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Capture and Sequestration of Radioactive Iodine

Published online by Cambridge University Press:  01 February 2011

Brian Westphal
Affiliation:
[email protected], Idaho National Laboratory, Idaho Falls, Idaho, United States
Daniel G. Cummings
Affiliation:
[email protected], Idaho National Laboratory, Idaho Falls, Idaho, United States
Jeff J. Giglio
Affiliation:
[email protected], Idaho National Laboratory, Idaho Falls, Idaho, United States
Dennis L. Wahlquist
Affiliation:
[email protected], Idaho National Laboratory, Idaho Falls, Idaho, United States
Ken J. Bateman
Affiliation:
[email protected], Idaho National Laboratory, Idaho Falls, Idaho, United States
William M. McCartin
Affiliation:
[email protected], Idaho National Laboratory, Idaho Falls, Idaho, United States
Jang J. Park
Affiliation:
[email protected], Korea Atomic Energy Research Institute, Daejeon, Korea, Republic of
Jin M. Shin
Affiliation:
[email protected], Korea Atomic Energy Research Institute, Daejeon, Korea, Republic of
Bruce D. Begg
Affiliation:
[email protected], Australian Nuclear Science and Technology Organization, Idaho Falls, Idaho, United States
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Abstract

Trapping experiments have been performed at the Idaho National Laboratory to assess the performance of AgX sorbent media in capturing volatile iodine during the oxidation of irradiated oxide fuel. The demonstration of iodine release and capture from the used fuel has been accomplished with laboratory-scale equipment in a hot cell environment. Iodine loadings as high as 6 ug/g media have been achieved via chemical adsorption with filter efficiencies in excess of 90%. In addition to iodine, significant quantities of tritium have also been collected on the AgX filter media. Filter media loaded with radioactive iodine has been sequestered in a tin matrix by hot isostatic pressing at 200°C. The placement and encapsulation of the sorbent media was examined by neutron radiography, thus confirming the sequestration of radioactive iodine.

Type
Research Article
Copyright
Copyright © Materials Research Society 2010

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References

1 Bodine, J.E. Groce, I.J. Guon, J., and Hanson, L.A. Nucl. Sci. Eng. 19, 1 (1964).Google Scholar
2 Westphal, B.R. Bateman, K.J. Lind, R.P. Howden, K.L. and Cul, G.D. Del, Proc. Global 2005, 345 (2005).Google Scholar
3 Song, K.C. Park, G.I. Lee, J.W. Park, J.J. and Yang, M.S. Nucl. Tech. 162, 2 (2008).Google Scholar
4 Park, J.J. Lee, J.W. Shin, J.M. Park, G.I. Song, K.C. and Lee, J.W. Proc. Global 2009, 122 (2009).Google Scholar
5 Westphal, B.R. Park, J.J. Shin, J.M. Park, G.I. Bateman, K.J. and Wahlquist, D.L. Sep. Sci. Tech. 43, 910, 2695 (2008).Google Scholar
6 Vance, E.R. Perera, D.S. Moricca, S., Aly, Z., and Begg, B.D. J. Nucl. Mat. 341, 93 (2005).Google Scholar
7 Choi, B.S. Park, G.I. Kim, J.H. Lee, J.W. and Ryu, S.K. Adsorption 7, 91 (2001).Google Scholar
8 Maeck, W.J. Pence, D.T. and Keller, J.H. Proc. 10th AEC Air Clean, 185 (1968).Google Scholar
9 Park, G.I. Choi, B.S. Cho, I.H. Kim, J.H. and Ryu, S.K. Kor, J.. Nucl. Soc. 32, 5, 504 (2000).Google Scholar
10 American Society for Testing and Materials, Annual Book of ASTM Standards, 12.01, C122098 (1998).Google Scholar
11 Mineo, H., Gotoh, M., Iizuka, M., Fujisaki, S., Hagiya, H., and Uchiyama, G., Sep. Sci. Tech. 38, 9, 1981 (2003).Google Scholar
12 Kleykamp, H., J. Nucl. Mat. 131, 221 (1985).Google Scholar
13 Westphal, B.R. Lind, R.P. Giglio, J.J. Cummings, D.G. Huntley, M.W. Morgan, C.D. Bateman, K.J., Wahlquist, D.L. and Sell, D.A. Proc. Global 2007, 605 (2007).Google Scholar
14 Thomas, T.R. Staples, B.A. Murphy, L.P. and Nichols, J.T. Proc. 14th ERDA Air Cleaning, 363 (1977).Google Scholar
15 Bleier, A., Kroebel, R., Neeb, K.H. and Schneider, E., Proc. Fuel Reprocessing and Waste Management, 1-238 (1984).Google Scholar