Gomory F., Bruzek C.E., Allais A., Magnusson N., Angeli G., Creusot C., Bouvier G., Candido J., Gammelsaeter M., Garofalo E., Hodge E.*10, Hole S.*11, Marian A.*12, Morandi A.*13, Reiser W.*14, West B.*15
Ключевые слова: Europe, power equipment, cables, cryogenic systems, HTS, REBCO, tapes, nitrogen liquid , MgB2, wires, hydrogen liquid, dc performance, FCL resistive, design
Ключевые слова: presentation, hydrogen liquid, heat transfer, power equipment, plans, cryogenic systems, cooling technology, rotating, cryostat
Kovac P., Gomory F., Bruzek C.E., Lallouet N., Morandi A., Tropeano M., Spina T., Marian A., Hole S., Reiser W., Melaccio U., Iannaccone T., Roudaut J., Magnusson N.*10
Ключевые слова: power equipment, power distribution system, MgB2, wires, cables, design parameters, dc performance, hybrid systems, hydrogen liquid, test results
Ключевые слова: presentation, Japan, cryogenic systems, high field magnets, NMR magnet, hydrogen liquid, MgB2, wires, ac performance, motors, hydrogen pump, generators, review
Ключевые слова: power equipment, SMES, review, cryogenic systems, hydrogen liquid, coils toroidal, coils D-shaped, design, HTS, REBCO, tapes, magnets, design parameters, ac losses, modeling, numerical analysis, 6.3.3.211.7.178
Ключевые слова: presentation, aviation application, propulsion system, cryogenic systems, HTS, hydrogen liquid, cables
Ключевые слова: presentation, aviation application, rotating machines, propulsion system, HTS, coils, GdBCO, bulk, rotors, cryogenic systems, hydrogen liquid, prototype, fabrication
Ключевые слова: space application, cryogenic systems, fuel, propulsion system, oxygen liquid, hydrogen liquid, liquid natural gas, hybrid systems, cryocoolers, design
Shintomi T., Takao T., Hirano N., Hamajima T., Yagai T., Makida Y., Komagome T., Onji T., Inomata R.
Iwamoto A., Tsuda M., Shirai Y., Shiotsu M., Yagai T., Kobayashi H., Ohya M., Imagawa S., Matsumoto G., Hamaguchi S., Nagasaki Y., Maeda Y., Kawasaki R., Matsumoto F., Oya H.
Ключевые слова: HTS, Bi2223, tapes, coils, design parameters, fabrication, cooling technology, hydrogen liquid, thermal runaway, overcurrent, test results
Eisterer M., Sokolovsky V., Werfel F.N., Moshchil V.E., Sverdun V.B., Prikhna T., Buchner B., Karpets M.V., Lindackers D., Ponomaryov S.S., Kluge R., Bodenseher A., Filzmoser J., Flogel–Delor U., Vakaliuk A.
Ключевые слова: MgB2, doping effect, hot pressing, Jc/B curves, bulk, cylinders, trapped field, temperature dependence, cryogenic systems, hydrogen liquid, microstructure, YBCO, comparison
Amemiya N., Jiang Z., Weijers H.W., Jeong S., Badcock R.A., Hamilton K.A., Storey J.G., Caughley A., Lumsden G., Singamneni S., Thrimawithana D.J., Gschwendtner M., Heffernan B., Lapthorne A., Oliver R.
Ключевые слова: aviation application, rotating machines, propulsion system, environmental impact, carbon, HTS, CORC cables, rotors, REBCO, coils, generators, ac performance, quench protection, cryogenic systems, rotating, cryocoolers, heat exchanger, liquid natural gas, hydrogen liquid, stators, MgB2, cryogenic materials, electronics
Ключевые слова: aviation application, propulsion system, rotating machines, motors, cryogenic systems, rotors, REBCO, helium gas, stators, MgB2, hydrogen liquid, design, design parameters, modeling, numerical analysis
Ключевые слова: power equipment, grid operation, dc performance, hybrid systems, hydrogen energy, SMES, modeling, control systems
Ключевые слова: LTS, HTS, REBCO, coated conductors, MgB2, insulating medium, review, large-scale applications, aviation application, cryogenic systems, hydrogen
Kikuchi A., Shintomi T., Nishijima G., Takao T., Hirano N., Hamajima T., Matsumoto A., Yagai T., Takahashi M., Makida Y., Komagome T., Onji T., Inomata R.
Ключевые слова: SMES, MgB2, wires round, design parameters, Rutherford cables, cryogenic systems, hydrogen liquid, helium liquid, cooling technology, mechanical properties, strain effects, measurement setup, voltage waveforms, critical current, quench, heater, normal zone propagation, stability, test results
Matsunaga K., Matsumoto K., Takeya H., Kamiya K., Numazawa T., Masuyama S., Shirai T., Takada S., Saito A.T., Iida T., Kumazawa N., Futatsuka K.
Ключевые слова: refrigerator, hydrogen liquid, fabrication, coils solenoidal, LTS, NbTi, wires
Bellur K., Medici E.F., Hermanson J.C., Choi C.K., Allen J.S., Hussey D.S., Jacobson D.L., LaManna J., Leao J.B., Scherschligt J.
