| Title |
Dependence of External Magnetic Field in the Matrix-Type SFCL with the Separated or the Integrated Reactors |
| Authors |
조용선(Cho, Yong-Sun) ; 최효상(Choi, Hyo-Sang) ; 정병익(Jung, Byoung-Ik) ; 고성필(Go, Sung-Pil) |
| DOI |
https://doi.org/10.5370/KIEE.2011.60.4.880 |
| Keywords |
Critical behavior ; Magnetic field ; Matrix-type SFCL ; Separated and integrated reactors |
| Abstract |
The matrix-type superconducting fault current limiter (MSFCL) consists of the trigger and current-limiting parts. The trigger part with reactors connected in parallel improves the quenching characteristics by applying the external magnetic field into the superconducting units. The current-limiting part with superconducting units connected in parallel and shunt reactors connected in series limit the fault current when the fault occurs. We developed the integrated reactor with the trigger and the current-limiting parts to apply high external magnetic field into the superconducting units. This was composed of a superconducting unit for the trigger part and two superconducting units for the current-limiting parts. We confirmed that the external magnetic field generated in the MSFCL with an integrated reactor was larger than that of the MSFCL with the separated reactors. So the differences of voltages generated between superconducting units were decreased in the difference according to the increment of the applied voltage. The whole magnitude of the SFCL was reduced because the volume of an integrated reactor could be reduced by one-third than that of the separated reactors. We confirmed that the critical behavior between the superconducting units in the MSFCL with an integrated reactor was more improved than that of the MSFCL with the separated reactors. |