European divertor target concepts for DEMO: Design rationales and high heat flux performance

European divertor target concepts for DEMO: Design rationales and high heat flux performance

The divertor target plates are the most thermally loaded in-vessel components in a fusion reactor where high heat fluxes are produced on the plasma-facing components (PFCs) by intense plasma bombardment, radiation and nuclear heating. For reliable exhaust of huge thermal power, robust and durable di...

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Main Authors: J.H. You, E. Visca, T. Barrett, B. Böswirth, F. Crescenzi, F. Domptail, M. Fursdon, F. Gallay, B-E. Ghidersa, H. Greuner, M. Li, A.v. Müller, J. Reiser, M. Richou, S. Roccella, Ch. Vorpahl
Format: Article
Language:English
Published: Elsevier 2018-08-01
Series:Nuclear Materials and Energy
Online Access:http://www.sciencedirect.com/science/article/pii/S2352179118300437
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spelling doaj-c740c5a5462f40129b8c9c84b2f7bba12020-11-24T23:25:33ZengElsevierNuclear Materials and Energy2352-17912018-08-0116111European divertor target concepts for DEMO: Design rationales and high heat flux performanceJ.H. You0E. Visca1T. Barrett2B. Böswirth3F. Crescenzi4F. Domptail5M. Fursdon6F. Gallay7B-E. Ghidersa8H. Greuner9M. Li10A.v. Müller11J. Reiser12M. Richou13S. Roccella14Ch. Vorpahl15Max Planck Institute for Plasma Physics, Boltzmann Str. 2, Garching 85748, Germany; Corresponding author.ENEA, Department of Fusion and Technology for Nuclear Safety and Security, via E. Fermi 45, Frascati, ItalyCCFE, Culham Science Centre, Abingdon OX14 3DB, United KingdomMax Planck Institute for Plasma Physics, Boltzmann Str. 2, Garching 85748, GermanyENEA, Department of Fusion and Technology for Nuclear Safety and Security, via E. Fermi 45, Frascati, ItalyCCFE, Culham Science Centre, Abingdon OX14 3DB, United KingdomCCFE, Culham Science Centre, Abingdon OX14 3DB, United KingdomCEA, IRFM, F-13108 Saint Paul Lez Durance, FranceKIT, IAM, Hermann-von-Helmholtz-Platz 1, Eggenstein-Leopoldshafen 76344, GermanyMax Planck Institute for Plasma Physics, Boltzmann Str. 2, Garching 85748, GermanyMax Planck Institute for Plasma Physics, Boltzmann Str. 2, Garching 85748, GermanyMax Planck Institute for Plasma Physics, Boltzmann Str. 2, Garching 85748, GermanyKIT, IAM, Hermann-von-Helmholtz-Platz 1, Eggenstein-Leopoldshafen 76344, GermanyCEA, IRFM, F-13108 Saint Paul Lez Durance, FranceENEA, Department of Fusion and Technology for Nuclear Safety and Security, via E. Fermi 45, Frascati, ItalyEUROfusion, PMU PPPT, Boltzmann Str. 2, Garching 85748, GermanyThe divertor target plates are the most thermally loaded in-vessel components in a fusion reactor where high heat fluxes are produced on the plasma-facing components (PFCs) by intense plasma bombardment, radiation and nuclear heating. For reliable exhaust of huge thermal power, robust and durable divertor target PFCs with a sufficiently large heat removal capability and lifetime has to be developed. Since 2014 in the framework of the preconceptual design activities of the EUROfusion DEMO project, integrated R&D efforts have been made in the subproject ‘Target development’ of the work package ‘Divertor’ to develop divertor target PFCs for DEMO. Recently, the first R&D phase was concluded where six (partly novel) target PFC concepts were developed and evaluated by means of non-destructive inspections and high-heat-flux fatigue testing. In this paper, the major achievements of the first phase activities in this subproject are presented focusing on the design rationales of the target PFC concepts, technology options employed for small-scale mock-up fabrication and the results of the first round high-heat-flux qualification test campaign. It is reported that the mock-ups of three PFC concepts survived up to 500 loading cycles at 20 MW/m² (with hot water cooling at 130 °C) without any discernable indication of degradation in performance or structural integrity. Keywords: DEMO, Divertor targets, High-heat-flux, Plasma-facing component, Composites, EUROfusionhttp://www.sciencedirect.com/science/article/pii/S2352179118300437
collection DOAJ
language English
format Article
sources DOAJ
author J.H. You
E. Visca
T. Barrett
B. Böswirth
F. Crescenzi
F. Domptail
M. Fursdon
F. Gallay
B-E. Ghidersa
H. Greuner
M. Li
A.v. Müller
J. Reiser
M. Richou
S. Roccella
Ch. Vorpahl
spellingShingle J.H. You
E. Visca
T. Barrett
B. Böswirth
F. Crescenzi
F. Domptail
M. Fursdon
F. Gallay
B-E. Ghidersa
H. Greuner
M. Li
A.v. Müller
J. Reiser
M. Richou
S. Roccella
Ch. Vorpahl
European divertor target concepts for DEMO: Design rationales and high heat flux performance
Nuclear Materials and Energy
author_facet J.H. You
E. Visca
T. Barrett
B. Böswirth
F. Crescenzi
F. Domptail
M. Fursdon
F. Gallay
B-E. Ghidersa
H. Greuner
M. Li
A.v. Müller
J. Reiser
M. Richou
S. Roccella
Ch. Vorpahl
author_sort J.H. You
title European divertor target concepts for DEMO: Design rationales and high heat flux performance
title_short European divertor target concepts for DEMO: Design rationales and high heat flux performance
title_full European divertor target concepts for DEMO: Design rationales and high heat flux performance
title_fullStr European divertor target concepts for DEMO: Design rationales and high heat flux performance
title_full_unstemmed European divertor target concepts for DEMO: Design rationales and high heat flux performance
title_sort european divertor target concepts for demo: design rationales and high heat flux performance
publisher Elsevier
series Nuclear Materials and Energy
issn 2352-1791
publishDate 2018-08-01
description The divertor target plates are the most thermally loaded in-vessel components in a fusion reactor where high heat fluxes are produced on the plasma-facing components (PFCs) by intense plasma bombardment, radiation and nuclear heating. For reliable exhaust of huge thermal power, robust and durable divertor target PFCs with a sufficiently large heat removal capability and lifetime has to be developed. Since 2014 in the framework of the preconceptual design activities of the EUROfusion DEMO project, integrated R&D efforts have been made in the subproject ‘Target development’ of the work package ‘Divertor’ to develop divertor target PFCs for DEMO. Recently, the first R&D phase was concluded where six (partly novel) target PFC concepts were developed and evaluated by means of non-destructive inspections and high-heat-flux fatigue testing. In this paper, the major achievements of the first phase activities in this subproject are presented focusing on the design rationales of the target PFC concepts, technology options employed for small-scale mock-up fabrication and the results of the first round high-heat-flux qualification test campaign. It is reported that the mock-ups of three PFC concepts survived up to 500 loading cycles at 20 MW/m² (with hot water cooling at 130 °C) without any discernable indication of degradation in performance or structural integrity. Keywords: DEMO, Divertor targets, High-heat-flux, Plasma-facing component, Composites, EUROfusion
url http://www.sciencedirect.com/science/article/pii/S2352179118300437
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