Fusion materials science and technology research opportunities now and during the ITER era

Fusion materials science and technology research opportunities now and during the ITER era

Several high-priority near-term potential research activities to address fusion nuclear science challenges are summarized. General recommendations include: (1) Research should be preferentially focused on the most technologically advanced options (i.e., options that have been developed at least thro...

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Veröffentlicht in:Fusion engineering and design 2014-10, Vol.89 (7-8), p.1579-1585
Hauptverfasser: Zinkle, S.J., Blanchard, J.P., Callis, R.W., Kessel, C.E., Kurtz, R.J., Lee, P.J., McCarthy, K.A., Morley, N.B., Najmabadi, F., Nygren, R.E., Tynan, G.R., Whyte, D.G., Willms, R.S., Wirth, B.D.
Format: Artikel
Sprache:eng
Schlagworte:
Breeding blankets
Cost engineering
DEMO
Exploration
Financing
Investment
MATERIALS SCIENCE
Mathematical models
Nuclear fusion
Plasma facing components
Recommendations
Reduced activation materials
Schedules
Tritium systems
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Zusammenfassung:Several high-priority near-term potential research activities to address fusion nuclear science challenges are summarized. General recommendations include: (1) Research should be preferentially focused on the most technologically advanced options (i.e., options that have been developed at least through the single-effects concept exploration stage, technology readiness levels >3), (2) Significant near-term progress can be achieved by modifying existing facilities and/or moderate investment in new medium-scale facilities, and (3) Computational modeling for fusion nuclear sciences is generally not yet sufficiently robust to enable truly predictive results to be obtained, but large reductions in risk, cost and schedule can be achieved by careful integration of experiment and modeling.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2014.02.048