Standard

Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber. / Azizov, E.A.; Ananyev, S.S.; Belyakov, V.A.; Bondarchuk, E.N.; Voronova, A.A.; Golikov, A.A.; Goncharov, P.R.; Dnestrovskij, A.Yu.; Zapretilina, E.R.; Ivanov, D.P.; Kavin, A.A.; Kedrov, I.V.; Klischenko, A.V.; Kolbasov, B.N.; Krasnov, S.V.; Krylov, A.I.; Krylov, V.A.; Kuzmin, E.G.; Kuteev, B.V.; Labusov, A.N.; Lukash, V.E.; Maximova, I.I.; Medvedev, S.Yu.; Mineev, A.B.; Muratov, V.P.; Petrov, V.S.; Rodin, I.Yu.; Sergeev, V.Yu.; Spitsyn, A.V.; Tanchuk, V.N.; Trofimov, V.A.; Khayrutdinov, R.R.; Khokhlov, M.V.; Shpanskiy, Yu.S.

в: ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ, № 2, 2015, стр. 5-18.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Azizov, EA, Ananyev, SS, Belyakov, VA, Bondarchuk, EN, Voronova, AA, Golikov, AA, Goncharov, PR, Dnestrovskij, AY, Zapretilina, ER, Ivanov, DP, Kavin, AA, Kedrov, IV, Klischenko, AV, Kolbasov, BN, Krasnov, SV, Krylov, AI, Krylov, VA, Kuzmin, EG, Kuteev, BV, Labusov, AN, Lukash, VE, Maximova, II, Medvedev, SY, Mineev, AB, Muratov, VP, Petrov, VS, Rodin, IY, Sergeev, VY, Spitsyn, AV, Tanchuk, VN, Trofimov, VA, Khayrutdinov, RR, Khokhlov, MV & Shpanskiy, YS 2015, 'Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber', ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ, № 2, стр. 5-18. <https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84952934270&origin=inward>

APA

Azizov, E. A., Ananyev, S. S., Belyakov, V. A., Bondarchuk, E. N., Voronova, A. A., Golikov, A. A., Goncharov, P. R., Dnestrovskij, A. Y., Zapretilina, E. R., Ivanov, D. P., Kavin, A. A., Kedrov, I. V., Klischenko, A. V., Kolbasov, B. N., Krasnov, S. V., Krylov, A. I., Krylov, V. A., Kuzmin, E. G., Kuteev, B. V., ... Shpanskiy, Y. S. (2015). Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber. ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ, (2), 5-18. https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84952934270&origin=inward

Vancouver

Azizov EA, Ananyev SS, Belyakov VA, Bondarchuk EN, Voronova AA, Golikov AA и пр. Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber. ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ. 2015;(2):5-18.

Author

Azizov, E.A. ; Ananyev, S.S. ; Belyakov, V.A. ; Bondarchuk, E.N. ; Voronova, A.A. ; Golikov, A.A. ; Goncharov, P.R. ; Dnestrovskij, A.Yu. ; Zapretilina, E.R. ; Ivanov, D.P. ; Kavin, A.A. ; Kedrov, I.V. ; Klischenko, A.V. ; Kolbasov, B.N. ; Krasnov, S.V. ; Krylov, A.I. ; Krylov, V.A. ; Kuzmin, E.G. ; Kuteev, B.V. ; Labusov, A.N. ; Lukash, V.E. ; Maximova, I.I. ; Medvedev, S.Yu. ; Mineev, A.B. ; Muratov, V.P. ; Petrov, V.S. ; Rodin, I.Yu. ; Sergeev, V.Yu. ; Spitsyn, A.V. ; Tanchuk, V.N. ; Trofimov, V.A. ; Khayrutdinov, R.R. ; Khokhlov, M.V. ; Shpanskiy, Yu.S. / Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber. в: ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ. 2015 ; № 2. стр. 5-18.

