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Título : | Comparative study of different Sn wetted W CPSs exposed to NBI fluxes in the OLMAT facility |
Autor : | Oyarzabal, E. Tabares, F.L. Liniers, M. Alegre, D. Tafalla, D. McCarthy, K.J. de Castro, A. Morgan, T.W. Scholte, J.G.A. Iafrati, M. de la Cal, E. Voldimer, I. Ascasíbar, E. Soleto, A. OLMAT team |
Palabras clave : | CPS Liquid metals HHF facilities DEMO DEMO divertor PWI NBI |
Fecha de publicación : | 1-may-2023 |
Editorial : | Fusion Engineering and Design |
Citación : | [1] E. Oyarzabal et al, Fusion Engineering and Design 190 (2023) 113711. |
Citación : | 190;113711 |
Resumen : | Four different tin-wetted, tungsten CPS (Capillary Porous System) targets where exposed to NBI pulses in the
OLMAT High Heat flux (HHF) facility. They include two flexible ones placed on a TZM support (W meshes and W
felt) and two compact ones (sintered W disk and 3D printed W). A comparative study was performed using a fastframe
imaging camera and an infrared pyrometer. Surface temperature increase and homogeneity, particle
ejection, CPS damage and overall behaviour were studied for each case. Sn drop/accumulation at the lower part
of the targets was observed for all cases when they are heated up to around 400 ◦C except for the 3D printed W
target that has its own Sn deposit. The 3D printed W target presented the best results in all aspects, withstanding
heat pulses up to 58 MW/m2 in 100 ms without any damage or particle ejection. On the other hand, the W mesh
targets displayed damage at 20 MW/m2 due to a bad thermal contact with the deposit, while the sintered W disk
developed a crack during a series of 15 MW/m2 NBI pulses. As might be expected, a reduced increase of temperature
during pulses is observed for the two compact W targets. The results and their relevance for the design
of a Sn wetted W CPS for application as a DEMO-divertor material are discussed in the present work. |
URI : | http://documenta.ciemat.es/handle/123456789/2638 |
ISSN : | 0920-3796 |
Aparece en las colecciones: | Artículos del Laboratorio Nacional de Fusión
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