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Ключевые слова: quench

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Syrovatin V., Tsukanov V., Mezentsev N., Shkaruba V., Tarasenko O., Volkov A., Zorin A., Bragin A., Khrushchev S., Gusev Y., K.Zolotarev

Superconducting 72-pole Indirect Cooling 3Tesla Wiggler for CLIC Damping Ring and ANKA Image Beamline

Ключевые слова: wiggler, damping, cooling technology, LTS, NbTi, Nb3Sn, comparison, prototype, design parameters, cryogenic systems, test results, quench, status, beam lines

Physics Procedia, 2016, v.84, N , p.54-61

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Tamura H., Mito T., Yanagi N., Ito S., Sagara A., Hashizume H., Hamaguchi S., Terazaki Y.

Magnet design with 100-kA HTS STARS conductors for the helical fusion reactor

Ключевые слова: fusion magnets, HTS, coated conductors, stacked blocks, YBCO, design, helical winding, cooling technology, helium gas, quench protection, numerical analysis, cryogenic systems

Cryogenics, 2016, v.80, N 2, p.243-249

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Weelderen R.V., Bozza G., Malecha Z.M.

Development and application of a generic CFD toolkit covering the heat flows in combined solid–liquid systems with emphasis on the thermal design of HiLumi superconducting magnets

Ключевые слова: cryogenic systems, helium superfluid, quench, heat transfer, LHC, luminosity, magnets quadrupole, cooling technology, modeling, numerical analysis, minimum quench energy, temperature distribution

Cryogenics, 2016, v.80, N 3, p.253-264

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Ciazynski D., Duchateau J.L., Lacroix B., Bessette D., Nicollet S., Gauthier F.

ITER Side Correction Coil Quench model and analysis

Ключевые слова: ITER, correction coils, quench, modeling, cable-in-conduit conductor, design parameters, thermal-hydraulics, LTS, NbTi, pressure drop, coils pancake, pressure distributions

Cryogenics, 2016, v.80, N 3, p.305-316

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Ciazynski D., Zani L., Lacroix B., Torre A., Coleman M., Lewandowska M., Nunio F., Vallcorba R., Coz Q.L.

Thermo-hydraulic analyses associated with a CEA design proposal for a DEMO TF conductor

Ключевые слова: DEMO, coils toroidal, thermal-hydraulics, cable-in-conduit conductor, LTS, Nb3Sn, design, design parameters, magnetic field distribution, thermal loads, temperature distribution, quench, numerical analysis

Cryogenics, 2016, v.80, N 3, p.317-324

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Lim S., Lee H., Lee B., Lee J., Khan U.A.

Mitigation of commutation failures in LCC–HVDC systems based on superconducting fault current limiters

Ключевые слова: power equipment, FCL resistive, dc performance, modeling, numerical analysis, fault currents, quench

Physica C, 2016, v.530, N , p.160-163

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Verweij A.P., Auchmann B., Kate H.H., Ravaioli E., Maciejewski M.

Lumped-Element Dynamic Electro-Thermal model of a superconducting magnet

Ключевые слова: quench protection, ac losses, thermal properties, electro-thermal model, numerical analysis, magnets, modeling, coils, dynamic operation

Cryogenics, 2016, v.80, N 3, p.346-356

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Bellina F., Manfreda G.

Analysis of the quench propagation along Nb3Sn Rutherford cables with the THELMA code. Part I: Geometric and thermal models

Ключевые слова: LTS, Nb3Sn, Rutherford cables, quench propagation, modeling, geometry effects, thermal properties

Cryogenics, 2016, v.80, N 3, p.357-363

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Bellina F., Bajas H., Perez J.C., Manfreda G.

Analysis of the quench propagation along Nb3Sn Rutherford cables with the THELMA code. Part II: Model predictions and comparison with experimental results

Ключевые слова: LTS, Nb3Sn, Rutherford cables, quench propagation, coils model, coils pancake, experimental results, modeling, numerical analysis, comparison

Cryogenics, 2016, v.80, N 3, p.364-373

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Zanino R., Heller R., Bonifetto R., Drotziger S., Savoldi L., Brighenti A.

Numerical analysis of propagation of thermal disturbances in brass-stabilized REBCO tapes

Ключевые слова: HTS, REBCO, coated conductors, brass laminate, thermal performance, numerical analysis, quench propagation, YBCO, thermal conductivity, specific heat, resistivity, experimental results, heat losses, modeling, numerical analysis, comparison

Cryogenics, 2016, v.80, N 3, p.390-399

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Gao X., Wang Z., Li G., Liu X., Li J., Qiu L., Ren Y., Du S.