BibTeX

@article{6497228d755f427c9e0733034311b268,
title = "Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber",
abstract = "The accumulated know-how in the area of plasma physics and technology of controlled fusion makes it possible to begin designing of fusion neutron sources (FNS), which may be used for production of fissile nuclides and transmutation of minor actinides. Modern Rus-sian strategy of controlled fusion development provides for construction of the demonstration FNS-tokamak (DEMO-FNS) for the checkup of stationary plasma burning and test of hybrid fusion-fission blankets by 2023. The DEMO-FNS designing is now at its initial stage. Efremov Institute began designing of its magnet system and vacuum chamber, while Kurchatov Institute and SPbPU developed plasma-physical design aspects and determined basic parameters of the facility. Plasma major radius R = 2.75 m, plasma minor radius a = 1 m. Fusion power PFUS= 40 MW. Toroidal magnetic field at the major radius Bt0 = 5T. Plasma current Ip = 5MA. Magnet sys-tem is superconducting: central solenoid will be made of Nb3Sn, poloidal field coils of NbTi. Use of superconducting",
author = "E.A. Azizov and S.S. Ananyev and V.A. Belyakov and E.N. Bondarchuk and A.A. Voronova and A.A. Golikov and P.R. Goncharov and A.Yu. Dnestrovskij and E.R. Zapretilina and D.P. Ivanov and A.A. Kavin and I.V. Kedrov and A.V. Klischenko and B.N. Kolbasov and S.V. Krasnov and A.I. Krylov and V.A. Krylov and E.G. Kuzmin and B.V. Kuteev and A.N. Labusov and V.E. Lukash and I.I. Maximova and S.Yu. Medvedev and A.B. Mineev and V.P. Muratov and V.S. Petrov and I.Yu. Rodin and V.Yu. Sergeev and A.V. Spitsyn and V.N. Tanchuk and V.A. Trofimov and R.R. Khayrutdinov and M.V. Khokhlov and Yu.S. Shpanskiy",
year = "2015",
language = "русский",
pages = "5--18",
journal = "ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ",
issn = "0202-3822",
publisher = "National Research Center Kurchatov Institute",
number = "2",

}

RIS

TY - JOUR

T1 - Tokamak Demo-FNS: Concepts of magnet system and vacuum chamber

AU - Azizov, E.A.

AU - Ananyev, S.S.

AU - Belyakov, V.A.

AU - Bondarchuk, E.N.

AU - Voronova, A.A.

AU - Golikov, A.A.

AU - Goncharov, P.R.

AU - Dnestrovskij, A.Yu.

AU - Zapretilina, E.R.

AU - Ivanov, D.P.

AU - Kavin, A.A.

AU - Kedrov, I.V.

AU - Klischenko, A.V.

AU - Kolbasov, B.N.

AU - Krasnov, S.V.

AU - Krylov, A.I.

AU - Krylov, V.A.

AU - Kuzmin, E.G.

AU - Kuteev, B.V.

AU - Labusov, A.N.

AU - Lukash, V.E.

AU - Maximova, I.I.

AU - Medvedev, S.Yu.

AU - Mineev, A.B.

AU - Muratov, V.P.

AU - Petrov, V.S.

AU - Rodin, I.Yu.

AU - Sergeev, V.Yu.

AU - Spitsyn, A.V.

AU - Tanchuk, V.N.

AU - Trofimov, V.A.

AU - Khayrutdinov, R.R.

AU - Khokhlov, M.V.

AU - Shpanskiy, Yu.S.

PY - 2015

Y1 - 2015

N2 - The accumulated know-how in the area of plasma physics and technology of controlled fusion makes it possible to begin designing of fusion neutron sources (FNS), which may be used for production of fissile nuclides and transmutation of minor actinides. Modern Rus-sian strategy of controlled fusion development provides for construction of the demonstration FNS-tokamak (DEMO-FNS) for the checkup of stationary plasma burning and test of hybrid fusion-fission blankets by 2023. The DEMO-FNS designing is now at its initial stage. Efremov Institute began designing of its magnet system and vacuum chamber, while Kurchatov Institute and SPbPU developed plasma-physical design aspects and determined basic parameters of the facility. Plasma major radius R = 2.75 m, plasma minor radius a = 1 m. Fusion power PFUS= 40 MW. Toroidal magnetic field at the major radius Bt0 = 5T. Plasma current Ip = 5MA. Magnet sys-tem is superconducting: central solenoid will be made of Nb3Sn, poloidal field coils of NbTi. Use of superconducting

AB - The accumulated know-how in the area of plasma physics and technology of controlled fusion makes it possible to begin designing of fusion neutron sources (FNS), which may be used for production of fissile nuclides and transmutation of minor actinides. Modern Rus-sian strategy of controlled fusion development provides for construction of the demonstration FNS-tokamak (DEMO-FNS) for the checkup of stationary plasma burning and test of hybrid fusion-fission blankets by 2023. The DEMO-FNS designing is now at its initial stage. Efremov Institute began designing of its magnet system and vacuum chamber, while Kurchatov Institute and SPbPU developed plasma-physical design aspects and determined basic parameters of the facility. Plasma major radius R = 2.75 m, plasma minor radius a = 1 m. Fusion power PFUS= 40 MW. Toroidal magnetic field at the major radius Bt0 = 5T. Plasma current Ip = 5MA. Magnet sys-tem is superconducting: central solenoid will be made of Nb3Sn, poloidal field coils of NbTi. Use of superconducting

M3 - статья

SP - 5

EP - 18

JO - ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ

JF - ВОПРОСЫ АТОМНОЙ НАУКИ И ТЕХНИКИ. СЕРИЯ: ТЕРМОЯДЕРНЫЙ СИНТЕЗ

SN - 0202-3822

IS - 2

ER -

ID: 4010500