Wang L., Green M.A., Guo X.L., Virostek S.P., Pan H., Cao Y., Sun S., Li D.R., Demello A., Yin L.X.* 1
Ключевые слова: coils toroidal, Tokamak, LTS, NbTi, strands, cables, jacketing, fabrication, high field magnets
Xiao L., Lin L., Xu X., Wang Z., Zhu Z., Dai S., Guo W., Gao Z., Zhang J., Zhang D., ZHANG F., Song N., Zhang Z., Qiu Q.
Ключевые слова: SMES, power equipment, HTS, coils pancake, helium liquid, conduction cooled systems, test long-term operation, design parameters, Bi2223, fabrication
Ключевые слова: SMES, power equipment, HTS, hybrid systems, YBCO, Bi2223, coated conductors, tapes, fluctuations, modeling, critical caracteristics, critical current, angular dependence, coils pancake, dynamic operation
Tixador P., Chaud X., Semperger S., Nguyen N.T., Debray F., Trophime C., Lecrevisse T., Rey J.M., Reinbold V., Devaux M., Pes C.
Ключевые слова: SMES, HTS, YBCO, coated conductors, coils solenoidal, mechanical properties, stress effects, coils pancake, experimental results, power equipment
Xiao L., Lin L., Zhu Z., Dai S., Zhang G., Guo W., Gao Z., Zhang J., Song N., Zhang Z., Qiu Q., Ren Q., Guoliu S.
Ключевые слова: SMES, power equipment, fluctuations, test results, control systems, HTS, Bi2223, tapes, coils pancake
Ключевые слова: SMES, coils toroidal, HTS, conduction cooled systems, coils pancake, design, YBCO, coated conductors, design parameters, power equipment
Shintomi T., Takao T., Miyagi D., Hamajima T., Makida Y., Tsuda S., Tanoue N., Ota N., Munakata K., Miwa Y.
Ключевые слова: SMES, hydrogen liquid, renewable energy systems, design, thermosyphon, cooling technology, coils, MgB2, loads, power equipment, new
Shintomi T., Takao T., Miyagi D., Tsuda M., Hamajima T., Iwasaki T., Makida Y., Atomura N., Munakata K., Amata H., Kajiwara M.
Ключевые слова: SMES, vehicle applications, hydrogen liquid, renewable energy systems, control systems, MgB2, coils, fluctuations, power equipment, modeling, new
Jewell M.C., Larbalestier D.C., Devred A., Walsh R.P., Lee P.J., Starch W.L., Sheth M.K., McRae D.M., Sanabria C.M.
Ключевые слова: LTS, coils toroidal, cable-in-conduit conductor, ac losses, stability, numerical analysis, magnetic field density, modeling
Ключевые слова: LTS, cable-in-conduit conductor, stability, magnetic field dependence, pulsed operation, ac losses, coils toroidal, SULTAN, experimental results
Bruzzone P., Stepanov B., Koizumi N., Nunoya Y., Matsui K., Nakajima H., Takahashi Y., Isono T., Hamada K., Hemmi T., Yoshikawa M., Nabara Y., Kajitani H.
Mito T., Yoshida K., Chikaraishi H., Takahata K., Imagawa S., Kizu K., Murakami H., Obana T., Hamaguchi S.
Ключевые слова: LTS, cable-in-conduit conductor, NbTi, coils, current sharing, self-field effect, experimental results
Wesche R., Bruzzone P., Stepanov B., Turtu S., Vostner A., Devred A., Boutboul T., Wu Y., Bessette D., Corato V., Decool P., Lelekhov S.
Ключевые слова: SULTAN, coils poloidal field, test results, cryogenic systems, LTS, NbTi, fabrication, comparison, design parameters, ac losses, minimum quench energy, dc performance, ITER
Ключевые слова: LTS, Nb3Sn, thermal loads, cycling, cable-in-conduit conductor, ITER, SULTAN, coils toroidal, measurement setup, current sharing
Ключевые слова: Tokamak, coils, joints, joint resistances, experimental results, current decay, LTS, Nb3Sn, coils poloidal field, high field magnets
Koizumi N., Nunoya Y., Matsui K., Nakajima H., Takahashi Y., Isono T., Hemmi T., Nabara Y., Hamda K.
Ключевые слова: LTS, Nb3Sn, central coils, coils insert, ITER, cable-in-conduit conductor, strands, electric field, voltage, modeling, facility
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