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Correlation of 137Cs Release From Small-Scale to Large-Scale Cement Waste Forms

Published online by Cambridge University Press:  21 February 2011

Nabil Morcos ,
Ramesh Dayal ,
Laurence Milian ,
Philip Hayde  and
Allen J. Weiss
Nabil Morcos*
Affiliation:
Brookhaven National Laboratory, Department of Nuclear Energy, Upton, New York
Ramesh Dayal
Affiliation:
Brookhaven National Laboratory, Department of Nuclear Energy, Upton, New York
Laurence Milian
Affiliation:
Brookhaven National Laboratory, Department of Nuclear Energy, Upton, New York
Philip Hayde
Affiliation:
Brookhaven National Laboratory, Department of Nuclear Energy, Upton, New York
Allen J. Weiss
Affiliation:
Brookhaven National Laboratory, Department of Nuclear Energy, Upton, New York
*
*Present address: Mallinckrodt, Inc., St. Louis, Missouri 63134.
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Abstract

A study correlating the leachability of 137 Cs from small-scale to large-scale cement forms was performed. The waste forms consisted of (a) organic ion exchange resins incorporated in Portland I cement, with a waste-to-cement ratio of 0.6 and a water-to-cement ratio of 0.4 (as free water) and (b) boric acid waste (12% solution) incorporated in Portland III cement, with a waste-to-cement ratio of 0.7. 137Cs was added to both waste types prior to solidification. The sample dimensions varied from 1 in. ×1 in. to 22 in. × 22 in. (diameter × height). Leach data extending over a period of 260 days were obtained using a modified IAEA leach test. A method based on semi-infinite plane source diffusion model was applied to interpret the leach data, which allows prediction of the amount of 137Cs leached from the forms as a function of leaching time and waste form dimensions. A reasonably good agreement between the experimental and calculated data was obtained for both types of cement waste forms.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 15: Symposium D – Scientific Basis for Nuclear Waste Management VI , 1982 , 259
Copyright
Copyright © Materials Research Society 1983

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References

REFERENCES

1. United States Nuclear Regulatory Commission, “Design Guidance for Solid Radioactive Waste Management Systems Installed in Light-Water Cooled Nuclear Reactor Power Plants,” NUREG–75/087 (currently published as NUREG–0800, July 1981), Standard Review Plan, USNRC, Office of Nuclear Reactor Regulation, Section 11.4, 1975.Google Scholar
2.United States Nuclear Regulatory Commission, “Licensing Requirements for Land Disposal of Radioactive Waste,” Final Rule 10 CFR Part 61, to be published in the U. S. Federal Register, 1982.Google Scholar
3. Morcos, N., Dayal, R., and Weiss, A., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, Status Report, October 1980–September 1981,” NUREG/CR–2617, BNL–NUREG–51515, 1982.CrossRefGoogle Scholar
4. Morcos, N. and Dayal, R., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, Quarterly Progress Report, October–December 1981,” NUREG/CR 2193, BNL–NUREG–51410, Vol. 1, No. 3, 1982.Google Scholar
5. Godbee, H. W. and Joy, D. S., Oak Ridge National Laboratory, “Assessment of the Loss of Radioactive Isotopes From Waste Solids to the Environment. Part 1. Background and Theory,” ORNL–TM–4333, 1974.Google Scholar
6. Moore, J. G., Godbee, H. W., and Kibbey, A. H., “Leach Behavior of Hydrofracture Grout Incorporating Radioactive Wastes,” Nucl. Tech. 32, 3952, 1977.Google Scholar
7. Anders, O. U., Bartel, J. F., and Altschuler, S. L., “Determination of the Leachability of Solids,” Anal. Chem. 50, 564–69, 1978.CrossRefGoogle Scholar
8. Godbee, H. W., et al. , “Application of Mass Transport Theory to the Leaching of Radionuclides From Waste Solids,” Nuclear and Chemical Waste Management 1, 2935, 1980.Google Scholar
9. Choi, S. K., et al. , “Simultaneous Dispersion and Decay of Radioactive Wastes,” Health Physics 22, 177186, 1972.Google Scholar
10. Brownell, L. E., et al. , “Durability Evaluation of Radioactive Waste Products,” ARH–SA–165, 1973.Google Scholar
11. Moriyama, N., et al. , “Leaching Behavior of Cesium-137 in Cement-Waste Composites,” JAERI–M 6302, 1975.Google Scholar
12. Moriyama, N., et al. , “Leaching Behavior of Cesium-137 in Cement-Waste Composites,” Health Physics 32, 549, 1977.Google Scholar
13. Hespe, E. D., “Leach Testing of Immobilized Radioactive Waste Solids, A Proposal for a Standard Method,” Atomic Energy Rev. 9, 195, 1971.Google Scholar
14. Morcos, N. and Weiss, A. J., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, Quarterly Progress Report, April-June 1980,” NUREG/CR–1694, BNL–NUREG–51266, 1980.Google Scholar
15. Arementos, S. G. and Petropoulos, J. H., “A Study of Leaching Kinetics of Ions From ‘Wastes’ Incorporated in Bitumen,” Democritus Nuclear Research Center, Athens, Greece, Demo 72/11, 1972.Google Scholar
16. Matsuzuru, H. and Ito, A., “Effect of Dimension of Specimens on Amounts of Cesium–137, Strontium–90, and Cobalt–60 Leached From Matrix of Hardened Cement Grout,” Jour. Nuclear Sci. and Tech. 15, 296301, 1978.Google Scholar
17. Morcos, N. and Weiss, A. J., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, Quarterly Progress Report, October–December 1980,” NUREG/CR–2125, BNL–NUREG–51384, 1981.Google Scholar
18. Colombo, P. and Neilson, R. M. Jr., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, First Topical Report,” Appendix C, NUREG/CR–0619, BNL–NUREG–50957, 1979.Google Scholar
19. Manaktala, H. K. and Weiss, A. J., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, Quarterly Progress Report, January-March 1980,” NUREG/CR–1514, BNL–NUREG–51220, 1980.Google Scholar
20. Manaktala, H. K., Colombo, P., and Neilson, R. M. Jr., Brookhaven National Laboratory, “Properties of Radioactive Wastes and Waste Containers, Quarterly Progress Report, October-December 1979,” NUREG/CR–1326, BNL–NUREG–51148, 1980.Google Scholar