First integrated core-edge fluid simulation of ITER's Limiter–Divertor transition with SolEdge-HDG

M. Scotto d'Abusco; I. Kudashev; G. Giorgiani; A. Glasser-Medvedeva; F. Schwander; E. Serre; J. Bucalossi; H. Bufferand; G. Ciraolo; P. Tamain

doi:10.1016/j.nme.2024.101750

First integrated core-edge fluid simulation of ITER's Limiter–Divertor transition with SolEdge-HDG

M. Scotto d'Abusco
, I. Kudashev
, G. Giorgiani
, A. Glasser-Medvedeva
, F. Schwander
, E. Serre
, J. Bucalossi
, H. Bufferand
, G. Ciraolo
, P. Tamain

PPPL Tokamak Expermntl Science

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This work explores the Limiter–Divertor transition (L–D) during the current ramp-up of ITER's Q = 10 baseline plasma scenario at various central line-integrated density n_li values. The analysis, based on transport simulations performed with the latest version of SoleEdge-HDG, focuses on the time evolution of heat and ion particle fluxes, revealing regions of elevated temperature on the inner wall and plasma-facing components (PFCs) despite moderate loads. The investigation also delves into the effects of perpendicular convection flux terms on density build-up, comparing different formulations and their interplay with auxiliary heating sources. Furthermore, the paper shows the impact of taking into account the evolution of the parallel neutral momentum on plasma and neutral density at the targets in the context of an ITER steady-state scenario.

Original language	English (US)
Article number	101750
Journal	Nuclear Materials and Energy
Volume	41
DOIs	https://doi.org/10.1016/j.nme.2024.101750
State	Published - Dec 2024

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Materials Science (miscellaneous)
Nuclear Energy and Engineering

Keywords

Hybridizable discontinuous Galerkin
ITER
Integrated core-edge simulation
Ramp-up simulation
SolEdge-HDG

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10.1016/j.nme.2024.101750

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title = "First integrated core-edge fluid simulation of ITER's Limiter–Divertor transition with SolEdge-HDG",

abstract = "This work explores the Limiter–Divertor transition (L–D) during the current ramp-up of ITER's Q = 10 baseline plasma scenario at various central line-integrated density nli values. The analysis, based on transport simulations performed with the latest version of SoleEdge-HDG, focuses on the time evolution of heat and ion particle fluxes, revealing regions of elevated temperature on the inner wall and plasma-facing components (PFCs) despite moderate loads. The investigation also delves into the effects of perpendicular convection flux terms on density build-up, comparing different formulations and their interplay with auxiliary heating sources. Furthermore, the paper shows the impact of taking into account the evolution of the parallel neutral momentum on plasma and neutral density at the targets in the context of an ITER steady-state scenario.",

keywords = "Hybridizable discontinuous Galerkin, ITER, Integrated core-edge simulation, Ramp-up simulation, SolEdge-HDG",

author = "d'Abusco, \{M. Scotto\} and I. Kudashev and G. Giorgiani and A. Glasser-Medvedeva and F. Schwander and E. Serre and J. Bucalossi and H. Bufferand and G. Ciraolo and P. Tamain",

note = "Publisher Copyright: {\textcopyright} 2024",

year = "2024",

month = dec,

doi = "10.1016/j.nme.2024.101750",

language = "English (US)",

volume = "41",

journal = "Nuclear Materials and Energy",

issn = "2352-1791",

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T1 - First integrated core-edge fluid simulation of ITER's Limiter–Divertor transition with SolEdge-HDG

AU - d'Abusco, M. Scotto

AU - Kudashev, I.

AU - Giorgiani, G.

AU - Glasser-Medvedeva, A.

AU - Schwander, F.

AU - Serre, E.

AU - Bucalossi, J.

AU - Bufferand, H.

AU - Ciraolo, G.

AU - Tamain, P.

PY - 2024/12

Y1 - 2024/12

N2 - This work explores the Limiter–Divertor transition (L–D) during the current ramp-up of ITER's Q = 10 baseline plasma scenario at various central line-integrated density nli values. The analysis, based on transport simulations performed with the latest version of SoleEdge-HDG, focuses on the time evolution of heat and ion particle fluxes, revealing regions of elevated temperature on the inner wall and plasma-facing components (PFCs) despite moderate loads. The investigation also delves into the effects of perpendicular convection flux terms on density build-up, comparing different formulations and their interplay with auxiliary heating sources. Furthermore, the paper shows the impact of taking into account the evolution of the parallel neutral momentum on plasma and neutral density at the targets in the context of an ITER steady-state scenario.

AB - This work explores the Limiter–Divertor transition (L–D) during the current ramp-up of ITER's Q = 10 baseline plasma scenario at various central line-integrated density nli values. The analysis, based on transport simulations performed with the latest version of SoleEdge-HDG, focuses on the time evolution of heat and ion particle fluxes, revealing regions of elevated temperature on the inner wall and plasma-facing components (PFCs) despite moderate loads. The investigation also delves into the effects of perpendicular convection flux terms on density build-up, comparing different formulations and their interplay with auxiliary heating sources. Furthermore, the paper shows the impact of taking into account the evolution of the parallel neutral momentum on plasma and neutral density at the targets in the context of an ITER steady-state scenario.

KW - Hybridizable discontinuous Galerkin

KW - ITER

KW - Integrated core-edge simulation

KW - Ramp-up simulation

KW - SolEdge-HDG

UR - https://www.scopus.com/pages/publications/85205353969

UR - https://www.scopus.com/pages/publications/85205353969#tab=citedBy

U2 - 10.1016/j.nme.2024.101750

DO - 10.1016/j.nme.2024.101750

M3 - Article

AN - SCOPUS:85205353969

SN - 2352-1791

VL - 41

JO - Nuclear Materials and Energy

JF - Nuclear Materials and Energy

M1 - 101750

ER -

First integrated core-edge fluid simulation of ITER's Limiter–Divertor transition with SolEdge-HDG

Abstract

All Science Journal Classification (ASJC) codes

Keywords

Access to Document

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