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Sensitivity Surfaces for the Assessment of Waste Package Performance

Published online by Cambridge University Press:  28 February 2011

D. M. Leneveu  and
N. C. Garisto
D. M. Leneveu
Affiliation:
Atomic Energy of Canada Limited, Whiteshell Nuclear Research Establishment, Pinawa, Manitoba, Canada ROE 1LO.
N. C. Garisto
Affiliation:
Atomic Energy of Canada Limited, Whiteshell Nuclear Research Establishment, Pinawa, Manitoba, Canada ROE 1LO.
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Abstract

Sensitivity surfaces have been developed to analyse the performance of engineered barriers of an underground nuclear fuel waste disposal vault. The major engineered barriers are the waste form, the containers and the buffer surrounding the containers. A modular computer code has been developed that calculates the release rate from each barrier. The modules are linked together through the use of time-series-management routines. By systematic variation of the model input parameters, sensitivity surfaces are constructed that illustrate the behaviour of an objective function such as maximum fractional release rate in response to the changes in the input parameters.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 112: Symposium P – Scientific Basis for Nuclear Waste Management XI , 1987 , 323
Copyright
Copyright © Materials Research Society 1988

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References

1. Andres, T.H., “Features of the SYVAC3 Executive”, in Proc. Twentieth Information Meeting of the Canadian Nuclear Fuel Waste Management Program. Atomic Energy of Canada Limited Technical Record, TR-375”, 2, 365 (1986).Google Scholar
2. Sherman, G.R., Donahue, D., King, S. and So, A., “A Systems Variability Analysis Code SYVAC2 and Submodels for the Second Interim Assessment of the Canadian Concept for Nuclear Fuel Waste Disposal”, Atomic Energy of Canada Limited Technical Record, TR-317 (1986).Google Scholar
3. Garisto, N.C. and LeNeveu, D.M., “A Vault Model for the Assessment of Used Fuel Disposal in Canada”, submitted to Scientific Basis for Nuclear Fuel Waste Management, MRS Meeting, Boston, Fall (1987).Google Scholar
4. Garisto, N.C., Harvey, K.B., Garisto, F., and Johnson, L.H., “Source Term Models for the Assessment of Nuclear Fuel Waste Disposal in Canada”, in Proc. Symp. Waste Management '86, University of Arizona, Tucson, 2, 397 (1986).Google Scholar
5. LeNeveu, D.M., “Vault Submodel for the Second Interim Assessment of the Canadian Concept for Nuclear Fuel Waste Disposal: Post-Closure Phase”, Atomic Energy of Canada Report, AECL-8383 (1986).Google Scholar
6. LeNeveu, D.M., “Response Functions of the Convection-Dispersion Equations Describing Radionuclide Migration in a Finite Medium”, Ann. Nuc. Energy 14, 77 (1987).Google Scholar
7. Bird, R.B., Stewart, W.E., and Lightfoot, E.N., Transport Phenomena, (John Wiley and Sons, New York, 1960) pp. 537540.Google Scholar
8. Cheung, S.C. and Chan, T., “Parameter-Sensitivity Analysis of Near- Field Radionuclide Transport in Buffer Material and Rock for an Underground Nuclear Fuel Waste Vault”, Atomic Energy of Canada Report, AECL-7801 (1983).Google Scholar
9. Lever, D.A., “Some Notes on Experiments Measuring Diffusion of Sorbed Nuclides through Porous Media”, Theoretical Physics Division HarwellGoogle Scholar
10. Desaulniers, D.E., Cherry, J.A., and Fritz, P., “Origin, Age and Movement of Pore Water in Agrillaceous Tuaternary Deposits at Four Sites in South Western Ontario”, J. Hydrology 50 pp. 231257 (1981).Google Scholar
11. Wuschke, D.M., Gillespie, P.A., Mehta, K.K., Heinrich, W.F., LeNeveu, D.M., Guvanasen, V.M., Sherman, G.R., Donahue, D.C., Goodwin, B.W., Andres, T.H., and Lyon, R.B., “Second Interim Assessment of the Canadian Concept for Nuclear Fuel Waste Disposal Volume 4: Post- Closure Assessment”, Atomic Energy of Canada Report, AECL-8373-4 (1985).Google Scholar
12. U.S. Nuclear Regulatory Commission (NRC), “Disposal of High-Level Radioactive Wastes in Geologic Repositories”, Title 10, Code of Federal Regulations, Part 60, 46, No. 130, Final Rules, Nuclear Regulatory Commission, Washington, D.C. (1983).Google Scholar
13. Apted, M.J., Liebetrau, A.M. and Engel, D.W., “Spent Fuel as a Waste Form: Analysis with Arrest Performance Assessment Code”, in Proc. Symp. Waste Management '87, University of Arizona, Tucson, (1986).Google Scholar