Elsevier
Fusion Engineering and Design
том 49-50 страницы 195-199

Energy removal and MHD performance of lithium capillary-pore systems for divertor target application

V.A. Evtikhin 1
I.E. Lyublinski 1
A.V. Vertkov 1
N.I Yezhov 1
B.I. Khripunov 2
S.M. Sotnikov 3
S.V. Mirnov 3
V.B. Petrov 2
1
 
State Enterprise ‘Red Star’–‘Prana-Center’ Co, 115230 Moscow, Russia
2
 
3
 
Тип публикацииJournal Article
Дата публикации2000-11-01
Elsevier
scimago Q1
wos Q2
БС2
SJR0.727
CiteScore3.7
Impact factor2.0
ISSN09203796, 18737196
General Materials Science
Mechanical Engineering
Nuclear Energy and Engineering
Civil and Structural Engineering
Краткое описание
Experimental results of complex studies of lithium capillary-pore systems (CPS) for application as a plasma facing structure in divertor and on the first wall of a fusion reactor are reported. The ability of CPS to accept and to remove high heat fluxes (up to 30 MW m −2 ) in steady-state conditions (tens of minutes) has been evaluated on target plate imitator mock-ups supplied with cooling and lithium feed systems under electron beam power load in a linear plasma facility. Experimental study of lithium flow up to 2.5 m s −1 in CPS made of material with final conductivity for various mesh sizes and of the effect of cross magnetic field up to 1.6 T on its parameters has been made. The results of successful experiments on the T-11M tokamak helium and hydrogen plasma interaction with a CPS-based lithium limiter and lithium puff influence on the plasma performances are presented and analysed.
Найдено 
Найдено 

Топ-30

Журналы

2
4
6
8
10
12
Fusion Engineering and Design
Fusion Engineering and Design, 11, 29.73%
Fusion Engineering and Design
11 публикаций, 29.73%
Journal of Nuclear Materials
Journal of Nuclear Materials, 5, 13.51%
Journal of Nuclear Materials
5 публикаций, 13.51%
Nuclear Materials and Energy
Nuclear Materials and Energy, 4, 10.81%
Nuclear Materials and Energy
4 публикации, 10.81%
Plasma Physics and Controlled Fusion
Plasma Physics and Controlled Fusion, 3, 8.11%
Plasma Physics and Controlled Fusion
3 публикации, 8.11%
Nuclear Fusion
Nuclear Fusion, 2, 5.41%
Nuclear Fusion
2 публикации, 5.41%
Physica Scripta
Physica Scripta, 2, 5.41%
Physica Scripta
2 публикации, 5.41%
Fluids
Fluids, 1, 2.7%
Fluids
1 публикация, 2.7%
Processes
Processes, 1, 2.7%
Processes
1 публикация, 2.7%
Progress in Nuclear Energy
Progress in Nuclear Energy, 1, 2.7%
Progress in Nuclear Energy
1 публикация, 2.7%
Plasma Devices and Operations
Plasma Devices and Operations, 1, 2.7%
Plasma Devices and Operations
1 публикация, 2.7%
Fusion Science and Technology
Fusion Science and Technology, 1, 2.7%
Fusion Science and Technology
1 публикация, 2.7%
IEEE Transactions on Plasma Science
IEEE Transactions on Plasma Science, 1, 2.7%
IEEE Transactions on Plasma Science
1 публикация, 2.7%
Computational Methods in Applied Sciences
Computational Methods in Applied Sciences, 1, 2.7%
Computational Methods in Applied Sciences
1 публикация, 2.7%
IEEJ Transactions on Fundamentals and Materials
IEEJ Transactions on Fundamentals and Materials, 1, 2.7%
IEEJ Transactions on Fundamentals and Materials
1 публикация, 2.7%
2
4
6
8
10
12

Издатели

5
10
15
20
25
Elsevier
Elsevier, 21, 56.76%
Elsevier
21 публикация, 56.76%
IOP Publishing
IOP Publishing, 7, 18.92%
IOP Publishing
7 публикаций, 18.92%
MDPI
MDPI, 2, 5.41%
MDPI
2 публикации, 5.41%
Taylor & Francis
Taylor & Francis, 2, 5.41%
Taylor & Francis
2 публикации, 5.41%
Institute of Electrical and Electronics Engineers (IEEE)
Institute of Electrical and Electronics Engineers (IEEE), 2, 5.41%
Institute of Electrical and Electronics Engineers (IEEE)
2 публикации, 5.41%
Springer Nature
Springer Nature, 1, 2.7%
Springer Nature
1 публикация, 2.7%
Wiley
Wiley, 1, 2.7%
Wiley
1 публикация, 2.7%
Institute of Electrical Engineers of Japan (IEE Japan)
Institute of Electrical Engineers of Japan (IEE Japan), 1, 2.7%
Institute of Electrical Engineers of Japan (IEE Japan)
1 публикация, 2.7%
5
10
15
20
25
  • Мы не учитываем публикации, у которых нет DOI.
  • Статистика публикаций обновляется еженедельно.

Вы ученый?

Создайте профиль, чтобы получать персональные рекомендации коллег, конференций и новых статей.
Метрики
37
Поделиться
Цитировать
ГОСТ |
Цитировать
ГОСТ Скопировать
Evtikhin V. et al. Energy removal and MHD performance of lithium capillary-pore systems for divertor target application // Fusion Engineering and Design. 2000. Vol. 49-50. pp. 195-199.
ГОСТ со всеми авторами (до 50) Скопировать
Evtikhin V., Lyublinski I., Vertkov A., Yezhov N., Khripunov B., Sotnikov S., Mirnov S., Petrov V. Energy removal and MHD performance of lithium capillary-pore systems for divertor target application // Fusion Engineering and Design. 2000. Vol. 49-50. pp. 195-199.
RIS |
Цитировать
RIS Скопировать
TY - JOUR
DO - 10.1016/s0920-3796(00)00423-3
UR - https://doi.org/10.1016/s0920-3796(00)00423-3
TI - Energy removal and MHD performance of lithium capillary-pore systems for divertor target application
T2 - Fusion Engineering and Design
AU - Evtikhin, V.A.
AU - Lyublinski, I.E.
AU - Vertkov, A.V.
AU - Yezhov, N.I
AU - Khripunov, B.I.
AU - Sotnikov, S.M.
AU - Mirnov, S.V.
AU - Petrov, V.B.
PY - 2000
DA - 2000/11/01
PB - Elsevier
SP - 195-199
VL - 49-50
SN - 0920-3796
SN - 1873-7196
ER -
BibTex
Цитировать
BibTex (до 50 авторов) Скопировать
@article{2000_Evtikhin,
author = {V.A. Evtikhin and I.E. Lyublinski and A.V. Vertkov and N.I Yezhov and B.I. Khripunov and S.M. Sotnikov and S.V. Mirnov and V.B. Petrov},
title = {Energy removal and MHD performance of lithium capillary-pore systems for divertor target application},
journal = {Fusion Engineering and Design},
year = {2000},
volume = {49-50},
publisher = {Elsevier},
month = {nov},
url = {https://doi.org/10.1016/s0920-3796(00)00423-3},
pages = {195--199},
doi = {10.1016/s0920-3796(00)00423-3}
}