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Ключевые слова: quench

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Lee H.G., Kim S.H., Kim W.J., Kim K.L., Kang D.H., Kim Y.G., Park Y.J.

Investigation of thermal and electrical stabilities of a GdBCO coil using grease as an insulation material for practical superconducting applications

Ключевые слова: HTS, REBCO, coated conductors, coils pancake, insulating medium, insulationless, comparison, discharge characteristics, overcurrent, quench

Review Scientific Instruments, 2014, v.85, N 9, p.94701

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Ambrosio G.

Nb3Sn High Field Magnets for the High Luminosity LHC Upgrade Project

Ключевые слова: LTS, Nb3Sn, high field magnets, LHC, luminosity, magnets quadrupole, detector, status, design parameters, strands, cables, PIT process, RRP process, coils wind-and-react, supporting structure, quench protection, plans, upgrade

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2014, v.30, N 2, p.398

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Jin J.X., Jiang L., Chen X.Y., Wen L.

A Universal LabVIEW-Based HTS Device Measurement and Control Platform and Verified Through a SMES System

Ключевые слова: measurement technique, control systems, HTS, magnets, quench properties, SMES, model small-scale, test results

IEEE Transactions Applied Superconductivity, 2014, v.24, N 5, p.9002705

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Kobayashi Y., Nanato N.

Quench Detection and Protection for High Temperature Superconducting Transformers by Using the Active Power Method

Ключевые слова: power equipment, transformers, HTS, quench detection, quench protection

Physics Procedia, 2014, v.58, N 1, p.264-267

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Dutoit B., Colangelo D.

Analysis of the influence of the normal zone propagation velocity on the design of resistive fault current limiters

Ключевые слова: power equipment, FCL resistive, normal zone propagation, numerical analysis, HTS, coated conductors, modeling, current limiting characteristics, experimental results, comparison, quench properties, electric field

Superconductor Science Technology, 2014, v.27, N 12, p.124005

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Lewandowska M., Malinowski L.

Minimum quench energies of uncooled low temperature superconductors with temperature dependent thermophysical parameters

Ключевые слова: LTS, NbTi, stability, minimum quench energy, numerical analysis, modeling, heat transfer, heat generation

Applied Mathematical Modelling, 2014, v.38, N 19-20, p.4733-4746

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Pradhan S., Roy S., Kanabar D., Dodiya C.

Development of a Prototype Hybrid DC Circuit Breaker for Superconducting Magnets Quench Protection

Ключевые слова: LTS, NbTi, Nb3Sn, magnets, hybrid systems, quench protection, circuit breaker, experimental results

IEEE Transactions Applied Superconductivity, 2014, v.24, N 6, p.4702006

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Makarov A., Efremov A., Bunzarov Z., Dodokhov V., Golovatyuk V., Ionaites V., Kekelidze V., Kovalchuk O., Koshurnikov E., Lobanov Y., Ochrimenko V., Vodopyanov A.

Superconducting solenoid magnet for the Multi-Purpose Detector at the NICA facility

Ключевые слова: colliders, coils solenoidal, detector, LTS, NbTi, cryogenic systems, supporting structure, hydraulic performances, stability, quench, minimum quench energy, normal zone propagation, power supply, vacuum structure, cooling technology, control systems, review, facility

Journal Instrumentation, 2014, v.9, N , p.9035

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Chen Y., Yang X., Chen H., Wang T., Wang B., Gao Y., Xu F., Chen A., Hou Z., Peng Q., Wei X.

Design and test of a superconducting magnet in a linear accelerator for an Accelerator Driven Subcritical System

Ключевые слова: accelerator magnets, proton irradiation, test results, design, quench detection, coils solenoidal, correction coils, design parameters, magnetic flux distribution, high field magnets

Nuclear Instruments Methods in Physical Research A, 2014, v.764, N 1, p.220

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Lee S., Cho J., Kim S., Kim D., Choi J., Sim K., Kwon Y.

Investigation on the inductive and resistive fault current limiting HTS power cable

Ключевые слова: power equipment, HTS, GdBCO, IBAD process, substrate Hastelloy, cables current limiting, FCL inductive, FCL resistive, impedance, quench, model small-scale, fabrication, experimental results, current limiting characteristics

Progress Superconductivity Cryogenics, 2014, v.16, N 2, p.59-63

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Ohashi S., Ueda N.

