Abstract
In pile {gamma} spectrometry, non destructive examination technique is operated in OSIRIS experimental reactor, especially within the framework of pressurized water reactor designers and operators technological support programs, in order to have quick and reliable characterization of nuclear fuel behavior, particularly during power transients. Major requirements refer to activity spatial distributions for fission, filiation or activation products with short, mean or long period, as well as irradiation power. This technique also allows dimensional measurements and burn-up assessment. All comparisons can be performed between before and after reirradiation characteristics of a same fuel pin, including other examination benches (diametral metrology, eddy currents, neutronoradiography,...) results crossing. (author). 2 figs.
Citation Formats
Marchand, L.
Gamma spectrometry in experimental reactor: a main tool for nuclear fuels study; La spectrometrie {gamma} en reacteur experimental: un moyen essentiel d`etude des combustibles nucleaires.
France: N. p.,
1993.
Web.
Marchand, L.
Gamma spectrometry in experimental reactor: a main tool for nuclear fuels study; La spectrometrie {gamma} en reacteur experimental: un moyen essentiel d`etude des combustibles nucleaires.
France.
Marchand, L.
1993.
"Gamma spectrometry in experimental reactor: a main tool for nuclear fuels study; La spectrometrie {gamma} en reacteur experimental: un moyen essentiel d`etude des combustibles nucleaires."
France.
@misc{etde_10102991,
title = {Gamma spectrometry in experimental reactor: a main tool for nuclear fuels study; La spectrometrie {gamma} en reacteur experimental: un moyen essentiel d`etude des combustibles nucleaires}
author = {Marchand, L}
abstractNote = {In pile {gamma} spectrometry, non destructive examination technique is operated in OSIRIS experimental reactor, especially within the framework of pressurized water reactor designers and operators technological support programs, in order to have quick and reliable characterization of nuclear fuel behavior, particularly during power transients. Major requirements refer to activity spatial distributions for fission, filiation or activation products with short, mean or long period, as well as irradiation power. This technique also allows dimensional measurements and burn-up assessment. All comparisons can be performed between before and after reirradiation characteristics of a same fuel pin, including other examination benches (diametral metrology, eddy currents, neutronoradiography,...) results crossing. (author). 2 figs.}
place = {France}
year = {1993}
month = {Dec}
}
title = {Gamma spectrometry in experimental reactor: a main tool for nuclear fuels study; La spectrometrie {gamma} en reacteur experimental: un moyen essentiel d`etude des combustibles nucleaires}
author = {Marchand, L}
abstractNote = {In pile {gamma} spectrometry, non destructive examination technique is operated in OSIRIS experimental reactor, especially within the framework of pressurized water reactor designers and operators technological support programs, in order to have quick and reliable characterization of nuclear fuel behavior, particularly during power transients. Major requirements refer to activity spatial distributions for fission, filiation or activation products with short, mean or long period, as well as irradiation power. This technique also allows dimensional measurements and burn-up assessment. All comparisons can be performed between before and after reirradiation characteristics of a same fuel pin, including other examination benches (diametral metrology, eddy currents, neutronoradiography,...) results crossing. (author). 2 figs.}
place = {France}
year = {1993}
month = {Dec}
}