Power Exhaust is the most challenging gap, between the open Physics and Scenario problems, to be solved before starting the construction of DEMO. Even ITER will not be able to satisfactorily tackle the issue. In the ITER and DEMO accompanying program it should be strongly envisaged an experiment, where all the integrated problems of the power exhaust in burning plasmas are studied and possibly solved. FAST is a machine proposal designed to study, as main target, all the integrated problems connected with power exhaust. In particular, in this paper, we will present the possibility to compare, on the same discharge, the performances of a standard divertor and of a snowflake-like divertor.
FAST power exhaust in view of DEMO / Lontano, M.; Crisanti, F.; Calabrò, G.; Crescenzi, F.; DI GIRONIMO, Giuseppe; Maddaluno, G.; Martin, P.; PERICOLI RIDOLFINI, V.; Ramogida, G.; Roccella, S.; Valisa, M.; Zagorski, R.. - (2012). (Intervento presentato al convegno 27th Symposium on Fusion Technology (SOFT 2012) tenutosi a Liège, Belgium nel September 24-28, 2012).
FAST power exhaust in view of DEMO
DI GIRONIMO, GIUSEPPE;
2012
Abstract
Power Exhaust is the most challenging gap, between the open Physics and Scenario problems, to be solved before starting the construction of DEMO. Even ITER will not be able to satisfactorily tackle the issue. In the ITER and DEMO accompanying program it should be strongly envisaged an experiment, where all the integrated problems of the power exhaust in burning plasmas are studied and possibly solved. FAST is a machine proposal designed to study, as main target, all the integrated problems connected with power exhaust. In particular, in this paper, we will present the possibility to compare, on the same discharge, the performances of a standard divertor and of a snowflake-like divertor.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.