@article{9174,
  author = {F. Subba and W. van Uytven and S. Wiesen},
  title = {Power Exhaust scenarios for EU-DEMO},
  abstract = {<p>We present an analysis of possible power exhaust scenarios for EU-DEMO. We employ the SOLPS-ITER code with the newly developed Advanced Fluid Neutral model to scan a relatively wide range of neutral pressure divertor and impurity concentration in the core to test the existence of a suitable finite-extension operational space. Ideally, such a region should provide low target power fluxes, negligible erosion, high He divertor compression, and low impurity core concentration. Within the approximations of our model, we identified a non empty region where this long set of constraints can be satisfied. Here we use the constraints q{max} &lt;=10 MWm-2, Z eff &lt;= 1.2 and T_e &lt;= 5 eV, the latter being a proxy for detachment. This region corresponds to an upstream density within the range n e, up = 0.5-0.7 n e, GW (large but not necessarily prohibitive), Ar separatrix concentration &lt;=10 -3 and divertor neutral pressure ranging from 40 to 50 Pa. This is encouraging, in view of a more detailed analysis to be performed on the best-performance area.</p>},
  year = {2025},
  journal = {Nuclear Fusion},
  volume = {65},
  pages = {086024},
  publisher = {IOP Publishing},
  doi = {10.1088/1741-4326/adeac2},
  language = {eng},
}