Zobrazeno 1 - 10
of 23
pro vyhledávání: '"L.B. Dinaburg"'
Autor:
A. I. Kukshinov, V. V. Kalenin, G.F. Churakov, V. A. Shchepetilov, N.A. Monoszon, P.P. Khvostenko, B. A. Stavissky, V. V. Makarov, E. N. Bondarchuk, V. I. Peregud, I.A. Posadsky, V. G. Dubasov, A. I. Kostenko, L.B. Dinaburg, U. O. Anashkin, V. S. Strelkov, Yu. V. Spirchenko, S. A. Lelekhov, D. P. Ivanov, V. A. Alkhinovich, M. V. Zhelamsky, A. B. Konstantinov, I. F. Malyshev, N. I. Doinikov, I. I. Sabansky, Yu. A. Sokolov, G. V. Trokhachev, A.N. Vertiporokh, Nikolai A Chernoplekov, V. P. Muratov
Publikováno v:
Plasma Devices and Operations. 2:1-25
The basic problems of Tokamak-15 electromagnetic system (EMS) elaboration are discussed. The EMS design is described, its main component parameters and features are presented. The R and D program for the EMS design including its most complicated comp
Autor:
S. I. Veremchuk, G. M. Kashirskikh, I. K. Butkevich, A. E. Ugrovatov, V. D. Kovalenko, Yu. I. Dukhanin, V. F. Zhulkin, V. V. Krylov, I.A. Posadsky, L.B. Dinaburg, A. N. Volobuev, A. B. Konstantinov
Publikováno v:
Plasma Devices and Operations. 2:47-59
Test results on the Tokamak-15 cryogenic system are presented. Structural elements of this system are listed and described, their engineering characteristics have been estimated in terms of their reliability and compliance with the designed parameter
Autor:
D. P. Ivanov, P.P. Khvostenko, I.V. Mozin, V. D. Kovalenko, B. A. Stavissky, S.G. Filatov, G. M. Kashirskikh, V. S. Strelkov, N.A. Monoszon, A.N. Vertiporokh, G.F. Churakov, N.A. Chernoplekov, V. G. Motenko, G.E. Notkin, L.B. Dinaburg, I.A. Posadsky, I. K. Butkevich, N.N. Britousov, G.V. Trokhachev
Results of the experiments on cooling, cryostatting, current tests and on Ohmic plasma heating at T-15 facility using the largest (at present) superconducting magnetic system with the current-carrying element based on Nb3Sn are given in the paper.
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::c431529e33325fdef9b2cf77f87e3e2a
https://doi.org/10.1016/b978-0-444-88508-1.50103-1
https://doi.org/10.1016/b978-0-444-88508-1.50103-1
Autor:
V. A. Belyakov, E.O. Adamov, O.G. Filatov, L.B. Dinaburg, B. B. Kadomtsev, A. I. Kostenko, B.N. Kolbasov, R.N. Litunovskij, N. A. Monoszon, I.V. Altovskij, V. A. Glukhikh, G.E. Shatalov, G.L. Saksaganskij, Yu.S. Strebkov, V. V. Orlov, V.I. Pistunovich, Yu. V. Spirchenko, E.V. Kornakov, S.P. Gurin, G. F. Churakov
Publikováno v:
Fusion Engineering and Design. 8:51-58
A description is given of the test fusion reactor OTR which is conceived to be a major step between the present generation of tokamaks in the USSR and commercial reactors. The design of OTR is based on near-term technologies and its construction will
Autor:
B. G. Karasev, E. V. Seredenko, I.V. Mozin, V.P. Muratov, R.L. Litunovsky, L.B. Dinaburg, B.B. Kadomtsev, G.V. Trohachev, L. A. Matalin-slutsky, V.G. Ivkin, N.N. Britousov, A.I. Kostenlco, A.N. Volobuev, I.M. Samoilov, V. I. Peregud, B.A. Stavissky, V.V. Spirchenko, E.V. Kornakov, E.O. Adamov, S.N. Sadakov, G.F. Churakov, N.V. Krasnov, V. A. Glukhikh, V. S. Strelkov, E.P. Velikhov, N.N. Semachko, S.P. Gurin, V. V. Alikaev, I.F. Malyshev, N.A. Monoszon, D. P. Ivanov, N.A. Chernoplekov
