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Development of the neutral model in the nonlinear MHD code JOREK: Application to <i>E</i> <b>×</b> <i>B</i> drifts in ITER PFPO-1 plasmas

S. Korving, G. T. A. Huijsmans, Jae-Sun Park, A. Loarte, JOREK Team

2023Physics of Plasmas24 citationsDOIOpen Access PDF

Abstract

The prediction of power fluxes and plasma-wall interactions impacted by MHD processes during ITER operation [disruption, Edge Localized Modes (ELMs), 3D magnetic fields applied for ELM control, etc.] requires models that include an accurate description of the MHD processes themselves, as well as of the edge plasma and plasma-wall interaction processes. In this paper, we report progress on improving the edge plasma physics models in the nonlinear extended MHD code JOREK, which has capabilities to simulate the MHD response of the plasma to the applied external 3D fields, disruptions and ELMs. The extended MHD model includes E × B drifts, diamagnetic drifts, and neoclassical flows. These drifts can have large influences, on e.g., divertor asymmetries. Realistic divertor conditions are important for impurity sputtering, transport, and their effect on the plasma. In this work, we implemented kinetic and fluid neutral physics modules, investigated the influence of poloidal flows under divertor conditions in the ITER PFPO-1 (1.8T/5MA) H-mode plasma scenario, and compared the divertor plasma conditions and heat flux to the wall for both the fluid and kinetic neutral model (in JOREK) to the well-established 2D boundary plasma simulation code suite SOLPS-ITER. As an application of the newly developed model, we investigated time-dependent divertor solutions and the transition from attached to partially detached plasmas. We present the formation of a high-field-side high-density-region and how it is driven by poloidal E × B drifts.

Topics & Concepts

DivertorPhysicsMagnetohydrodynamicsPlasmaAtomic physicsMagnetic fieldKinetic energyPlasma parametersMechanicsComputational physicsTokamakNuclear physicsClassical mechanicsQuantum mechanicsMagnetic confinement fusion researchFusion materials and technologiesSuperconducting Materials and Applications
Development of the neutral model in the nonlinear MHD code JOREK: Application to <i>E</i> <b>×</b> <i>B</i> drifts in ITER PFPO-1 plasmas | Litcius