of the quench detection mechanism and it could also be used in choosing a circuit breaker with a known operating time. The design of the high temperature superconducting partial core transformer and fault current limiter is then presented. Design configurations with different core length and winding length are examined. The idea behind choosing the final design for the high temperature superconducting partial core transformer and fault current limiter is then discussed. The final design of the high temperature superconducting partial core transformer and fault current limiter is then presented. A new 7.5 kVA, 230-248 V high temperature superconducting partial core transformer and fault current limiter was designed, built and tested. The windings are layer wound with first generation Bi2223 high temperature superconductor. A series of electrical tests were performed on the new device including open circuit, short circuit, resistive load, overload and fault ride through. These tests were performed to determine the operational characteristics of the new high temperature superconducting partial core transformer and fault current limiter. The measured results from the tests were compared with the calculated results. The fault ride through test results were then compared to a 15 kVA high temperature superconducting partial core transformer that was designed and built at the University of Canterbury. Since the resistive component of the silver matrix in Bi2223 high temperature superconductor plays a very little role in controlling the fault current, the current limited by the leakage reactance is compared between the two devices. The high temperature superconducting partial core transformer and fault current limiter was found to be 99.1% efficient at rated power with 5.7% regulation and fault current limiting ability of 500 % over the 15 kVA high temperature superconductor partial core transformer from University of Canterbury.

Analysis of Current Limiting and Recovery Characteristics of Superconducting Fault Current Limiting Transformer (SFCLT) with YBCO Coated Conductors

Okubo, H., Hanai, M., Kojima, H., Kito, T., Hayakawa, N.

06 1900

No description available.

YBCO coated conductor

superconducting transformer

superconducting fault current limiter

Current limitation and recovery function for superconducting fault current limiting transformer (SFCLT)

Okubo, Hitoshi, Hanai, Masahiro, Hayakawa, Naoki, Kojima, Hiroki, Himbele, John

09 1900

Superconductivity Centennial Conference 2011- EUCAS–ISEC–ICMC (18-23 Sep 2011, The Hague, The Netherlands)

optimization

recovery

current limitation

superconducting fault current limiter

superconducting transformer

Feasibility Study on a High-Temperature Superconducting Fault-Current-Limiting Cable (SFCLC) Using Flux-Flow Resistance

Okubo, Hitoshi, Hanai, Masahiro, Hayakawa, Naoki, Kato, Fumihiko, Kojima, Hiroki

04 1900

No description available.

power transmission cable

flux flow

fault current limiter