THERMOMECHANICAL ANALYSIS OF TUNGSTEN PLASMA-FACING COMPONENTS UNDER TRANSIENT LOADING

被引:0
|
作者
Blanchard, James P. [1 ]
Martin, Carl J. [1 ]
机构
[1] Univ Wisconsin, 1500 Engn Dr, Madison, WI 53706 USA
来源
2015 IEEE 26TH SYMPOSIUM ON FUSION ENGINEERING (SOFE) | 2015年
关键词
fusion; first wall; divertor; disruption; edge localized modes (ELMs); DIVERTOR TARGET PLATE; POWER-PLANTS; ARIES;
D O I
暂无
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
The heat loading on plasma facing components provides one of the critical design challenges for the first wall and divertors for fusion power plants. To date, design of these components has focused on steady operating conditions, but the less understood transient edge localized modes and off normal loading conditions such as plasma disruption must also be considered. In this article, we summarize the current status of the thermomechanical design for divertors and first walls for a fusion nuclear science facility (FNSF). Additionally, predicted transient thermal loads on the plasma facing surfaces are summarized. The thermal responses of the divertor and first wall designs to the transient ELMs and disruption loads are then investigated and the viability of these designs discussed.
引用
收藏
页数:6
相关论文
共 50 条
  • [1] THERMOMECHANICAL ANALYSIS OF PLASMA-FACING COMPONENTS FOR SST-1 TOKAMAK
    Chaudhuri, Paritosh
    Santra, P.
    Parashar, S. K. S.
    Reddy, D. Chenna
    FUSION SCIENCE AND TECHNOLOGY, 2013, 63 (01) : 59 - 65
  • [2] Advanced solutions for beryllium and tungsten plasma-facing components
    Ibbott, C
    Jakeman, R
    Ando, T
    Chappuis, P
    Chiocchio, S
    Falter, H
    Ciric, D
    Federici, G
    Heidl, H
    Merola, M
    Plochl, L
    Rodig, M
    Tivey, R
    Vieider, G
    FUSION ENGINEERING AND DESIGN, 1998, 39-40 : 409 - 417
  • [3] Qualification of tungsten coatings on plasma-facing components for JET
    Maier, H.
    Neu, R.
    Greuner, H.
    Boeswirth, B.
    Balden, M.
    Lindig, S.
    Matthews, G. F.
    Rasinski, M.
    Wienhold, P.
    Wiltner, A.
    PHYSICA SCRIPTA, 2009, T138
  • [4] Tungsten as material for plasma-facing components in fusion devices
    Philipps, V.
    JOURNAL OF NUCLEAR MATERIALS, 2011, 415 (01) : S2 - S9
  • [5] Testing of Tungsten Plasma-Facing Components of a Divertor in PLM Plasma Device
    Budaev, V. P.
    Fedorovich, S. D.
    Dedov, A. V.
    Kavyrshin, D. I.
    Karpov, A. V.
    Lukashevsky, M. V.
    Zakharenkov, A. V.
    Gubkin, M. V.
    Tran, Q. V.
    Rogozin, K. A.
    Konkov, A. A.
    Gubanova, A. I.
    PHYSICS OF ATOMIC NUCLEI, 2024, 87 (SUPPL1) : S91 - S98
  • [6] Remobilization of tungsten dust from castellated plasma-facing components
    De Angeli, M.
    Tolias, P.
    Ratynskaia, S.
    Ripamonti, D.
    Riva, G.
    Bardin, S.
    Morgan, T.
    De Temmerman, G.
    NUCLEAR MATERIALS AND ENERGY, 2017, 12 : 536 - 540
  • [7] ITER plasma-facing components
    Merola, Mario
    Loesser, D.
    Martin, A.
    Chappuis, P.
    Mitteau, R.
    Komarov, V.
    Pitts, R. A.
    Gicquel, S.
    Barabash, V.
    Giancarli, L.
    Palmer, J.
    Nakahira, M.
    Loarte, A.
    Campbell, D.
    Eaton, R.
    Kukushkin, A.
    Sugihara, M.
    Zhang, F.
    Kim, C. S.
    Raffray, R.
    Ferrand, L.
    Yao, D.
    Sadakov, S.
    Furmanek, A.
    Rozov, V.
    Hirai, T.
    Escourbiac, F.
    Jokinen, T.
    Calcagno, B.
    Mori, S.
    FUSION ENGINEERING AND DESIGN, 2010, 85 (10-12) : 2312 - 2322
  • [8] Silicon Carbide as a tritium permeation barrier in tungsten plasma-facing components
    Wright, G. M.
    Durrett, M. G.
    Hoover, K. W.
    Kesler, L. A.
    JOURNAL OF NUCLEAR MATERIALS, 2015, 458 : 272 - 274
  • [9] Hydrogen in tungsten as plasma-facing material
    Roth, Joachim
    Schmid, Klaus
    PHYSICA SCRIPTA, 2011, T145
  • [10] Plasma-facing material alternatives to tungsten
    Brooks, J. N.
    El-Guebaly, L.
    Hassanein, A.
    Sizyuk, T.
    NUCLEAR FUSION, 2015, 55 (04)
12345