Ключевые слова: LTS, NbTi, normal zone propagation, stability, experimental results
Thieme C., Kodenkandath T., Siegal E., Rupich M., Paranthaman M., Sathyamurthy S., Selvamanickam V., Sauers I., Tuncer E., List F., Duckworth R., Demko J., Rey C., Bhuyian S., Ellis A., James R., Mallette M., Verebelyi C.T., Xie V.S.
Ключевые слова: HTS, YBCO, coated conductors, precursors, screen printing, fabrication, RABITS process, coated conductors multifilamentary, ac losses, stabilizing layers, stability, dielectrics, quench, normal zone propagation, breakdown characteristics, nanoparticles, coils solenoidal, plans, operational performance, presentation, power equipment
Ключевые слова: patents, power reactive, grid operation, stability, power compensator, power equipment
Ключевые слова: HTS, YBCO, critical current, critical caracteristics, nanodots, MOD process, thickness dependence, Jc/B curves, angular dependence, coils, coated conductors, design parameters, mechanical properties, stability, stabilizing layers, coated conductors multifilamentary, inkjet printing, YBCO, presentation, experimental results, power equipment
Ключевые слова: presentation, HTS, YBCO, coated conductors, ac losses, stability, dielectric properties, quench protection, critical current density, critical current, critical caracteristics, quench propagation, coils, time evolution, coated conductors multifilamentary, stabilizing layers, breakdown characteristics, insulation, experimental results, power equipment
Jo W.(wmjo@ewha.ac.kr)
Lehtonen J., Mikkonen R., Masti M., Rostila L.(lauri.rostila@tut.fi)
Ключевые слова: MgB2, tapes, coils, stability, quench, modeling, numerical analysis, power equipment
Shikov A.K., Akimov I.I., Keilin V.E., Kovalev I.A., Medvedev M.I., Alekseev P.A., Kruglov S.L., Lazukov V.N., Sadikov I.P., Kostrov E.A., Shutova D.I.
Ключевые слова: LTS, NbTi, doping effect, specific heat, wires multifilamentary, stability, experimental results, insulating medium
Bottura L., Breschi M.(marco.breschi@mail.ing.unibo.it), Coccoli M., Granieri P.P., Calvi M.
Ключевые слова: LTS, Rutherford cables, quench propagation, quench energy, stability, modeling, numerical analysis, power equipment
Glowacki B.A.(bag10@cam.ac.uk), Majoros M., Kitaguchi H., Kumakura H., Okada M., Tanaka K., Yamada H., Hirakawa M*4., Hancock M.H., Bay N.
Nitta T., Shiotsu M., Shirai Y.(shirai@energy.kyoto-u.ac.jp), Baba J., Morimoto T., Furushiba K., Fushiki K.
Ключевые слова: FCL inductive, FCL three-phase, model small-scale, loads, generators, comparison, stability, experimental results, power equipment
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