Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding

Matthew S. Parsons; Jeremy D. Mateja; Seth H. Messer; Tyler Abrams; Jean Paul Allain; Alessandro Bortolon; Patrick Byrne; David C. Donovan; Florian Effenberg; Jeffrey L. Herfindal; Florian Laggner; Tomas Odstrcil; Jun Ren; Dmitry L. Rudakov; Gregory Sinclair; Robert S. Wilcox

doi:10.1016/j.nme.2023.101520

Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding

Matthew S. Parsons, Jeremy D. Mateja, Seth H. Messer, Tyler Abrams, Jean Paul Allain, Alessandro Bortolon, Patrick Byrne, David C. Donovan, Florian Effenberg, Jeffrey L. Herfindal, Florian Laggner, Tomas Odstrcil, Jun Ren, Dmitry L. Rudakov, Gregory Sinclair, Robert S. Wilcox

PPPL Tokamak Expermntl Science

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5 Scopus citations

Abstract

Collector probes have been used to examine tungsten divertor leakage in a variety of scenarios with low-Z impurity seeding during operation with the new tungsten-coated SAS-VW divertor in DIII-D. Measurements of tungsten deposition on collector probes inserted into the far Scrape-off-Layer (SOL) are used to deduce how efficiently tungsten leaks out of the closed, V-shaped divertor after it is eroded from the target surfaces. Qualitative differences in the tungsten deposition patterns across the collector probes provide clear experimental evidence that the SOL conditions depend on the low-Z impurity seeding conditions. These measurements show that in scenarios where neon gas is injected into the plasma, the tungsten divertor leakage and SOL transport depend on the poloidal location from which the neon is injected. In particular, neon injection from the Inner Midplane and Outer Midplane appear to each result in higher divertor leakage by a factor of 2 to 3 compared to cases with neon injection from either the SOL Crown or from the SAS-VW divertor itself.

Original language	English (US)
Article number	101520
Journal	Nuclear Materials and Energy
Volume	37
DOIs	https://doi.org/10.1016/j.nme.2023.101520
State	Published - Dec 2023

All Science Journal Classification (ASJC) codes

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

Keywords

Collector probes
Neon seeding
Tungsten divertor leakage
Tungsten erosion

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10.1016/j.nme.2023.101520

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Parsons, M. S., Mateja, J. D., Messer, S. H., Abrams, T., Allain, J. P., Bortolon, A., Byrne, P., Donovan, D. C., Effenberg, F., Herfindal, J. L., Laggner, F., Odstrcil, T., Ren, J., Rudakov, D. L., Sinclair, G., & Wilcox, R. S. (2023). Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding. Nuclear Materials and Energy, 37, Article 101520. https://doi.org/10.1016/j.nme.2023.101520

@article{1e31ebd463654e1c8147f9d75574ef40,

title = "Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding",

abstract = "Collector probes have been used to examine tungsten divertor leakage in a variety of scenarios with low-Z impurity seeding during operation with the new tungsten-coated SAS-VW divertor in DIII-D. Measurements of tungsten deposition on collector probes inserted into the far Scrape-off-Layer (SOL) are used to deduce how efficiently tungsten leaks out of the closed, V-shaped divertor after it is eroded from the target surfaces. Qualitative differences in the tungsten deposition patterns across the collector probes provide clear experimental evidence that the SOL conditions depend on the low-Z impurity seeding conditions. These measurements show that in scenarios where neon gas is injected into the plasma, the tungsten divertor leakage and SOL transport depend on the poloidal location from which the neon is injected. In particular, neon injection from the Inner Midplane and Outer Midplane appear to each result in higher divertor leakage by a factor of 2 to 3 compared to cases with neon injection from either the SOL Crown or from the SAS-VW divertor itself.",

keywords = "Collector probes, Neon seeding, Tungsten divertor leakage, Tungsten erosion",

author = "Parsons, \{Matthew S.\} and Mateja, \{Jeremy D.\} and Messer, \{Seth H.\} and Tyler Abrams and Allain, \{Jean Paul\} and Alessandro Bortolon and Patrick Byrne and Donovan, \{David C.\} and Florian Effenberg and Herfindal, \{Jeffrey L.\} and Florian Laggner and Tomas Odstrcil and Jun Ren and Rudakov, \{Dmitry L.\} and Gregory Sinclair and Wilcox, \{Robert S.\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = dec,

