Heat flux analysis of Type-I ELM impact on a sloped, protruding surface in the JET bulk tungsten divertor

J. Gaspar; J.W. Coenen; Y. Corre; R. Dejarnac; M. Firdaouss; F. Clairet; J. Gunn; D. Iglesias; M. Komm; K. Krieger; G. Matthews; R.A. Pitts; S. Silburn

Nuclear Materials and Energy (Dec 2018)

Heat flux analysis of Type-I ELM impact on a sloped, protruding surface in the JET bulk tungsten divertor

J. Gaspar,
J.W. Coenen,
Y. Corre,
R. Dejarnac,
M. Firdaouss,
F. Clairet,
J. Gunn,
D. Iglesias,
M. Komm,
K. Krieger,
G. Matthews,
R.A. Pitts,
S. Silburn

Affiliations

J. Gaspar: CEA Cadarache, F-13108 St Paul lez Durance, France; Corresponding author.
J.W. Coenen: Forschungszentrum Jülich GmbH, Institut für Energie- und Klimaforschung – Plasmaphysik, 52425 Jülich, Germany
Y. Corre: CEA Cadarache, F-13108 St Paul lez Durance, France
R. Dejarnac: Institute of Plasma Physics, Czech Academy of Sciences, 182 00 Prague, Czech Republic
M. Firdaouss: CEA Cadarache, F-13108 St Paul lez Durance, France
F. Clairet: CEA Cadarache, F-13108 St Paul lez Durance, France
J. Gunn: CEA Cadarache, F-13108 St Paul lez Durance, France
D. Iglesias: CCFE, Culham Science Centre, Abingdon, OX 14 3DB, UK
M. Komm: Institute of Plasma Physics, Czech Academy of Sciences, 182 00 Prague, Czech Republic
K. Krieger: Max-Planck-Institut f. Plasmaphysik, Boltzmannstr. 2, D-85748 Garching, Germany
G. Matthews: CCFE, Culham Science Centre, Abingdon, OX 14 3DB, UK
R.A. Pitts: ITER Organisation, Route de Vinon-sur-Verdon, CS 90 046, F-13067 St Paul-lez-Durance cedex, France
S. Silburn: CCFE, Culham Science Centre, Abingdon, OX 14 3DB, UK

Journal volume & issue: Vol. 17
pp. 182 – 187

Abstract

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Tungsten (W) melting due to transient power loads, for example those delivered by edge localised modes (ELMs), is a major concern for next step fusion devices. A series of experiments has been performed on JET to investigate the dynamics of Type-I ELM-induced transient melting. Following initial exposures in 2013 of a W-lamella with sharp leading edge in the bulk W outer divertor, new experiments have been performed in 2016–2017 on a protruding W-lamella with a 15° slope, allowing direct and spatially resolved (0.85 mm/pixel) observation of the top surface using the IR thermography system viewing from the top of the poloidal cross-section. Thermal and IR analysis have already been conducted assuming the geometrical projection of the parallel heat flux on the W-lamellas, thus ignoring the gyro-radius orbit of plasma particles. Although it is well justified during L-mode or inter-ELM period, the hypothesis becomes questionable during ELM when the ion Larmor radius is larger. The goal of this paper is to extend the previous analysis based on the forward approach to the H-mode discharges and investigate in particular the gyro-radius effect during the Type-I ELMs, those used to achieve transient melting on the slope of the protruding W-lamella. Surface temperatures measured by the IR camera are compared with reconstructed synthetic data from 3D thermal modelling using heat loads derived from optical projection of the parallel heat flux (ignoring the gyro-radius orbit), 2D gyro-radius orbit and particle-in-cell (PIC) simulations describing the influence of finite Larmor-radius effects and electrical potential on the deposited power flux. Results show that the ELM power deposition behaves differently than the optical projection of the parallel heat flux, contrary to the L-mode observations, and may thus be due to the much larger gyro-orbits of the energetic ELM ions in comparison to L-mode or inter-ELM conditions. Keywords: ELM heat flux analysis, Optical projection, PIC modelling, Ion orbit modelling, IR data, Spatial resolution effect

Published in Nuclear Materials and Energy

ISSN: 2352-1791 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Nuclear engineering. Atomic power
Website: http://www.journals.elsevier.com/nuclear-materials-and-energy/

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