Title |
Fault Current Limitation Characteristics of the Bi-2212 Bulk Coil for Distribution-class Superconducting Fault Current Limiters |
Authors |
심정욱(Sim, Jung-Wook) ; 이해근(Lee, Hai-Gun) ; 임성우(Yim, Sung-Woo) ; 김혜림(Kim, Hye-Rim) ; 현옥배(Hyun, Ok-Bae) ; 박권배(Park, Kwon-Bae) ; 이방욱(Lee, Bang-Wook) ; 오일성(Oh, Il-Sung) ; 김호민(Kim, Ho-Min) |
Keywords |
superconducting fault current limiter ; SFCL ; Bi-2212 bulk coil ; field-assisted quench ; distribution-class |
Abstract |
We investigated fault current limitation characteristics of the resistive superconducting fault current limiter (SFCL) which consisted of a Bi-2212 bulk coil and a shunt coil. The Bi-2212 bulk coil and the shunt coil were connected in parallel. The Bi-2212 bulk coil was placed inside the shunt coil to induce field-assisted quench. The fault test was conducted at an input voltage of 200V_{rms} and fault current of 12kA_{rms} and 25kA_{rms}. The fault conditions were asymmetric and symmetric, and the fault period was 5 cycles. The test results show that the SFCL successfully limited the fault current of 12kA_{rms} and 25kA_{rms} to below 5.5~6.9kA_{peak} within 0.64~2.17 msec after the fault occurred. Limitation was faster under symmetric fault test condition due to the larger change rate of current. We concluded that the speed of fault current limitation was determined by the speed of current rise rather than the amplitude of a short circuit current. These results show that the Bi-2212 bulk coil is suitable for distribution-class SFCLS. |