Thermal–hydraulic analysis of the coil test facility for CFETR

Ключевые слова: fusion magnets, thermal-hydraulics, numerical analysis, LTS, coils insert, Nb3Sn, NbTi, cable-in-conduit conductor, design parameters, magnetic field distribution, mechanical properties, strain effects, quench propagation, normal zone propagation, cooling technology, quench protection, facility

SpringerPlus, 2016, v.5, N , p.2052

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Hayashi K., Kato T., Yamaguchi T., Ueno E.

Quench protection of DI-BSCCO coil

Ключевые слова: HTS, DI-Bi2223, coils pancake, quench protection, quench properties, degradation studies, compression, stress effects, mechanical properties, coils racetrack, design parameters, experimental results, presentation

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2015, v.31, N , p.1-26

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Iwasa Y.

High-Field Applications of HTS Tape

Ключевые слова: presentation, HTS, coated conductors, high field magnets, upper critical fields, temperature dependence, critical caracteristics, Jc/B curves, stress distribution, coils solenoidal, numerical analysis, REBCO, winding techniques, tensile tests, strain effects, insulationless, quench protection, design parameters, normal zone propagation, LTS, Nb3Sn, Bi2223, YBCO, helium liquid, economic analysis, cables

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2015, v.31, N , p.1-37

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Devred A., Nijhuis A., Bagni T., Dijkstra M.

Pulsed field stability and AC loss of Nb3Sn CICCs, modeling and experiments

Ключевые слова: presentation, LTS, Nb3Sn, cable-in-conduit conductor, modeling, experimental results, pulsed operation, stability, minimum quench energy, SULTAN, ITER, central coils

Cryogenic Engineering Conference - International Cryogenic Materials Conference CEC-ICMC, 2015, v., N , p.1-14

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Breschi M., Ribani P.L., Casali M.

Two-Dimensional Anisotropic Model of YBCO Coated Conductors

Ключевые слова: HTS, coated conductors, modeling, anisotropy, YBCO, quench, aspect ratios, critical caracteristics, critical current, temperature dependence, critical current density, specific heat, thermal conductivity, resistivity, minimum quench energy, recovery characteristics, normal zone propagation, hot spots, temperature distribution

IEEE Transactions Applied Superconductivity, 2015, v.25, N 1, p.6600112

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Protopopov A.

Simplified Analytical Formulas of Quench Dynamics

Ключевые слова: MRI magnets, numerical analysis, quench properties, dynamic operation

IEEE Transactions Applied Superconductivity, 2015, v.25, N 2, p.4700205

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Grilli F.

Numerical Modelling of HTS Applications

Ключевые слова: presentation, HTS, modeling, numerical analysis, coated conductors, cables, ac losses, Roebel conductors, CORC cables, twisting, stacked blocks, FCL resistive, quench propagation, transformers, high field magnets, rotating machines, bulk, magnetization

European Conference Applied Superconductivity, 2015, v., N , p.1-43

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Stenvall A., Salmi T.

Modeling Quench Protection Heater Delays in an HTS Coil

Ключевые слова: HTS, coils, quench protection, heater, modeling, accelerator magnets, YBCO, coated conductors, thermal properties, cables, critical caracteristics, critical current, temperature dependence, current sharing, high field magnets

IEEE Transactions Applied Superconductivity, 2015, v.25, N 3, p.500205

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Wang Z., Zhu Z., Zhang G., Zhang X., Zhang K., Zhao L., Wang M., Yao W., Hou Z., Ning F., Chang Z., Dai Z.

Development of an Eddy-Current Separation Equipment With High Gradient Superconducting Magnet

Ключевые слова: magnetic separation, eddy currents, gradient, LTS, NbTi, coils solenoidal, design, design parameters, cryocoolers, mechanical properties, stress distribution, cooling technology, training effect, quench protection

IEEE Transactions Applied Superconductivity, 2015, v.25, N 3, p.3700304

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Bottura L., Goldacker W., Caspi S., Rossi L., Fazilleau P., Fleiter J., Stenvall A., Ballarino A., Lorin C., Marchevsky M., Kario A., Rijk G.d., Perez J.C., Kate H.t., Kirby G.A., Durante M., Lopes M., Haro E., Nugteren J.v., Clement S., Gauthier R., Datskov V., Chouika N., Fajardo L., Gentini L., Lambert L., Rijllart A.

Accelerator-Quality HTS Dipole Magnet Demonstrator Designs for the EuCARD-2 5-T 40-mm Clear Aperture Magnet

Ключевые слова: accelerator magnets, HTS, YBCO, coated conductors, Roebel conductors, impregnation, modeling, numerical analysis, design, comparison, hot spots, quench detection, quench protection, high field magnets, quality control

IEEE Transactions Applied Superconductivity, 2015, v.25, N 3, p.4000805

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