Title of article
Numerical simulation of CFC and tungsten target erosion in ITER-FEAT divertor
Author/Authors
Filatov، نويسنده , , V.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
6
From page
393
To page
398
Abstract
Physical, chemical and thermal surface erosion for water-cooled target armoured by CFC and tungsten is simulated by numerical code ERosion OF Immolated Layer (EROFIL-1). Some calculation results on the CFC and tungsten vertical target (VT) erosion in the ITER-FEAT divertor are presented for various operation modes (normal operations, slow transients, ELMs and disruptions). The main erosion mechanisms of CFC armour are the chemical and sublimation ones. Maximum erosion depth per 3000 cycles during normal operations and slow transients is of 2.7 mm at H phase and of 13.5 mm at DT phase. An evaluation of VT tungsten armour erosion per 3000 cycles of H and DT operations shows that no physical or chemical erosion as well as no melting are expected for tungsten armour at normal operations and slow transients. The tungsten armour melting at 2×106 ELMs is not allowable. The 300 disruptions are not dangerous in view of evaporation.
Keywords
erosion , Plasma-facing surface , CFC and tungsten armour , ITER divertor target
Journal title
Journal of Nuclear Materials
Serial Year
2003
Journal title
Journal of Nuclear Materials
Record number
1356998
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