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Development of a thermal diagnostic system for the SPARC tokamak.

Authors :
Hanson, M. O.
Kuang, A. Q.
Kulchy, R.
Lagieski, M.
Looby, T.
Myers, C. E.
Brettingen, J.
Chan, K. H. C.
Fox-Widdows, E.
Fritsch, A.
Henderson, T.
Lafleur, C.
Li, R.
McKanas, S.
Pentecost, J.
Quinn, M.
Reinke, M. L.
van Overbeeke-Costello, A.
Witham, J.
Source :
Review of Scientific Instruments. Oct2024, Vol. 95 Issue 10, p1-8. 8p.
Publication Year :
2024

Abstract

The SPARC tokamak will have scrape-off layer parallel heat fluxes on the order of GW/m2. Managing power exhaust of this magnitude will be mandatory for a reactor-scale device. To enable this mission, a thermal diagnostic suite will be deployed to measure the in-vessel structural temperatures to ensure they do not exceed their design limits and to determine the spatial distribution and magnitude of energy deposited onto the first wall. Thermocouples and fiber Bragg gratings have been selected for their environmental compatibility and proven useful on other fusion devices. High-density thermocouple arrays in the divertor will have two spring-loaded thermocouples per divertor target tile, which are being used as calorimeters, and will look to resolve the temperature distribution within the tile due to a swept or static strike point. All systems will need to survive the vacuum vessel bake, set at a minimum plasma facing surface temperature of 350 °C, which presents a particularly challenging environment for the fiber-based subsystem. Along with this temperature design requirement, all the materials in the primary vacuum need to be ultra-high vacuum compatible, able to handle the expected neutron and gamma radiation, as well as tritium exposure, all of which restrict material options. Finally, due to the expected activated environment in SPARC, there will be little chance to replace defective sensors, so system resilience is ensured through toroidal redundancy, probe material selection, and mitigating the impact of common-mode failures. Initial testing of sensors show that intershot structural measurements are sufficiently captured with the raw output, but intrashot measurements of the plasma facing material requires model-based interpretive tools. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00346748
Volume :
95
Issue :
10
Database :
Academic Search Index
Journal :
Review of Scientific Instruments
Publication Type :
Academic Journal
Accession number :
180631753
Full Text :
https://doi.org/10.1063/5.0219565