29 June 2026 to 3 July 2026
EICC, Edinburgh
Europe/London timezone

Physics design of a Spherical Tokamak Advanced Reactor (STAR)

Not scheduled
20m
EICC, Edinburgh

EICC, Edinburgh

150 Morrison St, Edinburgh EH3 8EE
Poster Presentation Power Plant Design (MCF)

Description

This presentation will describe physics design activities for a fully nuclear A=2, R=4-4.5m Spherical Tokamak Advanced Reactor (STAR) targeting 100-500MWe net electric power, tritium breeding ratio > 1 and including integrated vertical maintenance, power exhaust, and neutronics analysis. STAR operational scenarios have emphasized full non-inductive current drive with approximately 80% bootstrap current fraction with the remaining current drive provided by electron cyclotron current drive (ECCD) and/or negative neutral beam injection (NNBI) with injection energies of 0.7MeV or above. These scenarios have elevated safety factor profiles with minimum q > 2. The no-wall stability limit is set by the n = 1 pressure-driven kink mode at normalized beta-N ≤ 3.5-3.8 with a weak dependence on q provided q-min > 1. These scenarios support fusion powers of 0.5-1GW with a nominal operating point of 800MW. With wall stabilization (bwall/a = 0.5), beta-N ~ 5 is accessible with fusion power = 1.5-2GW. Additional analysis includes Toroidal Alfven Eigenmode (TAE) stability, gyrokinetic analysis of the H-mode pedestal and core, pedestal MHD stability trends as a function of core current profile and plasma shaping, and divertor power exhaust. Extensive analysis using SOLPS-ITER has been dedicated to a lithium-based capillary porous system with flow (CPSF) divertor plasma facing components to mitigate very high edge power and heat fluxes. These and other important results will be described.

Author

Jonathan Menard (Princeton Plasma Physics Laboratory)

Co-authors

Dr Eric Emdee (Princeton Plasma Physics Laboratory) Nikolai Gorelenkov (PPPL, Princeton University) Dr Andrei Khodak (Princeton Plasma Physics Laboratory) Dr Alexei Pankin (Princeton Plasma Physics Laboratory) Dr Jack Berkery (Princeton Plasma Physics Laboratory) Mr Tom Brown (Princeton Plasma Physics Laboratory) Luis Delgado-Aparicio (PPPL) Dr Fatima Ebrahimi (Princeton Plasma Physics Laboratory) Marina Gorelenkova (PPPL) Dr Ammar Hakim (Princeton Plasma Physics Laboratory) Dr Rajesh Maingi (Princeton Plasma Physics Laboratory) Dr Masayuki Ono (Princeton Plasma Physics Laboratory) Dr Kajal Shah (Princeton Plasma Physics Laboratory)

Presentation materials

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