Abstract
We analyzed plasma surface interaction issues for the planned Module-A static liquid lithium divertor for NSTX using coupled codes/models describing the plasma edge, divertor temperature, and erosion/redeposition, with input data from tokamak and laboratory experiments. A 300 nm lithium pre-shot deposited coating will strongly pump impinging D+ ions. This yields a low-recycle SOL plasma with high plasma temperature, Te ∼ 200-400 eV, low density, Ne ∼ 1-3 × 1018 m -3, and peak heat loads of ∼8-20 MW/m2, for 2-4 MW core plasma heating power. This regime has advantages for the NSTX physics mission. Peak surface temperature can be held to an acceptable ≤470 °C with moderate strike point sweeping (10 cm/s) using a carbon (for 2 MW) or Mo/Cu or W/Cu substrate (2-4 MW). Erosion/redeposition analysis shows acceptable coating lifetime for a 2 s pulse and low core plasma contamination by sputtered lithium.
| Original language | English (US) |
|---|---|
| Pages (from-to) | 1053-1057 |
| Number of pages | 5 |
| Journal | Journal of Nuclear Materials |
| Volume | 337-339 |
| Issue number | 1-3 SPEC. ISS. |
| DOIs | |
| State | Published - Mar 1 2005 |
Keywords
- Density control
- Divertor modeling
- Erosion/redeposition
- Lithium
- NSTX
ASJC Scopus subject areas
- Nuclear and High Energy Physics
- Materials Science(all)
- Nuclear Energy and Engineering