Suppression of tritium retention in remote areas of ITER by nonperturbative reactive gas injection

F. L. Tabarés; J. A. Ferreira; A. Ramos; G. Van Rooij; J. Westerhout; R. Al; J. Rapp; A. Drenik; M. Mozetic

doi:10.1103/PhysRevLett.105.175006

Suppression of tritium retention in remote areas of ITER by nonperturbative reactive gas injection

F. L. Tabarés
, J. A. Ferreira
, A. Ramos
, G. Van Rooij
, J. Westerhout
, R. Al
, J. Rapp
, A. Drenik
, M. Mozetic

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

20 Scopus citations

Abstract

A technique based on reactive gas injection in the afterglow region of the divertor plasma is proposed for the suppression of tritium-carbon codeposits in remote areas of ITER when operated with carbon-based divertor targets. Experiments in a divertor simulator plasma device indicate that a 4nm/min deposition can be suppressed by addition of 1Pa•m3s⊃-1 ammonia flow at 10 cm from the plasma. These results bolster the concept of nonperturbative scavenger injection for tritium inventory control in carbon-based fusion plasma devices, thus paving the way for ITER operation in the active phase under a carbon-dominated, plasma facing component background.

Original language	English
Article number	175006
Journal	Physical Review Letters
Volume	105
Issue number	17
DOIs	https://doi.org/10.1103/PhysRevLett.105.175006
State	Published - Oct 22 2010
Externally published	Yes

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10.1103/PhysRevLett.105.175006

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title = "Suppression of tritium retention in remote areas of ITER by nonperturbative reactive gas injection",

abstract = "A technique based on reactive gas injection in the afterglow region of the divertor plasma is proposed for the suppression of tritium-carbon codeposits in remote areas of ITER when operated with carbon-based divertor targets. Experiments in a divertor simulator plasma device indicate that a 4nm/min deposition can be suppressed by addition of 1Pa•m3s⊃-1 ammonia flow at 10 cm from the plasma. These results bolster the concept of nonperturbative scavenger injection for tritium inventory control in carbon-based fusion plasma devices, thus paving the way for ITER operation in the active phase under a carbon-dominated, plasma facing component background.",

author = "Tabar{\'e}s, \{F. L.\} and Ferreira, \{J. A.\} and A. Ramos and \{Van Rooij\}, G. and J. Westerhout and R. Al and J. Rapp and A. Drenik and M. Mozetic",

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doi = "10.1103/PhysRevLett.105.175006",

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T1 - Suppression of tritium retention in remote areas of ITER by nonperturbative reactive gas injection

AU - Tabarés, F. L.

AU - Ferreira, J. A.

AU - Ramos, A.

AU - Van Rooij, G.

AU - Westerhout, J.

AU - Al, R.

AU - Rapp, J.

AU - Drenik, A.

AU - Mozetic, M.

PY - 2010/10/22

Y1 - 2010/10/22

N2 - A technique based on reactive gas injection in the afterglow region of the divertor plasma is proposed for the suppression of tritium-carbon codeposits in remote areas of ITER when operated with carbon-based divertor targets. Experiments in a divertor simulator plasma device indicate that a 4nm/min deposition can be suppressed by addition of 1Pa•m3s⊃-1 ammonia flow at 10 cm from the plasma. These results bolster the concept of nonperturbative scavenger injection for tritium inventory control in carbon-based fusion plasma devices, thus paving the way for ITER operation in the active phase under a carbon-dominated, plasma facing component background.

AB - A technique based on reactive gas injection in the afterglow region of the divertor plasma is proposed for the suppression of tritium-carbon codeposits in remote areas of ITER when operated with carbon-based divertor targets. Experiments in a divertor simulator plasma device indicate that a 4nm/min deposition can be suppressed by addition of 1Pa•m3s⊃-1 ammonia flow at 10 cm from the plasma. These results bolster the concept of nonperturbative scavenger injection for tritium inventory control in carbon-based fusion plasma devices, thus paving the way for ITER operation in the active phase under a carbon-dominated, plasma facing component background.

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DO - 10.1103/PhysRevLett.105.175006

M3 - Article

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VL - 105

JO - Physical Review Letters

JF - Physical Review Letters

IS - 17

M1 - 175006

ER -

Suppression of tritium retention in remote areas of ITER by nonperturbative reactive gas injection

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