2015
DOI: 10.1088/0029-5515/55/6/063019
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Assessment of operational space for long-pulse scenarios in ITER

Abstract: The operational space (I p − n) for long-pulse scenarios ( t burn ∼ 1000 s, Q 5) of ITER has been assessed by 1.5D core transport modelling with pedestal parameters predicted by the EPED1 code by a set of transport codes under a joint activity carried out by the Integrated Operational Scenario ITPA group. The analyses include the majority of transport models (CDBM, GLF23, Bohm/gyroBohm (BgB), MMM7.1, MMM95, Weiland, scaling-based) presently used for interpretation of experiments and ITER predictions. The EPED1… Show more

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Cited by 42 publications
(77 citation statements)
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“…Indeed, more recent simulations with ASTRA including the self-consistent evaluation of the pedestal pressure from the EPED1 model and the SOL relations derived from B2-EIRENE in [17] found similar values of Q for the densities modelled with JINTRAC [22]. In addition, the SOL parameter relation for the maximum power density at the target plates (including power deposited by radiation and neutral interaction) given in equations 1 and 4 in [17] seems to apply quite well also to the cases considered here.…”
Section: Results At 15 Ma / 53 T / 53 Mw He Accumulationmentioning
confidence: 82%
“…Indeed, more recent simulations with ASTRA including the self-consistent evaluation of the pedestal pressure from the EPED1 model and the SOL relations derived from B2-EIRENE in [17] found similar values of Q for the densities modelled with JINTRAC [22]. In addition, the SOL parameter relation for the maximum power density at the target plates (including power deposited by radiation and neutral interaction) given in equations 1 and 4 in [17] seems to apply quite well also to the cases considered here.…”
Section: Results At 15 Ma / 53 T / 53 Mw He Accumulationmentioning
confidence: 82%
“…The analysis carried out by the application of then ELM energy density scaling in [4] together with the pedestal plasma pressure derived from EPED1+SOLPS predictions [5] indicates that ELM control to avoid melting of the inner W divertor monoblock top surface would not be required in ITER for 2.65T operation with q 95 ≥ 3 and ! "# / !"…”
Section: Discussionmentioning
confidence: 99%
“…The results presented and discussed below were obtained for the ITER baseline scenario [8], with total plasma current I p = 15 MA, low shear safety-factor in the core region and q(0) = 0.987, peaked temperature profiles with T i (0) = 21.5 KeV for the DT ions and T e (0) = 24.7 KeV for the electrons, and flat density profiles (almost up to the edge) with n e (0) = 11 × 10 −19 m −3 and n i (0) = 8.6 × 10 −19 m −3 (FIG. 1).…”
Section: The Proposed Workflowmentioning
confidence: 99%