Activation of TZM and stainless steel divertor materials in the NET fusion machine

Activation of TZM and stainless steel divertor materials in the NET fusion machine

This paper presents the results of the activation and decay heat calculations for the divertor plate materials of the Next European Torus (NET). The basic option assessed enables Mo alloy TZM and AISI 316L as material for divertor cooling channels. Burn time, effective irradiation time history, and...

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Veröffentlicht in:Journal of nuclear materials 1993-09, Vol.212-215, p.644-648
Hauptverfasser: Cepraga, D G, Menapace, E, Cambi, G, Ciattaglia, S, Petrizzi, L, Cavallone, G, Costa, M, Broccoli, U
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Sprache:eng
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Zusammenfassung:This paper presents the results of the activation and decay heat calculations for the divertor plate materials of the Next European Torus (NET). The basic option assessed enables Mo alloy TZM and AISI 316L as material for divertor cooling channels. Burn time, effective irradiation time history, and fluence dependence on activation, decay heat, and contact dose is assessed. Impact of the material impurity level on the radioactive inventory is also investigated. The ANITA code is used, with updated cross sections and decay data libraries based on EFF-2 and EAF-3 evaluation files. The flux-weighted spectrum provided by XSDRNPM or ANISN 1-D codes has been used. The real NET geometry was modelled with the 3-D MCNP Monte Carlo neutron transport code.
ISSN:0022-3115