Yao D.M., Xiao B.J., Wang L., Li H., Luo Z.P., Crisanti F., Xu G.S., Ramogida G., Calabro G., Minucci S., Castaldo A., Lombroni R., Li G.Q., Wang Z.L., Zhou Z.B.
Ключевые слова: Tokamak, design, divertor, coils poloidal field, modeling
Ключевые слова: stellarator, operational performance, divertor, design parameters
Turtu S., Muzzi L., Corato V., Corte A.D., Zignani C.F., Messina G., Affinito L., Bonifetto R., Morici L., Anemona A., Savoldi L., Zappatore A., Righetti R., Giannini L., Romanelli G., Zoboli L., Zanino A.Z.
Ключевые слова: SMES, magnets, coils solenoidal, HTS, GdBCO, coated conductors, divertor, modeling, magnetic field distribution, critical caracteristics, critical current, distribution
Nishimura A., Nakamura M., Miyoshi Y., Hoshino K., Homma Y., Kudo H., Utoh H., Asakura N., Tobita K., Sakamoto Y., Someya Y., Tanigawa H., Nakamichi M., Hiwatari R., Tokunaga S.
Labombard B., Whyte D.G., Brunner D., Sorbom B.N., Kuang A.Q., Cao N.M., Creely A.J., Dennett C.A., Hecl J., Tinguely R.A., Tolman E.A., Hoffman H., Major M., Ruiz J.R., Grover P., Laughman C.
Ключевые слова: fusion magnets, design, divertor, HTS, REBCO, coils poloidal field, design parameters, modeling, numerical analysis, arc
Ключевые слова: DEMO, status, fusion magnets, Tokamak, magnetic systems, neutron irradiation, modeling, coils poloidal field, design parameters, design, divertor
Goto T., Tamura H., Tanaka T., Yanagi N., Sagara A., Miyazawa J., Sakamoto R., Masuzaki S., Ohtani H., FFHR Design Group
Ключевые слова: fusion magnets, HTS, coils, helical winding, coated conductors, REBCO, joints, mechanical properties, divertor, design, plans
Nishimura A., Nakamura M., Miyoshi Y., Katayama K., Homma Y., Kudo H., Utoh H., Asakura N., Tobita K., Sakamoto Y., Someya Y., Hiwatari R., Tokunaga S., Aoki A.
Ключевые слова: DEMO, Japan, design, fusion magnets, design parameters, modeling, comparison, coils toroidal, divertor, irradiation effects, fusion
Gaio E., Lampasi A., Zito P., Starace F., Costa P., Maffia G., Minucci S., Toigo V., Zanotto L., Ciattaglia S.
Ключевые слова: power supply, divertor, torque, test results, coils poloidal field, coils toroidal, modeling, numerical analysis, torque
Ключевые слова: ITER, DEMO, Japan, Europe, Tokamak, status, design parameters, coils toroidal, coils poloidal field, central coils, HTS, current leads, shields, thermal performance, cryostat, divertor, cryogenic systems, power supply, review
Ключевые слова: HTS, coils pancake, GdBCO, coated conductors, current decay, persistent current mode, divertor, Bi2223, coils, discharge characteristics, experimental results
Li M., Zani L., Federici G., Albanese R., Maviglia F., Strohmayer G., Wenninger R., Bachmann C., Ambrosino R., Loschiavo V.P., You J.H.
Ключевые слова: DEMO, Tokamak, divertor, cooling technology, thermal-hydraulics, coils, mechanical properties, fatigue behavior, ac losses
Chen Z.H., Jin J.X., Chen X.Y., Jiang Z.Q., Wang Y.L., Du B.X., Xing Y.Q., Zhu Y.P., Sun R.M., Ba L.J., Li F.M., You H., Liu X.D.
Ключевые слова: power equipment, HTS, tapes, coils, transformers, divertor, magnetic field distribution, core iron, design parameters, modeling, numerical analysis
Ivanov D.P., Khayrutdinov R.R., Rodin I.Y., Zapretilina E.R., Kolbasov B.N., Bondarchuk E.N., Azizov E.A., Belyakov V.A., Kavin A.A., Krasnov S.V., Mineev A.B., Muratov V.P., Tanchuk V.N., Khokhlov M.V., Maximova I.I., Labusov A.N., Lukash V.E., Ananyev S.S., Voronova A.A., Golikov A.A., Goncharov P.R., Dnestrovskij A.Y., Kedrov I.V., Klischenko A.V., Krylov A.I., Krylov V.A., Kuzmin E.G., Kuteev B.V., Medvedev S.Y., Petrov V.S.-1, Sergeev V.Y., Spitsyn A.V., Trofimov V.A., Shpanskiy Y.S.
Ключевые слова: DEMO, magnetic systems, vacuum structure, irradiation effects, shields, ITER, comparison, coils poloidal field, central coils, coils toroidal, divertor, design parameters
Mumgaard R., Nygren R., Parker R., Poli F., Porkolab M., Reinke M.L., Rice J., Rognlien T., Rowan W., Shiraiwa S., Terry D., Theiler C., Titus P., Umansky M., Valanju P., Walk J., White A., Wilson J.R., Wright G., Zweben S.J., Labombard B., Marmar E., Irby J., Terry J.L., Vieira R., Wallace G., Whyte D.G., Wolfe S., Wukitch S., Baek S., Beck W., Bonoli P., Brunner D., Doody J., Ellis R., Ernst D., Fiore C., Freidberg J.P., Golfinopoulos T., Granetz R., Greenwald M., Hartwig Z.S., Hubbard A., Hughes J.W., Hutchinson I.H., Kessel C., Kotschenreuther M., Leccacorvi R., Lin Y., Lipschultz B., Mahajan S., Minervini J.
Ключевые слова: Tokamak, high field magnets, heating rates, divertor, review
Lee C., Kim K., Oh S., Kim C.H., Park J.S., Zhai Y., Brown T., Im K., Kwon S., Lee Y.S., Yeom J.H., Lee G.-S., Neilson G., Kessel C., Titus P., Mikkelsen D.
Ключевые слова: DEMO, magnetic systems, divertor, design, design parameters, cable-in-conduit conductor, LTS, NbTi, Nb3Sn, fabrication, coils poloidal field, coils toroidal, central coils
Xiao B.J., Wang L., Liu L., Xu J., Zhang B., Luo Z.P., Guo Y., Chen S.L., Duan Y.M., Li J.G., et all, EAST Team, Calabro G.
Ключевые слова: Tokamak, divertor, magnetic systems, modeling, experimental results, high field magnets
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