Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions

Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions

Pairs of ASDEX Upgrade L-mode discharges with the toroidal magnetic field, BT, in the forward and reverse directions have been used to study the impact of neoclassical drifts on the divertor plasma conditions and detachment. The evolution of the peak heat flux and the total power loads onto both the...

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Main Authors: I. Paradela Pérez, M. Groth, M. Wischmeier, A. Scarabosio, D. Brida, P. David, D. Silvagni, D. Coster, T. Lunt, M. Faitsch
Format: Article
Language:English
Published: Elsevier 2019-05-01
Series:Nuclear Materials and Energy
Online Access:http://www.sciencedirect.com/science/article/pii/S2352179118301960
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spelling doaj-af8e75be4ec841c98f2ff5acb048f3ad2020-11-25T01:28:16ZengElsevierNuclear Materials and Energy2352-17912019-05-0119531536Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directionsI. Paradela Pérez0M. Groth1M. Wischmeier2A. Scarabosio3D. Brida4P. David5D. Silvagni6D. Coster7T. Lunt8M. Faitsch9Corresponding author.; Aalto University, Department of Applied Physics, Otakaari 1, Espoo 02150, Finland; Max-Planck-Institut für Plasmaphysik, Garching 85748, GermanyAalto University, Department of Applied Physics, Otakaari 1, Espoo 02150, FinlandMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyMax-Planck-Institut für Plasmaphysik, Garching 85748, GermanyPairs of ASDEX Upgrade L-mode discharges with the toroidal magnetic field, BT, in the forward and reverse directions have been used to study the impact of neoclassical drifts on the divertor plasma conditions and detachment. The evolution of the peak heat flux and the total power loads onto both the outer and the inner targets depends significantly on the toroidal field direction: increasing the core plasma density affects mainly the heat loads in the BT < 0 (unfavourable) direction, whereas increasing the plasma current has a larger impact on the heat loads for BT > 0 (favourable). Ion saturation current measurements show similar trends to those of the IR heat flux data. These discrepancies are not only caused by drifts but also by different levels of radiated power in the core, thus the power across the separatrix, Psep. Tomographic reconstructions show that Psep is not constant within the entire dataset. Finally, at Ip=0.8MA, a significant reduction of the peak heat flux is observed at both targets for both field directions. On the other hand, at Ip=0.6MA, a reduction of the peak heat flux is only observed for BT < 0 at the outer target. Additionally, the onset of particle detachment is only observed at the outer target for BT < 0 with Ip=0.8MA. Keywords: ASDEX Upgrade, Upper single null, Scrape-off layer, Divertor detachment, Driftshttp://www.sciencedirect.com/science/article/pii/S2352179118301960
collection DOAJ
language English
format Article
sources DOAJ
author I. Paradela Pérez
M. Groth
M. Wischmeier
A. Scarabosio
D. Brida
P. David
D. Silvagni
D. Coster
T. Lunt
M. Faitsch
spellingShingle I. Paradela Pérez
M. Groth
M. Wischmeier
A. Scarabosio
D. Brida
P. David
D. Silvagni
D. Coster
T. Lunt
M. Faitsch
Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions
Nuclear Materials and Energy
author_facet I. Paradela Pérez
M. Groth
M. Wischmeier
A. Scarabosio
D. Brida
P. David
D. Silvagni
D. Coster
T. Lunt
M. Faitsch
author_sort I. Paradela Pérez
title Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions
title_short Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions
title_full Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions
title_fullStr Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions
title_full_unstemmed Assessment of particle and heat loads to the upper open divertor in ASDEX Upgrade in favourable and unfavourable toroidal magnetic field directions
title_sort assessment of particle and heat loads to the upper open divertor in asdex upgrade in favourable and unfavourable toroidal magnetic field directions
publisher Elsevier
series Nuclear Materials and Energy
issn 2352-1791
publishDate 2019-05-01
description Pairs of ASDEX Upgrade L-mode discharges with the toroidal magnetic field, BT, in the forward and reverse directions have been used to study the impact of neoclassical drifts on the divertor plasma conditions and detachment. The evolution of the peak heat flux and the total power loads onto both the outer and the inner targets depends significantly on the toroidal field direction: increasing the core plasma density affects mainly the heat loads in the BT < 0 (unfavourable) direction, whereas increasing the plasma current has a larger impact on the heat loads for BT > 0 (favourable). Ion saturation current measurements show similar trends to those of the IR heat flux data. These discrepancies are not only caused by drifts but also by different levels of radiated power in the core, thus the power across the separatrix, Psep. Tomographic reconstructions show that Psep is not constant within the entire dataset. Finally, at Ip=0.8MA, a significant reduction of the peak heat flux is observed at both targets for both field directions. On the other hand, at Ip=0.6MA, a reduction of the peak heat flux is only observed for BT < 0 at the outer target. Additionally, the onset of particle detachment is only observed at the outer target for BT < 0 with Ip=0.8MA. Keywords: ASDEX Upgrade, Upper single null, Scrape-off layer, Divertor detachment, Drifts
url http://www.sciencedirect.com/science/article/pii/S2352179118301960
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