TY - JOUR
T1 - The impact of large ELMs on JET
AU - Pitts, R. A.
AU - Arnoux, G.
AU - Beurskens, M.
AU - Eich, T.
AU - Fundamenski, W.
AU - Huber, A.
AU - Loarte, A.
AU - Marki, J.
AU - Stamp, M. F.
AU - Andrew, P.
AU - Brezinsek, S.
AU - Esser, H. G.
AU - Gulejova, B.
AU - Jachmich, S.
AU - Kreter, A.
AU - de la Luna, E.
AU - Matthews, G. F.
AU - Philipps, V.
AU - Solano, E.
PY - 2009/6/15
Y1 - 2009/6/15
N2 - To ensure sufficient divertor target lifetime, the loss in plasma stored energy due to ELMs in ITER should be restricted to ΔWELM ≤ 1 MJ. Only in JET, by virtue of its size, can such energies be approached. This contribution examines the impact of large, Type I ELMs in high current H-mode JET discharges with ITER-relevant pedestal characteristics. The ELMs provoke strong radiation losses, mostly confined to the inner divertor volume. Although the data are scattered, the average magnitude of this loss is ΔERAD ∼ 0.5ΔWELM, for ΔWELM < 0.55 MJ. For higher ΔWELM, greater fractional radiation losses occur, reaching ∼0.7ΔWELM at ΔWELM ∼ 0.9 MJ, indicating enhanced impurity release. Even at the highest ELM energies, peak divertor target surface temperatures are too low for carbon sublimation, suggesting that thermal decomposition and/or ablation of thick co-deposited layers on the inner target may be occurring. On average, across the range of energies studied, ELMs are found to deposit between 3-4.5% of ΔWELM on main wall limiters. When applied to the data for a specific discharge in the series, the model of ELM filament parallel energy losses developed at JET requires radial ELM velocities in the interval 0.1-0.65 km s-1 to explain these deposited energy fractions.
AB - To ensure sufficient divertor target lifetime, the loss in plasma stored energy due to ELMs in ITER should be restricted to ΔWELM ≤ 1 MJ. Only in JET, by virtue of its size, can such energies be approached. This contribution examines the impact of large, Type I ELMs in high current H-mode JET discharges with ITER-relevant pedestal characteristics. The ELMs provoke strong radiation losses, mostly confined to the inner divertor volume. Although the data are scattered, the average magnitude of this loss is ΔERAD ∼ 0.5ΔWELM, for ΔWELM < 0.55 MJ. For higher ΔWELM, greater fractional radiation losses occur, reaching ∼0.7ΔWELM at ΔWELM ∼ 0.9 MJ, indicating enhanced impurity release. Even at the highest ELM energies, peak divertor target surface temperatures are too low for carbon sublimation, suggesting that thermal decomposition and/or ablation of thick co-deposited layers on the inner target may be occurring. On average, across the range of energies studied, ELMs are found to deposit between 3-4.5% of ΔWELM on main wall limiters. When applied to the data for a specific discharge in the series, the model of ELM filament parallel energy losses developed at JET requires radial ELM velocities in the interval 0.1-0.65 km s-1 to explain these deposited energy fractions.
UR - https://www.scopus.com/pages/publications/67349279306
U2 - 10.1016/j.jnucmat.2009.01.201
DO - 10.1016/j.jnucmat.2009.01.201
M3 - Article
AN - SCOPUS:67349279306
SN - 0022-3115
VL - 390-391
SP - 755
EP - 759
JO - Journal of Nuclear Materials
JF - Journal of Nuclear Materials
IS - 1
ER -