Effect of non axisymmetric perturbations on the ambipolar 𝑬ᵣ and neoclassical particle flux inside the ITER pedestal region

Autor:	A. Loarte, A. R. Polevoi, Victor Tribaldos, Raul Sanchez, J. M. Reynolds-Barredo, M. Hosokawa
Přispěvatelé:	Comunidad de Madrid, Ministerio de Economía y Competitividad (España)
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	Physics Nuclear and High Energy Physics Tokamak Ambipolar diffusion Plasma Condensed Matter Physics law.invention Computational physics Ion Economía Pedestal law Physics::Plasma Physics Electric field Magnetohydrodynamics Stellarator
Zdroj:	e-Archivo. Repositorio Institucional de la Universidad Carlos III de Madrid instname e-Archivo: Repositorio Institucional de la Universidad Carlos III de Madrid Universidad Carlos III de Madrid (UC3M)
Popis:	The transport dynamics of impurities in the pedestal region of ITER plasmas is of crucial interest since this regulates the penetration of impurities from the edge into the core plasma, where an excessive accumulation of impurities can degrade their fusion performance. In the pedestal region of H-mode tokamak plasmas anomalous transport is highly reduced and impurity transport is found to be well described by neoclassical theory. Under these conditions, perturbations to the axisymmetric tokamak geometry can strongly affect both radial electric field and particle transport. In this work, we describe the results of numerical studies performed to quantify the effects on the pedestal ambipolar electric field and radial particle fluxes of the non-axisymmetric fields, associated with both the intrinsic toroidal field ripple and extrinsic fields applied for ELM control, for ITER Q=10 plasma conditions with emphasis on high Z impurity transport. It is found that the effect of the ITER toroidal field ripple on high Z impurity transport is negligible. On the contrary, extrinsic three-dimensional fields applied for ELM control cause a strong modification of the pedestal ambipolar electric (to less negative values) and the appearance of multi-valued solutions for the pedestal electric field, analogue to core stellarator transport significantly increasing the outward character of neoclassical pedestal transport for both the main plasma ions (D and T in ITER) and high Z impurities, suggesting a strong modification of the background plasma profiles. Finally, it is found that, for the Z impurity, its quantitative evaluation has uncertainties (with important implications for the radial flow direction) associated with the high poloidal Mach number ~1, due to the high pedestal electric field and large ion mass, which renders first order neoclassical theory questionable. Detailed ITER MHD 3-D equilibria and a benchmark of SFINCS against NEO and NCLASS codes has also been obtained.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d201dcac682995691bbf3c31c44a52ff https://hdl.handle.net/10016/30789 Zobrazit plný text záznamu