Please use this identifier to cite or link to this item: http://hdl.handle.net/2067/47298
Title: Limiters for DEMO wall protection: Initial design concepts & technology options
Authors: You, J. H.
Bachmann, C.
Belardi, V. G.
Binder, M.
Bowden, D.
Calabrò, G. 
Fanelli, Pierluigi 
Fursdon, M.
Garkusha, I. E.
Gerashchenko, S.
Hunger, K.
de Luca, R.
Makhlai, V. A.
Mantel, N.
Maviglia, F.
Müller, A. V.
Nemati, N.
Roberts, J.
Vivio, F.
Vizvary, Z.
Zhang, K.
Journal: FUSION ENGINEERING AND DESIGN 
Issue Date: 2022
Abstract: 
Off-normal macroscopic plasma instabilities which possibly occur in a fusion power plant represent the most critical operational accidents and pose a serious risk to economically viable exploitation of fusion power. During such an instability, a huge amount of plasma energy is rapidly deposited onto the plasma-facing first wall in form of extreme heat flux. Such heavy thermal shocks can cause severe damages or a fatal failure of the first wall even by a single event. This issue is a serious design concern raising the requirement of a wall protection strategy. To cope with this issue, the European DEMO project adopted the limiter concept. The limiters equipped with tungsten sacrificial armor shall be installed at those wall areas where plasma contact is expected to be probable. To implement the limiter concept, comprehensive engineering studies have been conducted including conceptual design of the plasma facing component and technology R&D for armor material and joining. In this overview paper, the background of the wall protection issue and its implication on design and materials are explained and the outcomes from the recent project period (2019-20) are reported. The focus is placed on the technology achievement related to the development of novel lattice-type tungsten armor material fabricated by an innovative additive manufacturing process. Interim results from the extreme and medium heat flux tests and the joining trials for tungsten-to-heat sink material (copper or steel) are also addressed. The design rationale and the interpretation of the test data are supported by computational simulations.
URI: http://hdl.handle.net/2067/47298
ISSN: 0920-3796
DOI: 10.1016/j.fusengdes.2021.112988
Appears in Collections:A1. Articolo in rivista

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