Modelling of pulsed and steady-state DEMO scenarios

Modelling of pulsed and steady-state DEMO scenarios

Scenario modelling for the demonstration fusion reactor (DEMO) has been carried out using a variety of simulation codes. Two DEMO concepts have been analysed: a pulsed tokamak, characterized by rather conventional physics and technology assumptions (DEMO1) and a steady-state tokamak, with moderately...

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Veröffentlicht in:Nuclear fusion 2015-07, Vol.55 (7), p.73002-14
Hauptverfasser: Giruzzi, G., Artaud, J.F., Baruzzo, M., Bolzonella, T., Fable, E., Garzotti, L., Ivanova-Stanik, I., Kemp, R., King, D.B., Schneider, M., Stankiewicz, R., St pniewski, W., Vincenzi, P., Ward, D., Zagórski, R.
Format: Artikel
Sprache:eng
Schlagworte:
Computer simulation
DEMO
fusion reactor
Fusion reactors
Modelling
Nuclear power generation
Nuclear power plants
Nuclear reactor components
plasma scenario
Tokamak devices
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Zusammenfassung:Scenario modelling for the demonstration fusion reactor (DEMO) has been carried out using a variety of simulation codes. Two DEMO concepts have been analysed: a pulsed tokamak, characterized by rather conventional physics and technology assumptions (DEMO1) and a steady-state tokamak, with moderately advanced physics and technology assumptions (DEMO2). Sensitivity to impurity concentrations, radiation, and heat transport models has been investigated. For DEMO2, the impact of current driven non-inductively by neutral beams has been studied by full Monte Carlo simulations of the fast ion distribution. The results obtained are a part of a more extensive research and development (R&D) effort carried out in the EU in order to develop a viable option for a DEMO reactor, to be adopted after ITER for fusion energy research.
ISSN:0029-5515
1741-4326
DOI:10.1088/0029-5515/55/7/073002