Fission product inventory and burnup evaluation of the AGR-2 irradiation by gamma spectrometry

Jason M. Harp, Paul A. Demkowicz, John D. Stempien

Research output: Contribution to journalArticlepeer-review

9 Scopus citations

Abstract

Gamma spectrometry has been used to evaluate the burnup and fission product inventory of different components from the US Advanced Gas Reactor Fuel Development and Qualification Program's second TRISO-coated particle fuel irradiation test (AGR-2). TRISO fuel in this irradiation included both uranium carbide/uranium oxide (UCO) kernels and uranium oxide (UO2) kernels. Four of the 6 capsules contained fuel from the US Advanced Gas Reactor program, and only those capsules will be discussed in this work. The inventories of gamma-emitting fission products from the fuel compacts, graphite compact holders, graphite spacers and test capsule shell were evaluated. The measured activities were used to calculate the fractional release of fission products such as Cs-137, Cs-134, Eu-154, Ce-144, and Ag-110m from the compacts. The fraction of Ag-110m retained in the compacts ranged from 1.8% to full retention. Additionally, the activities of the radioactive cesium isotopes (Cs-134 and Cs-137) have been used to evaluate the burnup of all US TRISO fuel compacts in the irradiation. The experimental burnup evaluations compare favorably with burnups predicted from physics simulations. Predicted burnups for UCO compacts range from 7.26 to 13.15% fission per initial metal atom (FIMA) and 9.01–10.69% FIMA for UO2 compacts. Measured burnup ranged from 7.3 to 13.1% FIMA for UCO compacts and 8.5–10.6% FIMA for UO2 compacts. Results from gamma emission computed tomography performed on compacts and graphite holders that reveal the distribution of different fission products in a component will also be discussed. Gamma tomography of graphite holders was also used to locate the position of TRISO fuel particles suspected of having silicon carbide layer failures that lead to in-pile cesium release.

Original languageEnglish
Pages (from-to)134-141
Number of pages8
JournalNuclear Engineering and Design
Volume329
DOIs
StatePublished - Apr 1 2018
Externally publishedYes

Funding

This work was supported by the U.S. Department of Energy , Office of Nuclear Energy . Assistance with quantitative analysis of fission product inventories was provided by the INL Analytical Laboratory, and many hot cell activities were performed by staff of the INL Hot Fuel Examination Facility.

FundersFunder number
U.S. Department of Energy
Office of Nuclear Energy
Ames Laboratory

    Keywords

    • Burnup
    • Fission product transport
    • Gamma spectrometry
    • TRISO fuel

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