Influence of the Damper Coil System on the Levitation Characteristics in the Superconducting Magnetically Levitated System in Case of SC Coil Quenching

Ключевые слова: levitation performance, suspension, modeling, numerical analysis, quench, Maglev system, design parameters, rotating characteristics

IEEE Electrical Insulation Magazine, 2014, v.50, N 5, p.8300304

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Ohashi S., Ueda N.

Influence of the Damper Coil System on the Levitation Characteristics in the Superconducting Magnetically Levitated System in Case of SC Coil Quenching

Ключевые слова: Maglev system, levitation performance, coils, quench, suspension, numerical analysis

IEEE Transactions on Magnetics, 2014, v.50, N 11, p.8300304

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Sabbi G.

Nb3Sn IR Quadrupoles for HL-LHC

Ключевые слова: LTS, Nb3Sn, magnets quadrupole, LHC, accelerator magnets, coils racetrack, quench properties, mechanical properties, stress effects, magnetic properties, critical caracteristics, critical current, presentation, high field magnets

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2013, v., N , p.1-20

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Xu A., Markiewicz W.D., Walker M.S., Jaroszynski J., Abraimov D., Bai H., Hartley H.

Quench Analysis Of High Field REBCO Coils

Ключевые слова: HTS, YBCO, REBCO, coated conductors, critical caracteristics, temperature dependence, critical current, coils, thermal conductivity, quench protection, stabilizing layers, heat losses, heat loads, stability, thermal runaway, thickness dependence, hot spots, quench detection, experimental results, presentation

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2013, v., N , p.1-62

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Bogdanov I., Kozub S., Tkachenko L., Zubko V., Sytnik V., Varentsov D., Zinchenko S.

Development of Wide-Aperture Quadrupole Magnets for Plasma Experiments in the FAIR Project

Ключевые слова: accelerator magnets, magnets quadrupole, LTS, NbTi, design parameters, mechanical properties, stress effects, quench time, quench protection, current decay, voltage decay, high field magnets

IEEE Transactions Applied Superconductivity, 2013, v.23, N 3, p.4000204

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Tixador P., Volpini G., Hornung F., Sorbi M., Fazilleau P., Fleiter J., Stenvall A., Trophime C., Lecrevisse T., Rey J.M., Devaux M., Pes C., Haro E.

Quench Considerations and Protection Scheme of a High Field HTS Dipole Insert Coil

Ключевые слова: HTS, magnets dipole, coils insert, quench protection, stability, hybrid systems, LTS, Nb3Sn, HTS, YBCO, coated conductors, modeling computational

IEEE Transactions Applied Superconductivity, 2013, v.23, N 3, p.4600104

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Smith B.A., Prestemon S.O., Pan H., DeMello A.J.

Design and Analysis of the Quench Protection System for the MICE Coupling Coils

Ключевые слова: LTS, NbTi, coils, quench protection, HTS, current leads, design parameters, hot spots, design, experimental results

IEEE Transactions Applied Superconductivity, 2013, v.23, N 3, p.4700304

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Sirois F., Francesco

Potential and limits of numerical modelling for supporting the development of HTS devices

Ключевые слова: power equipment, numerical analysis, modeling, quench, HTS, coated conductors, FCL, cables coaxial, review, critical caracteristics, critical current, angular dependence, magnetic field dependence, ac losses, coils pancake, Roebel conductors, substrate Ni-W, presentation

EUROPEAN SUPERCONDUCTIVITY NEWS FORUM, 2013, v., N 26, p.1-57

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Baudouy B., Pietrowicz S.

Numerical study of the thermal behavior of an Nb3Sn high field magnet in He II

Ключевые слова: LTS, Nb3Sn, helium superfluid, accelerator magnets, numerical analysis, modeling, temperature distribution, quench, high field magnets

Cryogenics, 2013, v.53, N 1, p.72-77

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Ciazynski D., Lacroix B., Bessette D., Nicollet S., Duchateau J.-L., Rodriguez-Mateos F., Coatanea-Gouachet M.

Quench of ITER Poloidal Field Coils: Influence of some initiation parameters on thermo-hydraulic detection signals and main impact on cryogenic system

Ключевые слова: ITER, quench, coils poloidal field, thermal-hydraulics, cryogenic systems, cable-in-conduit conductor, LTS, helium supercritical, NbTi, design, current sharing, pressure distributions, temperature distribution

Cryogenics, 2013, v.53, N 1, p.86-93

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