Results 1 to 10 of about 217 (90)
Beryllium global erosion and deposition at JET-ILW simulated with ERO2.0 [PDF]
The recently developed Monte-Carlo code ERO2.0 is applied to the modelling of limited and diverted discharges at JET with the ITER-like wall (ILW). The global beryllium (Be) erosion and deposition is simulated and compared to experimental results from ...
J Romazanov, S Brezinsek, D Borodin
exaly +24 more sources
Tungsten migration in the open divertor region in the Large Helical Device is analyzed for validating the three-dimensional plasma-wall interaction simulation code ERO2.0.
M Shoji, G Kawamura, J Romazanov
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ERO2.0 predictions of nickel migration in the JET ITER-Like Wall
Nickel transport in the Joint European Torus with the ITER-like wall (JET-ILW) is predicted using the 3D Monte-Carlo code ERO2.0, simulating the erosion and deposition of impurities in 3D geometry and utilizing hydrogenic background plasmas generated by ...
M Groth, J Romazanov, S Brezinsek
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The deposition/erosion on optical diagnostic components—mirrors—is a critical issue in reactor class devices with long-pulsed high fluence plasma operation.
S. Rode +10 more
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EDGE2D-EIRENE simulations of nitrogen-seeded partially detached JET l-mode plasmas show that the divertor N I to N V radiation distributions are highly sensitive to the upstream electron density, and less sensitive to changes in the assumed cross-field ...
R. Mäenpää +11 more
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The three-dimensional Monte-Carlo impurity transport and plasma surface interaction code ERO2.0 is applied to a full-torus model for the Large Helical Device (LHD).
M Shoji, G Kawamura, J Romazanov
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Multi-staged ERO2.0 simulation of material erosion and deposition in recessed ITER mirror assemblies
In reactor class devices, with long pulse, high fluence plasma operation and with diagnostic systems that cannot easily be maintained, a critical issue is the deposition/erosion of wall materials and its impact on key optical diagnostic components ...
S Rode, S Brezinsek, A Kirschner
exaly +6 more sources
Surface morphology and its evolution during the plasma irradiation is known to have a large influence on the erosion and resulting lifetime of plasma-facing components as well as tritium retention.
A Eksaeva, D Borodin, J Romazanov
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Validation of the ERO2.0 code using W7-X and JET experiments and predictions for ITER operation
The paper provides an overview of recent modelling of global material erosion and deposition in the fusion devices Wendelstein 7-X (W7-X), JET and ITER using the Monte-Carlo code ERO2.0.
S Brezinsek, C Baumann, S Rode
exaly +7 more sources
In this paper, a numerical investigation of plasma–material interaction-relevant helium plasma experimental discharges in GyM linear device is presented, in which SOLPS-ITER and ERO2.0 codes are coupled for plasma background generation and material ...
A Uccello, X Bonnin, J Romazanov
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