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Вы запросили Ключевые слова: cooling technology
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Shi Y., Durrell J.H., Calvi M., Zhang K., Ainslie M.D., Hellmann S., Dennis A., Kittel C., Moseley D.A., Schmidt T.

A GdBCO bulk staggered array undulator

Ключевые слова: synchrotron, HTS, GdBCO, bulk, undulator, design, trapped field, cooling technology, test results, model small-scale, magnetic field distribution

Superconductor Science Technology, 2020, v.33, N 1, p.14004

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McIntyre P., Sattarov A., Ghoshal P.K., Rajput-Ghoshal R., Chavez D., Fair R.J., Kashy D.H., Gopinath S., Michalski T.

Preliminary Design Study of a Fast-Ramping Magnet for Preconcept Design of an Electron–Ion Collider at Jefferson Lab

Ключевые слова: colliders, design, magnets dipole, design, design parameters, ramp rates, LTS, NbTi, cable-in-conduit conductor, quench protection, coils, winding configurations, modeling, ac losses, magnetic field distribution, cooling technology, heat transfer

IEEE Transactions Applied Superconductivity, 2020, v.30, N 1, p.4700211

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Bruzek C.E., Lallouet N., Marzahn E., Marian A., Hole S.

Demonstration Tests of a 320-kV-Class DC Superconducting Cable for Transmission of High Powers

Ключевые слова: power equipment, dc performance, cables, design, MgB2, cryogenic systems, helium gas, nitrogen liquid , insulating medium, termination, cooling technology, experimental results

IEEE Electrical Insulation Magazine, 2020, v.36, N 1, p.30-40

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Xin Y., Wang C., Zhao C., Li W., Wen Y., Hong W.

Study on Different YBCO Bulk Arrangements With a Fan-Shaped Electromagnetic Guideway of HTS Maglev

Ключевые слова: Maglev system, HTS, YBCO, bulk, guidance, sample shapes, levitation performance, flux density, measurement setup, cooling technology, displacements, test results

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.3601005

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Zhou Q., Zhang J., Zhang J., Ding Y., Wen Y., Tang Q., Qian M.

Cooling Design for the Magnetic Structure of SHINE Superconducting Undulator

Ключевые слова: undulator, magnetic systems, LTS, NbTi, design, design parameters, cooling technology, helium liquid, thermal properties, current leads, HTS, REBCO

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.4100104

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Bole S., Toth J.

Conceptual Design for a Next Generation Resistive Large Bore Magnet at the NHMFL

Ключевые слова: magnets resistive, design, new, high field magnets, cooling technology, design parameters, operational performance

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.4300104

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Noe M., Zhang Y., Liu Y., Gyuraki R., Doppelbauer M., Schreiner F.

Development of No-Insulation Racetrack Coils Wound With 2nd Generation HTS Tapes for a Stator System for Wind Generators

Ключевые слова: wind farms application, rotating machines, generators, HTS, GdBCO, coated conductors, coils racetrack, coils pancake, insulationless, conduction cooled systems, design, design, contact characteristics, resistivity, pressure dependence, flux density, cooling technology, experimental results

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.6900205

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Celentano G., Chiesa L., Corte A.D., Zhao Z., Marchetti M., Pierro F.

Structural Modeling of HTS Cable-in-Conduit Conductor With Helically Slotted Aluminum Core for High-Field Magnet Applications

Ключевые слова: high field magnets, HTS, GdBCO, coated conductors, cable-in-conduit conductor, cores, modeling, numerical analysis, mechanical properties, bending strain, bending radius, critical characteristics, critical current, comparison, cooling technology

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.4800705

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Dudarev A., Kate H.H., Mulder T., Silva H.F., Bykovskiy N., Blokker J.W.

Self-Protecting HTS Current Lead-Demonstration of a New Technology

Ключевые слова: detector, magnets, current leads, HTS, Bi2223, tapes, quench protection, prototype, fabrication, cooling technology, critical characteristics, current-voltage characteristics

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.4800805

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Zhao Y., Shi B.

Influence of Non-superconducting Inclusions on Magnetostriction of Bulk Superconductors with Viscous Flux Flow Under Zero-Field Cooling Process

Ключевые слова: bulk, HTS, magnetostriction, flux flow, doping effect, cooling technology, modeling, numerical analysis

J Low Temperature Physics, 2020, v.198, N 5-6, p.269-279

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Song H., Yang W., Song D., Liao D., Bai M.

