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Experimental validation of a model for particle recycling and tungsten erosion during ELMs in the DIII-D divertor
- Source :
- Nuclear Materials and Energy, Vol 17, Iss, Pp 164-173 (2018)
- Publication Year :
- 2018
- Publisher :
- Elsevier BV, 2018.
-
Abstract
- A refined version of the Fundamenksi-Moulton 'free-streaming' model (FSM) for the dynamics of divertor density, particle flux, and heat flux during edge localized modes (ELMs) is presented. This model depends only on inter-ELM pedestal and divertor conditions and, crucially, incorporates particle recycling: a FSM with recycling model, FSRM. The effective particle recycling coefficient, Reff, is the only empirical fitting parameter in the FSRM. The predictions of the FSRM are systematically tested against a DIII-D database of ELM ion and energy fluence measurements and are shown to be consistent with the model across a wide range of pedestal and divertor conditions using a constant value of 0.96 for Reff . Predictions for W sputtering during ELMs are developed based on the FSRM. It is concluded that energetic free-streaming D+ ions and C6+ impurities are the dominant contributors to the intra-ELM gross erosion of W in the DIII-D divertor, i.e., recycling ions and impurities have relatively little impact on the total W sputtering rate. These calculations are also shown to be consistent with spectroscopic measurements of W gross erosion for three different pedestal conditions after incorporating the strong electron density dependence of the WI 400.8 nm ionizations/photon (S/XB) coefficient. Keywords: Tungsten sputtering, Tungsten Erosion, WI spectroscopy, Edge Localized Modes, Recycling
- Subjects :
- Nuclear and High Energy Physics
Electron density
Range (particle radiation)
Materials science
DIII-D
Materials Science (miscellaneous)
Divertor
lcsh:TK9001-9401
01 natural sciences
010305 fluids & plasmas
Ion
Pedestal
Nuclear Energy and Engineering
Heat flux
Sputtering
0103 physical sciences
lcsh:Nuclear engineering. Atomic power
Atomic physics
010306 general physics
Subjects
Details
- ISSN :
- 23521791
- Volume :
- 17
- Database :
- OpenAIRE
- Journal :
- Nuclear Materials and Energy
- Accession number :
- edsair.doi.dedup.....1c0bb10439b7dbb3e98ef17228958a8d