Impact of drifts in the ASDEX upgrade upper open divertor using SOLPS-ITER

I. Paradela Pérez; M. Groth; M. Wischmeier; D. Coster; D. Brida; P. David; D. Silvagni; M. Faitsch

doi:10.1002/ctpp.201900166

Impact of drifts in the ASDEX upgrade upper open divertor using SOLPS-ITER

I. Paradela Pérez, M. Groth, M. Wischmeier, D. Coster, D. Brida, P. David, D. Silvagni, M. Faitsch

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

5 Scopus citations

Abstract

SOLPS-ITER L-mode-like simulations with the full set of currents and drift velocities activated, and fluid neutrals have been carried out to interpret experimental results obtained in AUG. Drifts are critical to quantitatively reproduce the experimental results; however, simulations without drifts can also reproduce some trends qualitatively. The magnitude and dependence of the peak heat flux onto both targets on the upstream collisionality are, in general, in quantitative agreement within uncertainties with infrared thermography measurements in favourable field direction. The onset of power detachment is observed. In unfavourable toroidal field direction, a more symmetrical inner/outer target solution with regards to the power distribution is predicted, in agreement with experimental observations. However, also in unfavourable toroidal field direction, insufficient power is dissipated in the simulations and therefore q_{peak, inn} is overpredicted by up to a factor of 4 and q_{peak, out} by up to a factor of 1.5. The largest contribution to the sources due to radial transport in the energy balance equation is the radial divergence of the energy flux due to V_{E × B}.

Original language	English
Article number	e201900166
Journal	Contributions to Plasma Physics
Volume	60
Issue number	5-6
DOIs	https://doi.org/10.1002/ctpp.201900166
State	Published - Jun 1 2020
Externally published	Yes

Funding

This work has been supported by the Academy of Finland, grant no. 285143. This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014–2018 and 2019–2020 under grant agreement No 633053. The views and opinions expressed herein do not necessarily reflect those of the European Commission.

Keywords

ASDEX upgrade
divertor detachment
drifts
scrape-off layer
upper single null

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title = "Impact of drifts in the ASDEX upgrade upper open divertor using SOLPS-ITER",

abstract = "SOLPS-ITER L-mode-like simulations with the full set of currents and drift velocities activated, and fluid neutrals have been carried out to interpret experimental results obtained in AUG. Drifts are critical to quantitatively reproduce the experimental results; however, simulations without drifts can also reproduce some trends qualitatively. The magnitude and dependence of the peak heat flux onto both targets on the upstream collisionality are, in general, in quantitative agreement within uncertainties with infrared thermography measurements in favourable field direction. The onset of power detachment is observed. In unfavourable toroidal field direction, a more symmetrical inner/outer target solution with regards to the power distribution is predicted, in agreement with experimental observations. However, also in unfavourable toroidal field direction, insufficient power is dissipated in the simulations and therefore qpeak, inn is overpredicted by up to a factor of 4 and qpeak, out by up to a factor of 1.5. The largest contribution to the sources due to radial transport in the energy balance equation is the radial divergence of the energy flux due to VE × B.",

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doi = "10.1002/ctpp.201900166",

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AU - Paradela Pérez, I.

AU - Groth, M.

AU - Wischmeier, M.

AU - Coster, D.

AU - Brida, D.

AU - David, P.

AU - Silvagni, D.

AU - Faitsch, M.

PY - 2020/6/1

Y1 - 2020/6/1

N2 - SOLPS-ITER L-mode-like simulations with the full set of currents and drift velocities activated, and fluid neutrals have been carried out to interpret experimental results obtained in AUG. Drifts are critical to quantitatively reproduce the experimental results; however, simulations without drifts can also reproduce some trends qualitatively. The magnitude and dependence of the peak heat flux onto both targets on the upstream collisionality are, in general, in quantitative agreement within uncertainties with infrared thermography measurements in favourable field direction. The onset of power detachment is observed. In unfavourable toroidal field direction, a more symmetrical inner/outer target solution with regards to the power distribution is predicted, in agreement with experimental observations. However, also in unfavourable toroidal field direction, insufficient power is dissipated in the simulations and therefore qpeak, inn is overpredicted by up to a factor of 4 and qpeak, out by up to a factor of 1.5. The largest contribution to the sources due to radial transport in the energy balance equation is the radial divergence of the energy flux due to VE × B.

AB - SOLPS-ITER L-mode-like simulations with the full set of currents and drift velocities activated, and fluid neutrals have been carried out to interpret experimental results obtained in AUG. Drifts are critical to quantitatively reproduce the experimental results; however, simulations without drifts can also reproduce some trends qualitatively. The magnitude and dependence of the peak heat flux onto both targets on the upstream collisionality are, in general, in quantitative agreement within uncertainties with infrared thermography measurements in favourable field direction. The onset of power detachment is observed. In unfavourable toroidal field direction, a more symmetrical inner/outer target solution with regards to the power distribution is predicted, in agreement with experimental observations. However, also in unfavourable toroidal field direction, insufficient power is dissipated in the simulations and therefore qpeak, inn is overpredicted by up to a factor of 4 and qpeak, out by up to a factor of 1.5. The largest contribution to the sources due to radial transport in the energy balance equation is the radial divergence of the energy flux due to VE × B.

KW - ASDEX upgrade

KW - divertor detachment

KW - drifts

KW - scrape-off layer

KW - upper single null

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Impact of drifts in the ASDEX upgrade upper open divertor using SOLPS-ITER

Abstract

Funding

Keywords

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