An experimental platform for real-time measurement of the deformation of nuclear fuel rod claddings submitted to thermal transients

An experimental platform for real-time measurement of the deformation of nuclear fuel rod claddings submitted to thermal transients

We report on experimental development and qualification of a system developed to detect and quantify the deformations of the cladding surface of nuclear fuel pellet assemblies submitted to heat transient conditions. The system consists of an optical instrument, based on 2 wavelengths speckle interfe...

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Veröffentlicht in:Review of scientific instruments 2018-01, Vol.89 (1), p.013110-013110
Hauptverfasser: Gallais, L., Burla, R., Martin, F., Richaud, J. C., Volle, G., Pontillon, M., Capdevila, H., Pontillon, Y.
Format: Artikel
Sprache:eng
Schlagworte:
Cladding
Claddings
Computer simulation
Deformation
Electric induction furnaces
Nuclear fuel elements
Nuclear fuels
Nuclear reactors
Optical instruments
Optics
Physics
Pressurized water
Pressurized water reactors
Real time
Scientific apparatus & instruments
Speckle interferometry
Thermal transients
Time measurement
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container_end_page 013110
container_issue 1
container_start_page 013110
container_title Review of scientific instruments
container_volume 89
creator Gallais, L.
Burla, R.
Martin, F.
Richaud, J. C.
Volle, G.
Pontillon, M.
Capdevila, H.
Pontillon, Y.
description We report on experimental development and qualification of a system developed to detect and quantify the deformations of the cladding surface of nuclear fuel pellet assemblies submitted to heat transient conditions. The system consists of an optical instrument, based on 2 wavelengths speckle interferometry, associated with an induction furnace and a model pellet assembly used to simulate the radial thermal gradient experienced by fuel pellets in pressurized water reactors. We describe the concept, implementation, and first results obtained with this system. We particularly demonstrate that the optical system is able to provide real time measurements of the cladding surface shape during the heat transients from ambient to high temperatures (up to a cladding surface temperature of 600 °C) with micrometric resolution.
doi_str_mv 10.1063/1.4996611
format Article
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source AIP Journals Complete; Alma/SFX Local Collection
subjects Cladding
Claddings
Computer simulation
Deformation
Electric induction furnaces
Nuclear fuel elements
Nuclear fuels
Nuclear reactors
Optical instruments
Optics
Physics
Pressurized water
Pressurized water reactors
Real time
Scientific apparatus & instruments
Speckle interferometry
Thermal transients
Time measurement
title An experimental platform for real-time measurement of the deformation of nuclear fuel rod claddings submitted to thermal transients
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