Breschi M., Celentano G., Marzi G.D., Marchetti M., Savoldi L., Masi A., Castaldo A., Trotta A., Zanon F., Adibi S.A., Colombo G., Caponero M.A., Mazzotta C., Polimadei A.
Ключевые слова: sensors, quench detection, HTS, Bi2223, tapes, stacked blocks, cables, cooling technology, measurement setup, measurement technique, current-voltage characteristics
Ключевые слова: DEMO, coils toroidal, LTS, Nb3Sn, Rutherford cables, react-and-wind technique, modeling, ac losses
Ключевые слова: fusion magnets, DEMO, HTS, REBCO, tapes, stacked blocks, twisting, cable-in-conduit conductor, ac losses, magnetization, modeling, numerical analysis
Ключевые слова: solar photovoltaic system, renewable energy systems, power equipment, SMES, HTS, YBCO, tapes, coils toroidal, design, design parameters, cryogenic systems, cryostat, numerical analysis
Zenobio A.D., Anemona A., Bonifetto R., Cucchiaro A., Corte A.D., Marzi G.D., Zignani C.F., Giannini L., Giorgetti F., Indrigo D., Messina G., Morici L., Muzzi L., Pizzuto A., Placido D., Polli G.M., Ramogida G., Romanelli G., Savoldi L., Turtu S., Viarengo S., Zanino R., Zappatore A., Zoboli L.
Ключевые слова: fusion, Tokamak, DEMO, magnetic systems, coils, design, cable-in-conduit conductor, plans
Ключевые слова: HTS, LTS, cables, current leads, ac losses, modeling, numerical analysis
Ключевые слова: power equipment, cables, fusion magnets, forced flow conductor, cryogenic systems, helium supercritical, LTS, Nb3Sn, cable-in-conduit conductor, HTS, tapes, Rutherford cables, cables in separated cryostat, dc performance, design, design parameters, thermal-hydraulics, modeling, temperature distribution, numerical analysis
Ключевые слова: Tokamak, divertor, magnetic systems, LTS, NbTi, cable-in-conduit conductor, feeder, design parameters, thermal performance, thermal-hydraulics, modeling, numerical analysis, facility
Ключевые слова: magnets, heat losses, cryogenic systems, cooling technology, ITER, central coils, modeling, numerical analysis
Sedlak K., Anvar V.A., Bagrets N., Biancolini M.E., Bonifetto R., Bonne F., Boso D., Brighenti A., Bruzzone P., Celentano G., Chiappa A., D'Auria V., Dan M., Decool P.*10, Corte A.D., Dembkowska A.*11, Dicuonzo O., Duran I.*12, Eisterer M.*13, Ferro A., Zignani C.F., Fietz W.H., Frittitta C., Gaio E., Giannini L., Giorgetti F., Gomory F.*14, Granados X.*15, Guarino R., Heller R., Hoa C., Ivashov I.*16, Jiolat G.*10, Jirsa M.*17, Jose B.*10, Kembleton R.*18, Kumar M., Lacroix B.*10, Coz Q.L.*19, Lewandowska M.*11, Maistrello A., Misiara N.*10, Morici L., Muzzi L., Nicollet S.*10, Nijhuis A., Nunio F.*10, Portafaix C.*10, Romanelli G., Sarasola X., Savoldi L., Stepanov B., Tiseanu I.*20, Tomassetti G., Torre A.*10, Turtщ S., Uglietti D., Vallcorba R.*10, Viererbl L.*21, Vojenciak M.*14, Vorpahl C.*18, Weiss K., Wesche R., Wolf M.J., Zani L.*10, Zanino R., Zappatore A., Corato V.
Ключевые слова: fusion magnets, Tokamak, central coils, HTS, REBCO, tapes, cable-in-conduit conductor, quench propagation, modeling, thermal-hydraulics
Ключевые слова: DEMO, magnets, coils toroidal, magnetic systems, safety, modeling, ITER, comparison
Ключевые слова: ITER, central coils, modeling, ac losses, numerical analysis, LTS, Nb3Sn, cable-in-conduit conductor, thermal-hydraulics, experimental results
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