Zobrazeno 1 - 6
of 6
pro vyhledávání: '"Konstantin Senik"'
Autor:
Boris Lyublin, Victor Tanchuk, Victor Udintsev, P. Maquet, Konstantin Senik, Sergey Grigoriev, S. Pak
Publikováno v:
Fusion Engineering and Design. :207-212
For effective vacuum leak testing all cooling circuits serving the ITER vessel and in-vessel components shall be drained and dried so that after this procedure taking less than 100 h the purge gas passing through a component has water content less th
Autor:
Olaf Neubauer, Yury Krasikov, Anatoly Panin, Konstantin Senik, Philippe Mertens, Ilya Gornikel, Sergey Grigoriev, Victor Tanchuk
Publikováno v:
Fusion Engineering and Design. :790-794
The First Mirror (M1), as part of the ITER core CXRS diagnostics, is responsible for acquisition and transportation of the optical signal from the plasma to the corresponding spectrometer. The M1 is the most vulnerable component of this system workin
Autor:
Mikhail Belenky, Sergey Grigoriev, Boris Fokin, A. Makhankov, Mikhail Blinov, Victor Tanchuk, Mikhail Lebedev, Konstantin Senik, Nikolay Yablokov
Publikováno v:
Fusion Engineering and Design. 89:925-931
The divertor dome (DO), being part of the ITER divertor, is designed to extract the major part of the plasma thermal energy. As a plasma-facing component (PFC), the DO experiences high heat fluxes (up to 5.0 MW/m2). Such severe operation conditions o
Autor:
Boris Lyublin, Sergey Obudovsky, Svetlana Korban, Yuri Kashchuk, Alexander Batyunin, Victor Tanchuk, Konstantin Senik, Evgeny Alexandrov
Publikováno v:
Fusion Engineering and Design. 88:1244-1248
The key role in direct measurement of the ITER fusion power is assigned to the neutron diagnostic system for measurement of total neutron flux of the D–D and D–T fusion reaction with the help of a neutron flux monitor located under the divertor d
Autor:
Romaric Voinchet, Konstantin Senik, Ilya Gornikel, Olaf Neubauer, Victor Tanchuk, Sergey Grigoriev, Yury Krasikov
Publikováno v:
Fusion Engineering and Design. 86:1243-1247
The first mirror (M1) as an important part of the CXRS diagnostic system is responsible for acquisition and transportation of the optical signal of required quality from the ITER plasma to detectors. At the same time, the M1 is the most vulnerable co
Publikováno v:
Fusion Engineering and Design. 84:853-858
The simulation of the thermal response of the JET bulk tungsten divertor modules to real operational conditions demonstrates that the analyzed design provides more favourable conditions than before (≤600 °C) for the temperature-vulnerable material