doi = "10.1016/j.nme.2023.101520",

language = "English (US)",

volume = "37",

journal = "Nuclear Materials and Energy",

issn = "2352-1791",

publisher = "Elsevier Ltd",

}

Parsons, MS, Mateja, JD, Messer, SH, Abrams, T, Allain, JP, Bortolon, A, Byrne, P, Donovan, DC, Effenberg, F, Herfindal, JL, Laggner, F, Odstrcil, T, Ren, J, Rudakov, DL, Sinclair, G & Wilcox, RS 2023, 'Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding', Nuclear Materials and Energy, vol. 37, 101520. https://doi.org/10.1016/j.nme.2023.101520

TY - JOUR

T1 - Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding

AU - Parsons, Matthew S.

AU - Mateja, Jeremy D.

AU - Messer, Seth H.

AU - Abrams, Tyler

AU - Allain, Jean Paul

AU - Bortolon, Alessandro

AU - Byrne, Patrick

AU - Donovan, David C.

AU - Effenberg, Florian

AU - Herfindal, Jeffrey L.

AU - Laggner, Florian

AU - Odstrcil, Tomas

AU - Ren, Jun

AU - Rudakov, Dmitry L.

AU - Sinclair, Gregory

AU - Wilcox, Robert S.

PY - 2023/12

Y1 - 2023/12

N2 - Collector probes have been used to examine tungsten divertor leakage in a variety of scenarios with low-Z impurity seeding during operation with the new tungsten-coated SAS-VW divertor in DIII-D. Measurements of tungsten deposition on collector probes inserted into the far Scrape-off-Layer (SOL) are used to deduce how efficiently tungsten leaks out of the closed, V-shaped divertor after it is eroded from the target surfaces. Qualitative differences in the tungsten deposition patterns across the collector probes provide clear experimental evidence that the SOL conditions depend on the low-Z impurity seeding conditions. These measurements show that in scenarios where neon gas is injected into the plasma, the tungsten divertor leakage and SOL transport depend on the poloidal location from which the neon is injected. In particular, neon injection from the Inner Midplane and Outer Midplane appear to each result in higher divertor leakage by a factor of 2 to 3 compared to cases with neon injection from either the SOL Crown or from the SAS-VW divertor itself.

AB - Collector probes have been used to examine tungsten divertor leakage in a variety of scenarios with low-Z impurity seeding during operation with the new tungsten-coated SAS-VW divertor in DIII-D. Measurements of tungsten deposition on collector probes inserted into the far Scrape-off-Layer (SOL) are used to deduce how efficiently tungsten leaks out of the closed, V-shaped divertor after it is eroded from the target surfaces. Qualitative differences in the tungsten deposition patterns across the collector probes provide clear experimental evidence that the SOL conditions depend on the low-Z impurity seeding conditions. These measurements show that in scenarios where neon gas is injected into the plasma, the tungsten divertor leakage and SOL transport depend on the poloidal location from which the neon is injected. In particular, neon injection from the Inner Midplane and Outer Midplane appear to each result in higher divertor leakage by a factor of 2 to 3 compared to cases with neon injection from either the SOL Crown or from the SAS-VW divertor itself.

KW - Collector probes

KW - Neon seeding

KW - Tungsten divertor leakage

KW - Tungsten erosion

UR - https://www.scopus.com/pages/publications/85172480062

UR - https://www.scopus.com/inward/citedby.url?scp=85172480062&partnerID=8YFLogxK

U2 - 10.1016/j.nme.2023.101520

DO - 10.1016/j.nme.2023.101520

M3 - Article

AN - SCOPUS:85172480062

SN - 2352-1791

VL - 37

JO - Nuclear Materials and Energy

JF - Nuclear Materials and Energy

M1 - 101520

ER -

Tungsten erosion and divertor leakage from the DIII-D SAS-VW tungsten-coated divertor in experiments with neon gas seeding

Abstract

All Science Journal Classification (ASJC) codes

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