Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

R. Maingi; J. M. Canik; R. E. Bell; D. P. Boyle; A. Diallo; R. Kaita; S. M. Kaye; B. P. LeBlanc; S. A. Sabbagh; F. Scotti; V. A. Soukhanovskii

doi:10.1016/j.fusengdes.2016.06.058

Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

R. Maingi
, J. M. Canik
, R. E. Bell
, D. P. Boyle
, A. Diallo
, R. Kaita
, S. M. Kaye
, B. P. LeBlanc
, S. A. Sabbagh
, F. Scotti
, V. A. Soukhanovskii

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

10 Scopus citations

Abstract

A sequence of H-mode discharges with increasing levels of pre-discharge lithium evaporation (‘dose’) was conducted in high triangularity and elongation boundary shape in NSTX. Energy confinement increased, and recycling decreased with increasing lithium dose, similar to a previous lithium dose scan in medium triangularity and elongation plasmas. Data-constrained SOLPS interpretive modeling quantified the edge transport change: the electron particle diffusivity decreased by 10–30x. The electron thermal diffusivity decreased by 4x just inside the top of the pedestal, but increased by up to 5x very near the separatrix. These results provide a baseline expectation for lithium benefits in NSTX-U, which is optimized for a boundary shape similar to the one in this experiment.

Original language	English (US)
Pages (from-to)	150-156
Number of pages	7
Journal	Fusion Engineering and Design
Volume	117
DOIs	https://doi.org/10.1016/j.fusengdes.2016.06.058
State	Published - Apr 1 2017

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

Keywords

Energy confinement
Lithium
NSTX
Pedestal
Recyling

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10.1016/j.fusengdes.2016.06.058

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Maingi, R., Canik, J. M., Bell, R. E., Boyle, D. P., Diallo, A., Kaita, R., Kaye, S. M., LeBlanc, B. P., Sabbagh, S. A., Scotti, F., & Soukhanovskii, V. A. (2017). Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes. Fusion Engineering and Design, 117, 150-156. https://doi.org/10.1016/j.fusengdes.2016.06.058

@article{117ed347a36942dd8e9ff870bfa47028,

title = "Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes",

abstract = "A sequence of H-mode discharges with increasing levels of pre-discharge lithium evaporation ({\textquoteleft}dose{\textquoteright}) was conducted in high triangularity and elongation boundary shape in NSTX. Energy confinement increased, and recycling decreased with increasing lithium dose, similar to a previous lithium dose scan in medium triangularity and elongation plasmas. Data-constrained SOLPS interpretive modeling quantified the edge transport change: the electron particle diffusivity decreased by 10–30x. The electron thermal diffusivity decreased by 4x just inside the top of the pedestal, but increased by up to 5x very near the separatrix. These results provide a baseline expectation for lithium benefits in NSTX-U, which is optimized for a boundary shape similar to the one in this experiment.",

keywords = "Energy confinement, Lithium, NSTX, Pedestal, Recyling",

author = "R. Maingi and Canik, \{J. M.\} and Bell, \{R. E.\} and Boyle, \{D. P.\} and A. Diallo and R. Kaita and Kaye, \{S. M.\} and LeBlanc, \{B. P.\} and Sabbagh, \{S. A.\} and F. Scotti and Soukhanovskii, \{V. A.\}",

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year = "2017",

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doi = "10.1016/j.fusengdes.2016.06.058",

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T1 - Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

AU - Maingi, R.

AU - Canik, J. M.

AU - Bell, R. E.

AU - Boyle, D. P.

AU - Diallo, A.

AU - Kaita, R.

AU - Kaye, S. M.

AU - LeBlanc, B. P.

AU - Sabbagh, S. A.

AU - Scotti, F.

AU - Soukhanovskii, V. A.

PY - 2017/4/1

Y1 - 2017/4/1

N2 - A sequence of H-mode discharges with increasing levels of pre-discharge lithium evaporation (‘dose’) was conducted in high triangularity and elongation boundary shape in NSTX. Energy confinement increased, and recycling decreased with increasing lithium dose, similar to a previous lithium dose scan in medium triangularity and elongation plasmas. Data-constrained SOLPS interpretive modeling quantified the edge transport change: the electron particle diffusivity decreased by 10–30x. The electron thermal diffusivity decreased by 4x just inside the top of the pedestal, but increased by up to 5x very near the separatrix. These results provide a baseline expectation for lithium benefits in NSTX-U, which is optimized for a boundary shape similar to the one in this experiment.

AB - A sequence of H-mode discharges with increasing levels of pre-discharge lithium evaporation (‘dose’) was conducted in high triangularity and elongation boundary shape in NSTX. Energy confinement increased, and recycling decreased with increasing lithium dose, similar to a previous lithium dose scan in medium triangularity and elongation plasmas. Data-constrained SOLPS interpretive modeling quantified the edge transport change: the electron particle diffusivity decreased by 10–30x. The electron thermal diffusivity decreased by 4x just inside the top of the pedestal, but increased by up to 5x very near the separatrix. These results provide a baseline expectation for lithium benefits in NSTX-U, which is optimized for a boundary shape similar to the one in this experiment.

KW - Energy confinement

KW - Lithium

KW - NSTX

KW - Pedestal

KW - Recyling

UR - https://www.scopus.com/pages/publications/84978884092

UR - https://www.scopus.com/pages/publications/84978884092#tab=citedBy

U2 - 10.1016/j.fusengdes.2016.06.058

DO - 10.1016/j.fusengdes.2016.06.058

M3 - Article

AN - SCOPUS:84978884092

SN - 0920-3796

VL - 117

SP - 150

EP - 156

JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

ER -

Effect of progressively increasing lithium conditioning on edge transport and stability in high triangularity NSTX H-modes

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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