The edge transport modelling of (Formula presented.) EU-DEMO burning plasma is performed by SOLPS-ITER transport code with kinetic neutrals and full drifts and currents switched on. The efficiency of Ar and Ne as a divertor radiant is compared for such a condition. It is found from simulations that both Ar and Ne are suitable to reduce the target heat loads below (Formula presented.), and to achieve similar profiles at the OMP and along targets, however, Ne seeding rate should be 4.5 times bigger than that of Ar. Analysis of impurity transport results in that Ar is better compressed in divertor than Ne. With both radiants up to 70% of power flux to the computational domain is irradiated, core (Formula presented.) does not exceed 2.5, core radiation is negligible (less than 8.5% of income power), neutral deuterium pressure in the private flux region is 20 Pa. However, the electron temperature along targets does not reduce below 15 eV in the far scrape-off layer, which may cause high level of tungsten sputtering.

SOLPS-ITER EU-DEMO modelling with drifts and kinetic neutrals / Vekshina, E.; Korzueva, V.; Rozhansky, V.; Senichenkov, I.; Kaveeva, E.; Veselova, I.; Coster, D.; Subba, F.. - In: CONTRIBUTIONS TO PLASMA PHYSICS. - ISSN 0863-1042. - ELETTRONICO. - (2022). [10.1002/ctpp.202100176]

SOLPS-ITER EU-DEMO modelling with drifts and kinetic neutrals

Subba F.
2022

Abstract

The edge transport modelling of (Formula presented.) EU-DEMO burning plasma is performed by SOLPS-ITER transport code with kinetic neutrals and full drifts and currents switched on. The efficiency of Ar and Ne as a divertor radiant is compared for such a condition. It is found from simulations that both Ar and Ne are suitable to reduce the target heat loads below (Formula presented.), and to achieve similar profiles at the OMP and along targets, however, Ne seeding rate should be 4.5 times bigger than that of Ar. Analysis of impurity transport results in that Ar is better compressed in divertor than Ne. With both radiants up to 70% of power flux to the computational domain is irradiated, core (Formula presented.) does not exceed 2.5, core radiation is negligible (less than 8.5% of income power), neutral deuterium pressure in the private flux region is 20 Pa. However, the electron temperature along targets does not reduce below 15 eV in the far scrape-off layer, which may cause high level of tungsten sputtering.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2959506