Thermal analysis of protruding surfaces in the JET divertor

Corre, Y.; Iglesias, D.; Dejarnac, R.; Gaspar, J.; Coenen, J. W.; Balboa, I.; Firdaouss, M.; Rack, M.; Coffey, I.; Pitts, R. A.; Bunting, P.; Silburn, S. A.; Jachmich, S.; Matthews, G. F.; Gauthier, E.; Krieger, K.

doi:10.1088/1741-4326/aa687e

Journal Article

FZJ-2017-05347

Thermal analysis of protruding surfaces in the JET divertor

Corre, Y. (Corresponding author) ; Bunting, P. ; Coenen, J. W.FZJ* ; Gaspar, J. ; Iglesias, D. ; Matthews, G. F. ; Balboa, I. ; Coffey, I. ; Dejarnac, R. ; Firdaouss, M. ; Gauthier, E. ; Jachmich, S.FZJ* ; Krieger, K. ; Pitts, R. A. ; Rack, M.FZJ* ; Silburn, S. A.

2017
IAEA Vienna

Nuclear fusion 57(6), 066009 - (2017) [10.1088/1741-4326/aa687e]

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Please use a persistent id in citations: doi:10.1088/1741-4326/aa687e

Abstract: Tungsten (W) melting is a major concern for next step fusion devices. Two ELM induced tungsten melting experiments have been performed in JET by introducing two special target plate lamellae designed to receive excessively high ELM transient power loads. The first experiment was performed in JET in 2013 using a special lamella with a sharp leading edge gradually varying from h = 0.25 mm to 2.5 mm in order to maximise the temperature rise by exposure to the full parallel heat flux. ELM-induced transient melting has been successively achieved allowing investigation of the melt motion. However, using the available IR viewing geometry from the top, it was not possible to directly discriminate between the top and leading edge power loads. To improve the experimental validation of heat load and melt motion modelling codes, a new protruding W lamella with a 15° slope facing the toroidal direction has been installed for the 2015–16 campaigns, allowing direct, spatially resolved observation of the top surface and reduced sensitivity of the analysis to the surface incidence angle of the magnetic field. This paper reports on the results of these more recent experiments, with specific focus on IR data analysis and heat flux calculations during L-mode discharges in order to investigate the behaviour of the W lamella with steady state heat load, which is a prerequisite for the more complex ELMing H-mode discharges (including both, steady and transient heat loads). It shows that, at least in L-mode, the assumption of optical heat flux projection is justified.

Classification:

ddc:530

Contributing Institute(s):

Plasmaphysik (IEK-4)

Research Program(s):

174 - Plasma-Wall-Interaction (POF3-174) (POF3-174)

Appears in the scientific report 2017

Database coverage:
Current Contents - Physical, Chemical and Earth Sciences ; Ebsco Academic Search ; IF < 5 ; JCR ; National-Konsortium ; Nationallizenz

; SCOPUS ; Science Citation Index ; Science Citation Index Expanded ; Thomson Reuters Master Journal List ; Web of Science Core Collection

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Document types > Articles > Journal Article
Institute Collections > IFN > IFN-1
Workflow collections > Public records
IEK > IEK-4
Publications database

Record created 2017-07-28, last modified 2024-07-11

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