Outline of the ITER Design/Assumptions
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Alberto Loarte 7 th ITPA Divertor Meeting – Toronto 6/9 – 11 – 2006 1 ITER Issue Card START-UP-1. Limitations to plasma start-up and optimize shaping flexibility for ITER Scenarios G. Federici, A.Loarte, H. D. Pacher, G. W. Pacher, A. Kukuskhin, T. Luce, A. Sips, A. Leonard, R. Stambaugh, C. Kessel
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ITER Issue Card START-UP-1. Limitations to plasma start-up and optimize shaping flexibility for ITER Scenarios. G. Federici, A.Loarte, H. D. Pacher, G. W. Pacher, A. Kukuskhin, T. Luce, A. Sips, A. Leonard, R. Stambaugh, C. Kessel. Outline of the ITER Design/Assumptions. - PowerPoint PPT Presentation
Transcript of Outline of the ITER Design/Assumptions
Alberto Loarte 7th ITPA Divertor Meeting – Toronto 6/9 – 11 – 2006 1
ITER Issue CardSTART-UP-1. Limitations to plasma start-up
and optimize shaping flexibility for ITER Scenarios
G. Federici, A.Loarte, H. D. Pacher, G. W. Pacher, A.
Kukuskhin, T. Luce, A. Sips, A. Leonard, R. Stambaugh,
C. Kessel
Alberto Loarte 7th ITPA Divertor Meeting – Toronto 6/9 – 11 – 2006 2
Outline of the ITER Design/Assumptions
limiter X-point (6.5 MA)
Plasma breakdown and ramp-up and ramp-down in ITER is carried out in limiter configuration
To ease maintenance limiters are positioned in main horizontal ports Be is chosen as limiter PFC 2 limiters are required for sufficient power
handlingX-point limiter (9.5 MA)
Ramp-up scenario designed for fast current penetration
Alberto Loarte 7th ITPA Divertor Meeting – Toronto 6/9 – 11 – 2006 3
Issue We know now that : Despite complex connection length pattern power load on limiters is reasonably well described by simple exponential decay For reference ITER start-up scenario 2 with <ne>/nGW ~ 0.2 qlimiter,max ~ 3 MWm-2 in ramp-up
There is little margin in changing ne in ramp-up (radiative collapse) and limited capability for additional heating during ramp-up Relative alignment of limiters is difficult to between than few mm Early X-point transition at 3.5 MA but can lead to loss of half of flat top length
Flexibility of ramp-up scenarios in ITER is limited by PFCs power handling and flux consumption unreasonable limits to scenario development
Psol = 1MW
Psol = 3MW
Psol = 2 MW
Psol = 2MW
Psol = 6 MW
Psol = 3 MW
Alberto Loarte 7th ITPA Divertor Meeting – Toronto 6/9 – 11 – 2006 4
Actions
Review/complete calculations of limiter power loading in present ITER ramp-up/ramp-down scenarios
Develop scenarios/analyse heating requirements for qmin > 1 operation
Study alternative limiter configuration more limiters/different PFM/poloidal limiters with limited power handling (~ 0.5-1.0 MWm-2 ) located at inner or outer wall, etc.
Investigate early X-point formation (~ 3MA or lower) from outer limiter and from inner wall, divertor dome and implications for PF system
Benefits to ITER : Larger device flexibility to explore different q profiles. If breakdown from inner wall is adopted there could be a gain in Volt-seconds. If early X-point transition
achieved large control of ramp-up conditions by heating/fuelling/pumping
Implications in Cost and Schedule : Depending on outcome port limiters could be eliminated with a corresponding saving. This would be probably offset by a more expensive PF system
Risks : More delicate PF system (if NbSn needed) and weakness of poloidal limiters to transient (~ s) plasma contact
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