Effect of Composite Superconductor Structure on Dynamic Properties of Superconducting Interface and Formation in Space Application

Ключевые слова: space application, docking, HTS, YBCO, bulk, disks, Al, plates, composites, damping, dynamic operation, stability, cooling technology, magnetization, magnets permanent, displacements, rotating, experimental results

J Superconductivity Novel Magnetism, 2020, v.33, N 3, p.599-607

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Lee C., Iwakuma M., Park M., Kim Y., Won Y., Ryu C., Son H.

Progress of the first commercial project of high-temperature superconducting cables by KEPCO in Korea

Ключевые слова: Korea, power equipment, HTS, Bi2223, tapes, YBCO, coated conductors, cables triaxial, commercialization, cables underground, design parameters, photo, installation, test results, critical characteristics, current-voltage characteristics, cooling technology, grid operation

Superconductor Science Technology, 2020, v.33, N 4, p.44006

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Zheng J., Zhang Z., Yuan W., Zhang M., Ali M.Z., Huber F.

4.6 T generated by a high-temperature superconducting ring magnet

Superconductor Science Technology, 2020, v.33, N 4, p.1

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Schwartz J., Zhou Y., Wang X., Gao P., Chan W.

Stress, strain and electromechanical analyses of (RE)Ba2Cu3O x conductors using three-dimensional/two-dimensional mixed-dimensional modeling: fabrication, cooling and tensile behavior

Ключевые слова: HTS, REBCO, coated conductors, tensile tests, modeling, design, fabrication, cooling technology, mechanical properties, strain effects, stress effects, thermal stress, thermal strain, degradation studies, numerical analysis, critical characteristics

Superconductor Science Technology, 2020, v.33, N 4, p.44015

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Dondapati R.S., Uppada V.R.

Role of nanocryogenic fluids in optimizing the thermohydraulic characteristics of high temperature superconducting (HTS) cables with entropy generation minimization strategy

Physica C, 2020, v.571, N , p.1353620

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Posen S., Dhuley R.C., Geelhoed M.I., Prokofiev O., Thangaraj J.C.

First demonstration of a cryocooler conduction cooled superconducting radiofrequency cavity operating at practical cw accelerating gradients

Ключевые слова: cryogenic systems, cryocoolers, conduction cooled systems, cavity, LTS, Nb3Sn, accelerator magnets, cooling technology, helium liquid, experimental results, design

Superconductor Science Technology, 2020, v.33, N 6, p.0-1

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Zhu F., Peck M.A., Jones-Wilson L.L.

Reduced Embedded Magnetic Field in Type-II Superconductor of Finite Dimension

Ключевые слова: critical state model, magnetization, magnetic field distribution, cooling technology

IEEE Transactions Applied Superconductivity, 2020, v.30, N 6, p.8000505

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Inoue T., Yokoyama S., Nakamura T., Kiss T., Miyagi D., Sato S., Tsuda M., Shirai Y., Matsuda T., Morita Y., Tanabe H., Eguchi R., Miura H., Otake S.

Design and Cooling Properties of High Stable Field REBCO Superconducting Magnet for MRI

Ключевые слова: MRI magnets, stability, homogeneity, HTS, REBCO, coated conductors, coils pancake, design, design parameters, cooling technology, cryocoolers, shields, prototype, fabrication

IEEE Transactions Applied Superconductivity, 2020, v.30, N 4, p.440904

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Sun Y.P., Ivanyushenkov Y., Kesgin I., Shiroyanagi Y., Fuerst J., Hasse Q., Kasa M., Borland M., Emery L., Sajaev V., Gluskin E., Harkay K.C., Jansma W.

Development and operating experience of a 1.2-m long helical superconducting undulator at the Argonne Advanced Photon Source

Ключевые слова: undulator, helical winding, design, operational performance, design parameters, cryostat, heat loads, cooling technology, quench current

Physical Review ACCELERATORS BEAMS, 2020, v.23, N 5, p.50701

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Xu X., Jin Z., Huang Z., Hao L., Dong F., Shao N.

Improvement of magnetic and cryogenic energy preservation performances in a feeding-power-free superconducting magnet system for maglevs

Ключевые слова: Maglev system, magnetic systems, cryogenic systems, persistent current mode, cooling technology, wireless, power supply

Energy, 2020, v.190, N , p.116403

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