Depth profile and retention of hydrogen isotopes in graphite tiles used in the W-shaped divertor of JT-60U

“…Recent studies in JT-60U and JET indicate that carbon erosion and tritium retention in ITER could be smaller than the present estimation [12][13][14][15][16][17]. The purpose of this paper is not to deny the utilization of metallic materials as PFM but to suggest starting ITER with full carbon PFM.…”

“…In JT-60U, which is operated at 570 K with inertially cooled divertor structure, H/C in the deposited carbon on the outer divertor area was below 0.04 as seen in Table 1 [14]. The deposited carbon was not amorphous like but rather well graphitized and not easy to remove [31].…”

On the possibility of ITER starting with full carbon

“…Recent studies in JT-60U and JET indicate that carbon erosion and tritium retention in ITER could be smaller than the present estimation [12][13][14][15][16][17]. The purpose of this paper is not to deny the utilization of metallic materials as PFM but to suggest starting ITER with full carbon PFM.…”

“…In JT-60U, which is operated at 570 K with inertially cooled divertor structure, H/C in the deposited carbon on the outer divertor area was below 0.04 as seen in Table 1 [14]. The deposited carbon was not amorphous like but rather well graphitized and not easy to remove [31].…”

On the possibility of ITER starting with full carbon

“…According to recent retention studies of hydrogen isotopes (hydrogen, deuterium and tritium) in plasma facing graphite 0920-3796/$ -see front matter © 2005 Elsevier B.V. All rights reserved. doi:10.1016/j.fusengdes.2005.06.074 tiles used in JT-60U, most of tritium was implanted into plasma facing graphite tiles in the depth of micrometer range but not co-deposited with carbon, while hydrogen and deuterium were retained in very near surface [3][4][5][6][7]. In addition, hydrogen and deuterium distributions were quite different with each other showing much shallower depth profile for hydrogen.…”

Hydrogen isotope distributions and retentions in the inner divertor tile of JT-60U

“…T retention profile in the divertor area was completely separated from H and D profiles because most of T produced by DD reaction was implanted directly into the plasma facing surface without fully loosing its initial energy [28,29]. On the other hand, H and D retention profiles in the divertor region well correlated with the carbon deposition profiles [30]. The retained amount in the deposited layers, however, was very small (below 0.03 in (H + D)/C).…”

Overview of research and development activities on fusion nuclear technologies in Japan