First in-pile experimental results of high-plutonium-content oxide fuel for plutonium burning in fast reactors

Citation
E. Picard et al., First in-pile experimental results of high-plutonium-content oxide fuel for plutonium burning in fast reactors, NUCL TECH, 129(1), 2000, pp. 1-12
Citations number
7
Categorie Soggetti
Nuclear Emgineering
Journal title
NUCLEAR TECHNOLOGY
ISSN journal
00295450 → ACNP
Volume
129
Issue
1
Year of publication
2000
Pages
1 - 12
Database
ISI
SICI code
0029-5450(200001)129:1<1:FIEROH>2.0.ZU;2-P
Abstract
An experimental program focused not only on the study of high-plutonium-con tent mixed-oxide fuels but also on more advanced "Pu without U" fuel concep ts has been launched in the framework of the Consommation Accrue de Plutoni um dans les RApides (CAPRA) project. First results of the in-pile and out-o f-pile behavior of high-plutonium-content fuels with uranium, such as (U-55 %,Pu-45%) O-2, and (U-55%,Pu-40%,Np-5%) O-2, and also without uranium, such as (Pu-44%,Ce-56%,)O-2, are now available. In particular, the Irradiation a FOrt Pu (IFOP) experiment in the SILOE reactor and the TRAnsmutation and Burning of ActiNides in Triox carrier (TRABANT1) experiments in the High Fl ux Reactor are presented and the results are analyzed: Up to a burnup of 1. 5 at. %, destructive examinations of the IFOP pin have shown that the high- plutonium-content oxide fuel with a large central hole presents the usual g lobal behavior (good pellet integrity, fuel microstructure). The TRABANT1 o xide fuel pin with a 40% Pu and 5% Np content demonstrates that a burnup of 9.5 at. % can be reached without failure by a high-plutonium-content fuel. However, the TRABANT1 pin 1 (oxide pin with 45% Pu), which had run under s evere conditions, has failed at similar to 7 at. % burnup. Destructive exam inations of these pins will give more evidence on the causes of the failure . The low-oxygen-to-metal fuel column of (Pu, Ce)O2-x melted, thus confirmi ng the poor conductivity of this fuel.