Ключевые слова: HTS, coils, cooling technology, cryogenic systems, refrigerator, helium, hydrogen, heat loads, modeling, numerical analysis
Iwamoto A., Tsuda M., Shirai Y., Shiotsu M., Yagai T., Kobayashi H., Imagawa S., Hamaguchi S., Nagasaki Y., Kawasaki R., Ohya H., Matsumoto F.
Ключевые слова: HTS, DI-Bi2223, tapes, critical caracteristics, critical current, magnetic field dependence, magnets, coils pancake, design, design parameters, fabrication, test results, cooling technology, nitrogen liquid , hydrogen liquid, thermal runaway, cryostability, current-voltage characteristics, heat generation
Ключевые слова: shipboard applications, hydrogen liquid, propulsion system, motors, MgB2, economic analysis
Ключевые слова: insulating medium, cryogenic materials, cooling technology, hydrogen liquid, space application
Ключевые слова: aviation application, cryogenic systems, hydrogen liquid, propulsion system, power electronics, motors, modeling, numerical analysis
Ключевые слова: aviation application, fuel, hydrogen liquid, liquid natural gas, HTS, thermal properties, comparison, boiling, pressure dependence, thermal loads, generators, motors, cables, review
Ключевые слова: magnetic systems, hydrogen, fabrication, fusion, power plants, cryogenic materials, hydrogen liquid, Tokamak
Ключевые слова: HTS, GdBCO, films, ion irradiation, helium, hydrogen, irradiation effects, defects, critical state model, critical current, homogeneity, numerical analysis
Ключевые слова: refrigerator, cooling technology, hydrogen liquid
Ключевые слова: cryogenic systems, cryogen transfer line, hydrogen liquid, cooling technology, modeling, numerical analysis
Ключевые слова: cooling technology, cryogenic systems, helium liquid, hydrogen, neon, nitrogen liquid , oxygen, specific heat, cryogenic materials
Shirai Y., Shiotsu M., Tanaka T., Kobayashi H., Hara S., Naruo Y., Inatani Y., Nonaka S., Yoshinaga S., Matsumoto T., Iwami Y., Ishii M., Kawasaki R.
Ключевые слова: rotating machines, HTS, generators, rotors, cryogenic systems, cooling technology, hydrogen liquid, test results, safety, rotational speed
Ключевые слова: power equipment, power transmission lines, cables, hybrid systems, hydrogen liquid, cryogenic systems, MgB2, numerical analysis
Grundmann J., Frank M., Kuhn L., Wilke M., Hasselt P.v., Filipenko M., Gleixner T., Thummet M., Lessmann M., Moller D., Bohm M., Schroter A., Hase K., Richter J., Herranz-Garcia M., Weidermann C., Spangolo A., Klopzig M.
Ключевые слова: aviation application, hybrid systems, propulsion system, HTS, coated conductors, generators, design, design parameters, review, weight, hydrogen liquid, flux density, distribution, torque, ac losses, electrical conductivity, temperature distribution, coils racetrack, mechanical properties, stress effects, strain effects, stators, heat transfer, pressure drop
Ключевые слова: aviation application, propulsion system, cooling technology, hydrogen liquid, rotating machines, motors, HTS, coils, design, modeling
Tanaka H., Shirai Y., Shiotsu M., Kobayashi H., Suzuki T., Hara S., Naruo Y., Inatani Y., Nonaka S., Kodama M., Matsumoto T., Iwami Y.
Ключевые слова: cryogenic systems, hydrogen liquid, cooling technology, cryocoolers, refrigerator
Ключевые слова: rotating machines, motors, measurement setup, cryogenic systems, cryostat, hydrogen liquid, design, test results
Ключевые слова: hydrogen liquid, fuel, fabrication, calorimetric method, permanent magnets, refrigerator, modeling
Shintomi T., Takao T., Tomita M., Tsukada K., Hirano N., Miyagi D., Tsuda M., Hamajima T., Yagai T., Makida Y., Arai Y., Ishihara A., Komagome T., Onji T., Hira M.
Ключевые слова: MgB2, strands, design parameters, Rutherford cables, coils wind-and-react, coils, react-and-wind technique, cryogenic systems, hydrogen liquid, SMES, mechanical properties, strain effects, twisting, experimental results, critical caracteristics, critical current, magnetic field dependence
Ключевые слова: refrigerator, nitrogen liquid , hydrogen liquid, cryogenic materials, measurement setup, calorimetric method
Ключевые слова: fabrication, PIT process, LTS, Nb3Sn, MgB2, HTS, Bi2212, cryogenic systems, hydrogen liquid, microstructure, critical caracteristics, critical current, flux density, Jc/B curves, experimental results
Tanaka H., Shirai Y., Shiotsu M., Kobayashi H., Suzuki T., Naruo Y., Inatani Y., Nonaka S., Kodama M., Matsumoto T., Fujita K., Iwami Y.
Tanaka H., Shirai Y., Shiotsu M., Kobayashi H., Suzuki T., Naruo Y., Inatani Y., Nonaka S., Kodama M., Matsumoto T.
