Litcius/Paper detail

SOLPS-ITER validation with TCV L-mode discharges

M. Wensing, H. Reimerdes, O. Février, C. Colandrea, L. Martinelli, K. Verhaegh, F. Bagnato, P. Blanchard, Benjamin Vincent, A. Perek, S. Gorno, H. De Oliveira, C. Theiler, B.P. Duval, C.K. Tsui, M. Baquero-Ruiz, M. Wischmeier, TCV Team, MST1 Team

2021Physics of Plasmas28 citationsDOIOpen Access PDF

Abstract

This work presents a quantitative test of SOLPS-ITER simulations against tokamak à configuration variable (TCV) L-mode experiments. These simulations account for drifts, currents, kinetic neutrals, and carbon impurities providing the most complete edge transport simulations for TCV to date. The comparison is performed on nominally identical discharges carried out to assess the effectiveness of TCV's divertor baffles in the framework of the European Plasma Exhaust program and employs numerous edge diagnostics providing a detailed code-experiment benchmark for TCV. The simulations show a qualitative consistency, but the quantitative differences remain, which are assessed herein. It is found that, for a given separatrix density, the simulations most notably yield a colder, and denser, divertor state with a higher divertor neutral pressure than measured.

Topics & Concepts

DivertorPhysicsTokamakPlasmaBenchmark (surveying)Nuclear engineeringAtomic physicsComputational physicsNuclear physicsGeographyEngineeringGeodesyMagnetic confinement fusion researchFusion materials and technologiesPlasma Diagnostics and Applications