TESTING OF A PROTOTYPE HIGH-TEMPERATURE SUPERCONDUCTING CURRENT LEAD

被引:2
作者
WU, JL
机构
[1] Westinghouse Science & Technology Center, Pittsburgh, PA
来源
IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY | 1995年 / 5卷 / 02期
关键词
D O I
10.1109/77.402663
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A prototype helium vapor-cooled current lead employing a ceramic high temperature superconductor was designed and tested recently, The lead which has a nominal current rating of 1 kA consists of a copper and a ceramic superconductor sections and was designed for operation in 300 K/4.2 K temperature range, A single monolithic bismuth-based superconductor (BSCCO-2212) was used in the superconductor section. Extensive testing of the current lead was carried out to determine its performance such as steady-state boil-off rates at various operating currents, transient characteristics of the lead under zero-flow condition, and the effects of repetitive current cycling. At 1000 A operating current, the lead was found to require a steady-state helium vapor cooling flow rate equivalent to a liquid helium boil-off rate of 0.98 1/hr, an over 40% reduction from the conventional all copper lead. Cut-off of helium vapor flow for 230 seconds poses no overheating problem and no performance degradation was observed after 1000 cycles of repetitive current cycling between 0 and 1000 A. A very low contact joint resistance, 17n Omega for carrying 1000 A, was also observed at the 4.2 K lend terminal.
引用
收藏
页码:777 / 781
页数:5
相关论文
共 12 条
[1]  
Hull J.R., High temperature superconducting current leads, IEEE Trans. Appl., 3, 1, pp. 864-880, (1993)
[2]  
Wu J.L., Dederer J.T., Eckels P.W., Singh S.K., Hull J.R., Poeppel R.B., Youngdahl C.A., Singh J.P., Lanagan M.T., Balachandran J., Design and testing of a high temperature superconducting current lead, IEEE Trans. Mag., 27, 2, pp. 1861-1865, (1991)
[3]  
Wu J.L., Dederer J.T., Singh S.K., Development of a multiple HTS current lead assembly for corrector magnets application, 5th IISSC, (1993)
[4]  
Ueda K., Takita K., Uede T., Mimura M., Kinoshita T., Tanaka Y., Design study and model tests of high Tcsuperconductor current leads, 5th IISSC, (1993)
[5]  
Ueda K., Bokno T., Takita K., Mukae K., Uede T., Itok I., Mimura M., Uno U., Tanaka T., Design and testing of a pair of current leads using bismuth compound superconductor, IEEE Trans. Appl. Super-conductivity, 3, 1, pp. 400-403, (1993)
[6]  
Tasaki K., Ito D., Ogiwara H., Numata K., Hane A., Hoshino K., Development of oxide superconducting current lead, ASC, Chicago, IL, (1992)
[7]  
Yamada Y., Sakuraba J., Hasege T., Hata F., Chong C.K., Ishihara M., Watanabe K., High Tcoxide current lead and superconducting magnet using no liquid helium, CEC/ICMC, (1993)
[8]  
Hermann P.F., Beghin E., Bottini G., Cottevieille C., Leriche A., Verhaese T., Bock J., Test result of a 1 kA (2 kA) • 20 kV HTSC current lead model, MT-13, (1993)
[9]  
Niemann R.C., Cha Y.S., Hull J.R., Buckles W.E., Daughtry M.A., Weber B.R., High temperature superconducting current leads for micro-SMES application, MT-13, (1993)
[10]  
Herd K.G., Dorri B., Laskaris E.T., Tkaczyk J.E., Lay K.W., Grain-aligned YBCO superconducting current leads for conduction-cooled applications, IEEE Trans. Appl. Superconductivity, 2, 1, pp. 1667-1670, (1993)
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