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A 6 MW/m2High Heat Flux Testing Facility of Irradiated Materials Using Infrared Plasma-Arc Lamps

Authors :
Sabau, Adrian S.
Tokunaga, Kazutoshi
Littleton, Michael G.
Kiggans, James O.
Schaich, Charles R.
Dinwiddie, Ralph B.
Moore, Daniel T.
Ueda, Yoshio
Katoh, Yutai
Source :
Fusion Science and Technology; October 2019, Vol. 75 Issue: 7 p690-701, 12p
Publication Year :
2019

Abstract

AbstractAssessing the effect of neutron irradiation of plasma-facing materials has been challenging due to both the technical and radiological challenges involved. In an effort to address the radiological challenges, a facility was developed to conduct high heat flux testing (HHFT) of inherently small samples of neutron-irradiated materials. A new line-focus reflector was designed and fabricated at Oak Ridge National Laboratory for a plasma-arc lamp (PAL) to attain a source heat flux of 12 MW/m2. The new reflector was fabricated with two ports for monitoring specimen condition during HHFT. At the same operational conditions for PAL, the absorbed heat flux in tungsten was increased from 1.39 MW/m2with the uniform irradiance reflector to 5.12 MW/m2for the line-focus reflector. This fourfold increase in the heat flux, at the same PAL electrode lifetimes, enabled cost-effective facility operation for a high number of cyclic high heat flux tests. Specifically, the test section is confined to a hemispherical dome, and specimens are bolted directly to a water-cooled copper alloy rod. Temperature measurement in the PAL facility was a main challenge due to a limited line of sight. For the first time in a PAL facility operating at high heat fluxes, the specimen surface temperature was directly measured during HHFT with a pyrometer. The HHFT data, which were obtained in this upgraded PAL facility, demonstrated the facility readiness for irradiated materials.

Details

Language :
English
ISSN :
15361055
Volume :
75
Issue :
7
Database :
Supplemental Index
Journal :
Fusion Science and Technology
Publication Type :
Periodical
Accession number :
ejs51121719
Full Text :
https://doi.org/10.1080/15361055.2019.1623571