Scaling of L-mode heat flux for ITER and COMPASS-U divertors, based on five tokamaks

0519223 - ÚFP 2020 RIV US eng A - Abstrakt
Horáček, Jan - Seidl, Jakub - Komm, Michael - Jiráková, Kateřina - Hron, Martin - Jaulmes, Fabien - Adámek, Jiří - Matthews, G. F. - Elmore, S. - Thornton, A. - Deng, G. - Gao, X. - Wang, L. - Ding, R. - Olsen, J. - Rasmussen, J.J. - Nielsen, A.H. - Naulin, V. - Brunner, D. - LaBombard, B. - Jardin, A. - Ezzat, M. - Camacho, K. - Guillemaut, C.
Scaling of L-mode heat flux for ITER and COMPASS-U divertors, based on five tokamaks.
Bulletin of the American Physical Society. New York: American Physical Society, 2019. ISSN 0003-0503.
[DPP19 Meeting ofThe American Physical Society. 21.10.2019-25.10.2019, Fort Lauderdale]
Institucionální podpora: RVO:61389021
Klíčová slova: ITER * COMPASS * heat flux
Obor OECD: Fluids and plasma physics (including surface physics)
http://absimage.aps.org/image/DPP19/MWS_DPP19-2019-000640.pdf

Based on Nuclear Fusion paper, we improve scalings of divertor L-modepower decay length. We employ data from tokamaks JET, EAST, MAST, AlcatorC-mod and COMPASS and validate it against 2D turbulence simulation HESEL.The analysis covers 500 divertor heat ux pro les with 11 varying global plasmaparameters. We see that two previously published scalings describe well only partof the database. We therefore derive 20 new scalings describing 86-93 % of themeasured decay length variability. We so-predict for attached highest current L-mode in ITER: 10-20 MW/m2surface perpendicular heat ux and twice that forCOMPASS-Upgrade.
Trvalý link: http://hdl.handle.net/11104/0304237