ITER plasma-facing components

Mario Merola; D. Loesser; A. Martin; P. Chappuis; R. Mitteau; V. Komarov; R. A. Pitts; S. Gicquel; V. Barabash; L. Giancarli; J. Palmer; M. Nakahira; A. Loarte; D. Campbell; R. Eaton; A. Kukushkin; M. Sugihara; F. Zhang; C. S. Kim; R. Raffray; L. Ferrand; D. Yao; S. Sadakov; A. Furmanek; V. Rozov; T. Hirai; F. Escourbiac; T. Jokinen; B. Calcagno; S. Mori

doi:10.1016/j.fusengdes.2010.09.013

ITER plasma-facing components

Mario Merola, D. Loesser, A. Martin, P. Chappuis, R. Mitteau, V. Komarov, R. A. Pitts, S. Gicquel, V. Barabash, L. Giancarli, J. Palmer, M. Nakahira, A. Loarte, D. Campbell, R. Eaton, A. Kukushkin, M. Sugihara, F. Zhang, C. S. Kim, R. RaffrayL. Ferrand, D. Yao, S. Sadakov, A. Furmanek, V. Rozov, T. Hirai, F. Escourbiac, T. Jokinen, B. Calcagno, S. Mori

PPPL Engineering

Research output: Contribution to journal › Article › peer-review

164 Scopus citations

Abstract

The ITER plasma-facing components directly face the thermonuclear plasma and include the divertor, the blanket and the test blanket modules with their corresponding frames. The divertor is located at the bottom of the plasma chamber and is aimed at exhausting the major part of the plasma thermal power (including alpha power) and at minimising the helium and impurity content in the plasma. The blanket system provides a physical boundary for the plasma transients and contributes to the thermal and nuclear shielding of the vacuum vessel and external machine components. It consists of modular shielding elements known as blanket modules which are attached to the vacuum vessel. Each blanket module consists of two major components: a plasma-facing first wall panel and a shield block. The test blanket modules are mock-ups of DEMO breeding blankets. There are three ITER equatorial ports devoted to test blanket modules, each of them providing for the allocation of two breeding modules inserted in a steel frame and in front of a shield block.

Original language	English (US)
Pages (from-to)	2312-2322
Number of pages	11
Journal	Fusion Engineering and Design
Volume	85
Issue number	10-12
DOIs	https://doi.org/10.1016/j.fusengdes.2010.09.013
State	Published - Dec 2010

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

Keywords

Blanket
Divertor
First wall
High heat flux components
ITER

Access to Document

10.1016/j.fusengdes.2010.09.013

Cite this

Merola, M., 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., ... Mori, S. (2010). ITER plasma-facing components. Fusion Engineering and Design, 85(10-12), 2312-2322. https://doi.org/10.1016/j.fusengdes.2010.09.013

@article{8f2303714f574127a4352d71cfa7ac2d,

title = "ITER plasma-facing components",

abstract = "The ITER plasma-facing components directly face the thermonuclear plasma and include the divertor, the blanket and the test blanket modules with their corresponding frames. The divertor is located at the bottom of the plasma chamber and is aimed at exhausting the major part of the plasma thermal power (including alpha power) and at minimising the helium and impurity content in the plasma. The blanket system provides a physical boundary for the plasma transients and contributes to the thermal and nuclear shielding of the vacuum vessel and external machine components. It consists of modular shielding elements known as blanket modules which are attached to the vacuum vessel. Each blanket module consists of two major components: a plasma-facing first wall panel and a shield block. The test blanket modules are mock-ups of DEMO breeding blankets. There are three ITER equatorial ports devoted to test blanket modules, each of them providing for the allocation of two breeding modules inserted in a steel frame and in front of a shield block.",

keywords = "Blanket, Divertor, First wall, High heat flux components, ITER",

author = "Mario Merola and D. Loesser and A. Martin and P. Chappuis and R. Mitteau and V. Komarov and Pitts, \{R. A.\} and S. Gicquel and V. Barabash and L. Giancarli and J. Palmer and M. Nakahira and A. Loarte and D. Campbell and R. Eaton and A. Kukushkin and M. Sugihara and F. Zhang and Kim, \{C. S.\} and R. Raffray and L. Ferrand and D. Yao and S. Sadakov and A. Furmanek and V. Rozov and T. Hirai and F. Escourbiac and T. Jokinen and B. Calcagno and S. Mori",