Ключевые слова: presentation, HTS, REBCO, YBCO, coated conductors, stacked blocks, flux density, width, trapped field distribution, magnetization, demagnetization, trapped field magnets, wind farms application, generators, aviation application, hydrogen liquid, fuel, pulsed magnetization, shields, rotating machines, rotors, ac losses, ferromagnetic coating
Ключевые слова: hydrogen liquid, hydrogen energy, rotating machines, fuel
Ключевые слова: critical temperature, HTS, high pressure processing, interfaces, nanoscaled effects, hydrogen, H2S, modeling, numerical analysis
Ключевые слова: aviation application, propulsion system, hydrogen, fuel, rotating machines, motors, generators, modeling
Ключевые слова: hydrogen liquid, hydrogen liquid, liquid natural gas, phase composition, interfaces, thermal performance, modeling, heat transfer
Sato M., Matsuoka T., Yamamoto K., Kinoshita K., Nakano A., Shimazaki T., Sekiya M., Shiozawa H., Aoyagi A., Ohtsuka K., Iwakiri T., Mikami Z., Takayama Y.
Ключевые слова: sensors, temperature dependence, hydrogen liquid, experimental results, measurement technique
Ключевые слова: coils, power supply, hydrogen, fuel, modeling, numerical analysis
Ключевые слова: rotating machines, generators, modeling, transient performance, cryogenic systems, hydrogen liquid, stability, modeling, numerical analysis
Ключевые слова: HTS, YBCO, bulk, oxygen release, hydrogen, doping effect, Raman spectroscopy, lattice parameter, X-ray diffraction, phase transition, experimental results
Ключевые слова: fusion magnets, high field magnets, forced flow, cooling technology, hydrogen, helium, neon, heat transfer, coils toroidal, HTS, REBCO, cables, current sharing, heat capacity, pressure drop, modeling, numerical analysis
Ключевые слова: HTS, YBCO, hydrogen, doping effect, fabrication, X-ray diffraction, oxygen, comparison, lattice parameter, susceptibility, experimental results
Ключевые слова: renewable energy systems, SMES, hydrogen liquid, power equipment, grid operation, modeling, coils, design, power, fluctuations, frequency dependence, numerical analysis, new
Ключевые слова: rotating machines, motors, coils racetrack, cooling technology, hydrogen liquid, nitrogen liquid , ac losses, numerical analysis
Ключевые слова: level sensor, oscillation, hydrogen liquid, MgB2, wires, measurement setup, experimental results, dynamic operation
Ключевые слова: hydrogen, fuel, aviation application, helium gas, jacket, fabrication, test results, modeling, temperature distribution
Ключевые слова: hydrogen liquid, refrigerator, pressure effect, control systems, temperature distribution, cryostat, cryostability, cryogenic systems
Shirai Y., Shiotsu M., Kobayashi H., Tatsumoto H., Naruo Y., Inatani Y., Nonaka S., Shigeta H., Kainuma T., Yoshinaga S.
Ключевые слова: cryogenic systems, hydrogen liquid, forced flow conductor, heat transfer, operational performance, test results, cables
Ключевые слова: photocatalyst, MgB2, bulk, hydrogen, fabrication, experimental results
Ключевые слова: MgB2, wires, coils solenoidal, SMES, hybrid systems, hydrogen liquid, design, test results, model small-scale
Ключевые слова: HTS, MgB2, magnets, cooling technology, cryocoolers, thermosyphon, hydrogen, helium, comparison, loop
Ключевые слова: hydrogen liquid, level sensor, experimental results, cryogenic systems, cryostat, resonance effects
Ключевые слова: cryogenic systems, switches, helium gas, nitrogen gas, hydrogen, thermal conductivity, operational performance
Shintomi T., Takao T., Hirano N., Miyagi D., Tsuda M., Sato Y., Hamajima T., Yagai T., Makida Y., Zhang Z., Komagome T., Iwaki K., Tsujigami H., Fujikawa S., Miyajima R., Hanada K.
Ключевые слова: power equipment, fluctuations, SMES, HTS, Bi2223, coils, thermosyphon, hydrogen liquid, generators, voltage waveforms, temperature rise
Ключевые слова: SMES, vehicle applications, hydrogen liquid, cryogenic systems, hybrid systems, modeling, coils toroidal, HTS, DI-Bi2223/Ag, tapes, design parameters, flux density, distribution
Ключевые слова: HTS, cryogenic systems, presentation, air liquid, nitrogen liquid , neon, helium, hydrogen, oxygen, comparison, cryocoolers, status, tables, efficiency, temperature dependence, power, MRI magnets, rotating machines, power equipment, electronics
Vysotsky V.S., Svalov G.G., Fetisov S.S., Nosov A.A., Firsov V.P., Antyukhov I.V., Blagov E.V., Kostyuk V.V., Katorgin B.I., Zanegin S.Y., Rachuk V.S.
Ключевые слова: MgB2, cables, hydrogen liquid, cryogenic systems, design, power transfer, cryostat, thermal-hydraulics, insulating medium, current leads, experimental results
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