Final design of ITER port plug test facility

被引:1
作者
Cerisier, Thierry [1 ]
Levesy, Bruno [1 ]
Romannikov, Alexander [2 ]
Rumyantsev, Yuri [3 ]
Cordier, Jean-Jacques [1 ]
Dammann, Alexis [1 ]
Minakov, Victor
Rosales, Natalya [3 ]
Mitrofanova, Elena [3 ]
Portone, Sergey [2 ]
Mironova, Ekaterina [2 ]
机构
[1] ITER Org, Route Vinon Sur Verdon,CS 90046, F-13067 St Paul Les Durance, France
[2] Inst Project Ctr ITER, Kurchatov Sq 1,Bldg 3, Moscow 123182, Russia
[3] JSC Cryogenmash, Balashikha 143907, Moscow Reg, Russia
来源
FUSION ENGINEERING AND DESIGN | 2016年 / 109卷
关键词
Acceptance test; Hot cell; Refurbishment; Vacuum; Port plug; PROGRESS;
D O I
10.1016/j.fusengdes.2015.12.064
中图分类号
TL [原子能技术]; O571 [原子核物理学];
学科分类号
0827 ; 082701 ;
摘要
To achieve the overall ITER machine availability target, the availability of diagnostics and heating port plugs shall be as high as 99.5%. To fulfill this requirement, it is mandatory to test the port plugs at operating temperature before installation on the machine and after refurbishment. The ITER port plug test facility (PPTF) is composed of several test stands that can be used to test the port plugs whereas at the end of manufacturing (in a non-nuclear environment), or after refurbishment in the ITER hot cell facility. The PPTF provides the possibility to perform environmental (leak tightness, vacuum and thermo-hydraulic performances) and functional tests (radio frequency acceptance tests, behavior of the plugs' steering mechanism and calibration of diagnostics) on upper and equatorial port plugs. The final design of the port plug test facility is described. The configuration of the standalone test stands and the integration" in the hot cell facility are presented. (C) 2016 Elsevier B.V. All rights reserved.
引用
收藏
页码:1153 / 1157
页数:5
相关论文
共 50 条
  • [31] Design progress for the ITER torus and neutral beam cryopumps
    Day, Chr.
    Haas, H.
    Hanke, St.
    Hauer, V.
    Luo, X.
    Scannapiego, M.
    Simon, R.
    Strobel, H.
    Fellin, F.
    Laesser, R.
    Masiello, A.
    Papastergiou, St.
    Dremel, M.
    Mayaux, Chr.
    Pearce, R.
    [J]. FUSION ENGINEERING AND DESIGN, 2011, 86 (9-11) : 2188 - 2191
  • [32] Mechanical design features and challenges for the ITER ICRH antenna
    Borthwick, A.
    Agarici, G.
    Davis, A.
    Dumortier, P.
    Durodie, F.
    Fanthome, J.
    Hamlyn-Harris, C.
    Hancock, A. D.
    Lockley, D.
    Mitteau, R.
    Nightingale, M.
    Sartori, R.
    Vulliez, K.
    [J]. FUSION ENGINEERING AND DESIGN, 2009, 84 (2-6) : 493 - 496
  • [33] FUSION NUCLEAR SCIENCE FACILITY (FNSF) BEFORE UPGRADE TO COMPONENT TEST FACILITY (CTF)
    Peng, Y. K. M.
    Canik, J. M.
    Diem, S. J.
    Milora, S. L.
    Park, J. M.
    Sontag, A. C.
    Fogarty, P. J.
    Lumsdaine, A.
    Murakami, M.
    Burgess, T. W.
    Cole, M. J.
    Katoh, Y.
    Korsah, K.
    Patton, B. D.
    Wagner, J. C.
    Yoder, G. L.
    Stambaugh, R.
    Staebler, G.
    Kotschenreuther, M.
    Valanju, P.
    Mahajan, S.
    Sawan, M.
    [J]. FUSION SCIENCE AND TECHNOLOGY, 2011, 60 (02) : 441 - 448
  • [34] Preliminary CFD and EM analysis of the ECRH equatorial launcher port plug prototype towards the CFETR
    Li, Dingzhen
    Tang, Yunying
    Zhang, Chao
    Wang, Hanlin
    Zhang, Liyuan
    Zhou, Nengtao
    Wang, Yuehang
    Wang, Xiaojie
    Liu, Fukun
    [J]. NUCLEAR MATERIALS AND ENERGY, 2023, 37
  • [35] Rail deployment and storage procedure and test for ITER blanket remote maintenance
    Kakudate, S
    Shibanuma, K
    [J]. FUSION ENGINEERING AND DESIGN, 2003, 65 (01) : 133 - 140
  • [36] Preparation of acceptance tests and criteria for the Test Blanket Systems to be operated in ITER
    van der Laan, J. G.
    Cuquel, B.
    Demange, D.
    Ghidersa, B. -E.
    Giancarli, L. M.
    Iseli, M.
    Jourdan, T.
    Neviere, J. -C.
    Pascal, R.
    Ring, W.
    [J]. FUSION ENGINEERING AND DESIGN, 2015, 98-99 : 1889 - 1892
  • [37] Overview of the ITER remote maintenance design and of the development activities in Europe
    Damiani, C.
    Palmer, J.
    Takeda, N.
    Annino, C.
    Balague, S.
    Bates, P.
    Bernal, S.
    Cornella, J.
    Dubus, G.
    Esque, S.
    Gonzalez, C.
    Ilkei, T.
    Lewczanin, M.
    Locke, D.
    Mont, L.
    Perrier, B.
    Puiu, A.
    Ruiz, E.
    Shuff, R.
    Van De Ven, N.
    Van Hille, C.
    Van Uffelen, M.
    Choi, C. H.
    Friconneau, J. P.
    Hamilton, D.
    Martin, J. P.
    Murakami, S.
    Reichle, R.
    Cuevas, J. Sanchez
    Maruyama, T.
    Noguchi, Y.
    Saito, M.
    [J]. FUSION ENGINEERING AND DESIGN, 2018, 136 : 1117 - 1124
  • [38] The ITER divertor pumping system, design evolution, simplification and performance
    Pearce, Robert John
    Antipenkov, Alexander
    Boussier, Bastien
    Bryan, Stephan
    Dremel, Matthias
    Levesy, Bruno
    Mayaux, Christian
    Wykes, Michael
    [J]. FUSION ENGINEERING AND DESIGN, 2013, 88 (6-8) : 809 - 813
  • [39] Oil-free evacuation design of space environment simulation test facility for high performance optical remote sensor
    Shuang, Wang
    [J]. 2015 INTERNATIONAL CONFERENCE ON OPTOELECTRONICS AND MICROELECTRONICS (ICOM), 2015, : 298 - 301
  • [40] PYROPROCESS FACILITY DESIGN FOR A NUCLEAR FUEL CYCLE
    You, G. S.
    Choung, W. M.
    Ku, J. H.
    Moon, Si
    Kim, H. D.
    [J]. PROCEEDINGS OF THE 21ST INTERNATIONAL CONFERENCE ON NUCLEAR ENGINEERING - 2013, VOL 5, 2014,
12345