year = "2010",

month = dec,

doi = "10.1016/j.fusengdes.2010.09.013",

language = "English (US)",

volume = "85",

pages = "2312--2322",

journal = "Fusion Engineering and Design",

issn = "0920-3796",

publisher = "Elsevier B.V.",

number = "10-12",

}

Merola, M, Loesser, D, Martin, A, Chappuis, P, Mitteau, R, Komarov, V, Pitts, RA, Gicquel, S, Barabash, V, Giancarli, L, Palmer, J, Nakahira, M, Loarte, A, Campbell, D, Eaton, R, Kukushkin, A, Sugihara, M, Zhang, F, Kim, CS, Raffray, R, Ferrand, L, Yao, D, Sadakov, S, Furmanek, A, Rozov, V, Hirai, T, Escourbiac, F, Jokinen, T, Calcagno, B & Mori, S 2010, 'ITER plasma-facing components', Fusion Engineering and Design, vol. 85, no. 10-12, pp. 2312-2322. https://doi.org/10.1016/j.fusengdes.2010.09.013

TY - JOUR

T1 - ITER plasma-facing components

AU - Merola, Mario

AU - Loesser, D.

AU - Martin, A.

AU - Chappuis, P.

AU - Mitteau, R.

AU - Komarov, V.

AU - Pitts, R. A.

AU - Gicquel, S.

AU - Barabash, V.

AU - Giancarli, L.

AU - Palmer, J.

AU - Nakahira, M.

AU - Loarte, A.

AU - Campbell, D.

AU - Eaton, R.

AU - Kukushkin, A.

AU - Sugihara, M.

AU - Zhang, F.

AU - Kim, C. S.

AU - Raffray, R.

AU - Ferrand, L.

AU - Yao, D.

AU - Sadakov, S.

AU - Furmanek, A.

AU - Rozov, V.

AU - Hirai, T.

AU - Escourbiac, F.

AU - Jokinen, T.

AU - Calcagno, B.

AU - Mori, S.

PY - 2010/12

Y1 - 2010/12

N2 - The ITER plasma-facing components directly face the thermonuclear plasma and include the divertor, the blanket and the test blanket modules with their corresponding frames. The divertor is located at the bottom of the plasma chamber and is aimed at exhausting the major part of the plasma thermal power (including alpha power) and at minimising the helium and impurity content in the plasma. The blanket system provides a physical boundary for the plasma transients and contributes to the thermal and nuclear shielding of the vacuum vessel and external machine components. It consists of modular shielding elements known as blanket modules which are attached to the vacuum vessel. Each blanket module consists of two major components: a plasma-facing first wall panel and a shield block. The test blanket modules are mock-ups of DEMO breeding blankets. There are three ITER equatorial ports devoted to test blanket modules, each of them providing for the allocation of two breeding modules inserted in a steel frame and in front of a shield block.

AB - The ITER plasma-facing components directly face the thermonuclear plasma and include the divertor, the blanket and the test blanket modules with their corresponding frames. The divertor is located at the bottom of the plasma chamber and is aimed at exhausting the major part of the plasma thermal power (including alpha power) and at minimising the helium and impurity content in the plasma. The blanket system provides a physical boundary for the plasma transients and contributes to the thermal and nuclear shielding of the vacuum vessel and external machine components. It consists of modular shielding elements known as blanket modules which are attached to the vacuum vessel. Each blanket module consists of two major components: a plasma-facing first wall panel and a shield block. The test blanket modules are mock-ups of DEMO breeding blankets. There are three ITER equatorial ports devoted to test blanket modules, each of them providing for the allocation of two breeding modules inserted in a steel frame and in front of a shield block.

KW - Blanket

KW - Divertor

KW - First wall

KW - High heat flux components

KW - ITER

UR - https://www.scopus.com/pages/publications/78649699077

UR - https://www.scopus.com/inward/citedby.url?scp=78649699077&partnerID=8YFLogxK

U2 - 10.1016/j.fusengdes.2010.09.013

DO - 10.1016/j.fusengdes.2010.09.013

M3 - Article

AN - SCOPUS:78649699077

SN - 0920-3796

VL - 85

SP - 2312

EP - 2322

JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

IS - 10-12

ER -

ITER plasma-facing components

Abstract

All Science Journal Classification (ASJC) codes

Keywords

Access to Document

Other files and links

Fingerprint

Cite this