Tokamak T-15 installation, being constructed in I.V. Kurchatov institute (IAE) is In common with the large installations JET, TFTR, JT-60, TORE SUPRA, aimed to get and investidate fusion parameter plasma and to solve some engineering problems, associ
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::b7ce271128c2676937ed37d1cdcef7c4
https://doi.org/10.1016/b978-1-4832-8376-0.50084-x
https://doi.org/10.1016/b978-1-4832-8376-0.50084-x
The problem of numerical simulation of helium behavior in hollow conductors cooling cnannels at superconductivity loss is being discussed in this paper. The I arge particles method for solving the non-stationary system of gas dynamics equations in th
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::65752b87d246c46640313e74a580ef85
https://doi.org/10.1016/b978-0-408-01259-1.50178-9
https://doi.org/10.1016/b978-0-408-01259-1.50178-9
Publikováno v:
A Cryogenic Engineering Conference Publication ISBN: 9781461398769
Electromagnetic system (EMS) of Tokamak-15 contains superconducting toroidal field coil (TFC) and cryoresistive nitrogen cooled coils for plasma equilibrium and shap control’. EMS coils of Tokamak-15 are manufactured from hollow forced cooling cond
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::4100b2d3514207c44e2be3c02509b949
https://doi.org/10.1007/978-1-4613-9874-5_22
https://doi.org/10.1007/978-1-4613-9874-5_22
Autor:
N.S. CHEVEREV, E.N. BONDARCHUK, V.A. GLUKHIH, S.P. GURIN, L.B. DINABURG, null N.I., N.I. DOINIKHOV, M.V. JELANSKY, V.G. IVKIN, V.V. KALININ, B.G. KARASIOV, Yu.A. KONSTANTINOV, E.V. KORNAKOV, A.N. KOSTENKO, V.G. KUCHINSKY, R.N. LITUNOVSKY, V.V. MAKAROV, I.F. MALYSHEV, J.V. MOZIN, N.A. MONOSZON, V.P. MURATOV, V.N. ODINTSOV, Yu.N. OSTROUMOV, V.N. PEREGUD, I.M. ROIFE, I.I. SABANSKY, E.V. SEREDENKO, F.M. SPEVAKOVA, Yu. V. SPIRCHENKO, G.V. TROKHACHEV, G.F. CHURAKOV, A.H. YAVNO, V.V. ALIKAEV, V.A. ALHIMOVICH, I.O. ANASHKIN, N.N. BRITOUSOV, E.P. VELIKHOV, A.N. VERTIPOROKH, A.N. VOLOBUEV, D.P. IVANOV, B.B. KADOMTSEV, I.A. LELEKHOV, V.V. MARTYNENKO, L.A. MATALIN-SLUTSKY, I.A. POSADSKY, N.N. SEMASHKO, B.A. STAVISSKY, V.L. STRELKOV, G.N. TILININ, P.P. HVOSTENKO, N.A. CHERNOPLEKOV, V.M. SCHEDROV, V.D. KORALENKO, G. Yu. TSFASMAN
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::b4ffd293a375a588ad919e01a3fbdf5b
https://doi.org/10.1016/b978-0-444-87369-9.50045-7
https://doi.org/10.1016/b978-0-444-87369-9.50045-7
Publikováno v:
Cryogenics. 18:231-232
A circulating cooling system for a superconducting magnet is described, based on a commercial G-3 (G-45) helium liquifer. A flow of helium in the pressure range 2026-101 kNm −2 (20 to 1 atm) with a temperature of 4.3 to 4.35 K can be obtained with
Publikováno v:
Cryogenics. 21:105-106
A cold box, which does not have temperature expanders, designed for a forced cooling system is described. The cold box can be used to maintain superconducting magnets at 4.5 − + 5 K for a long period of time. Tests on the cold box have shown that t