Litcius/Paper detail

ELM control optimization for various ITER scenarios based on linear and quasi-linear figures of merit

Li Li, Yueqiang Liu, A. Loarte, S. D. Pinches, A. Polevoi, Fangchuan Zhong

2020Physics of Plasmas10 citationsDOIOpen Access PDF

Abstract

For the purpose of better understanding type-I edge localized mode (ELM) control in ITER with resonant magnetic perturbation (RMP) fields, the plasma response to RMP is computed by a resistive full magneto-hydrodynamic model in toroidal geometry. Five scenarios designed for ITER are considered, ranging from the pre-nuclear to nuclear phases. The plasma response to RMP is quantified by the plasma surface displacement near the X-point of the divertor plasma and at the outboard mid-plane. The optimal coil configurations between two high-Q deuterium-tritium (DT) scenarios (at the same plasma current of 15 MA and the same magnetic field of 5.3 T but different fusion gains, Q = 5 and 10) are predicted to be similar. For the other ITER scenarios with similar edge safety factor q95 ∼ 3 to that of the baseline scenario, the optimal coil phasing is also similar. The optimization results are different for a half-current full-field (7.5 MA/5.3 T) scenario, largely due to the difference in q95. The RMP coil currents are also optimized to tailor the core vs edge toroidal torques exerted by the 3D RMP fields on the plasma column. Torque optimization, with various objective functions proposed in the study, is useful for minimizing the side effects of RMP on the plasma core flow in ITER, while still maintaining the ELM control capability. Full utilization of three rows of ELM control coils in ITER is found to be essential to ensure both flexibility and robustness of ELM control, in terms of both linear and quasi-linear plasma responses.

Topics & Concepts

PhysicsElectromagnetic coilPlasmaDivertorToroidSafety factorDIII-DTokamakEdge-localized modeResistive touchscreenComputational physicsMechanicsNuclear physicsComputer scienceComputer visionQuantum mechanicsMagnetic confinement fusion researchParticle accelerators and beam dynamicsSuperconducting Materials and Applications
ELM control optimization for various ITER scenarios based on linear and quasi-linear figures of merit | Litcius