Hostname: page-component-6d856f89d9-jrqft Total loading time: 0 Render date: 2024-07-16T05:21:42.706Z Has data issue: false hasContentIssue false
  • English
  • Français

Sorption of Plutonium and Americium on Repository, Backfill and Geological Materials Relevant to The JNFL Low-Level Radioactive Waste Repository at Rokkasho-Mura

Published online by Cambridge University Press:  15 February 2011

G M N Baston ,
J A Berry ,
M Brownsword ,
T G Heath ,
C J Tweed  and
S J Williams
G M N Baston
Affiliation:
AEA Technology, 220 Harwell, Oxfordshire, UK
J A Berry
Affiliation:
AEA Technology, 220 Harwell, Oxfordshire, UK
M Brownsword
Affiliation:
AEA Technology, 220 Harwell, Oxfordshire, UK
T G Heath
Affiliation:
AEA Technology, 220 Harwell, Oxfordshire, UK
C J Tweed
Affiliation:
AEA Technology, 220 Harwell, Oxfordshire, UK
S J Williams
Affiliation:
AEA Technology, 220 Harwell, Oxfordshire, UK
Get access

Abstract

An integrated programme of batch sorption experiments and mathematical modelling has been carried out to study the sorption of plutonium and americium on a series of repository, backfill and geological materials relevant to the JNFL low-level radioactive waste repository at Rokkasho-Mura.

The sorption of plutonium and americium on samples of concrete, mortar, sand/bentonite, tuff, sandstone and cover soil has been investigated. In addition, specimens of bitumen, cation and anion exchange resins, and polyester were chemically degraded. The resulting degradation product solutions, alongside solutions of humic and iso-saccharinic acids were used to study the effects on plutonium sorption onto concrete, sand/bentonite and sandstone.

The sorption behaviour of plutonium and americium has been modelled using the geochemical speciation program HARPHRQ in conjunction with the HATCHES database.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 353: Symposium – Scientific Basis for Nuclear Waste Management XVIII , 1994 , 957
Copyright
Copyright © Materials Research Society 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

1. Berry, J. A.: A review of sorption of radionuclides under near- and far-field conditions of an underground radioactive waste repository. UK DOE Report, DOE/HMIP/RR/92/061 Parts I–III (1992).Google Scholar
2. Greenfield, B.F., Linklater, C.M., Moreton, A.D., Spindler, M.W. and Williams, S.J., in Actinide Processing: Methods and Materials, edited by Mishra, B. and Averill, W.A., (TMS.1994) pp. 289–303, and references therein.Google Scholar
3. Boggs, S., Livermore, D. and Seitz, M.G., Humic Substances in Natural Waters and their Complexation with Trace Metals and Radionuclides: A Review. Argonne National Laboratory Report ANL-84-78 (1984).Google Scholar
4. Brown, P.L., Haworth, A., Sharland, S.M. and Tweed, C.J., HARPHRQ: A Geochemical Speciation Program based on PHREEQE. UK Nirex Ltd Report NSS/R188 (1991).Google Scholar
5. Cross, J.E. and Ewart, F.T., Radiochimica Acta 52/53, 421 (1991).Google Scholar
6. Rai, D.. Radiochimica Acta, 34, 97 (1984).Google Scholar
7. Dzombak, D.A. and Morel, F.M.M., Surface Complexation Modelling: Hydrous Ferric Oxide (John Wiley and Sons, 1990).Google Scholar
8. Tweed, C.J. and Milodowski, A.E., An Overview of the Maqarin Natural Analogue Project - A Natural Analogue Study of a Hyperalkaline Cement Groundwater System. in CEC Repon EUR 15176 (1994).Google Scholar
9. Heath, T. G., Moreton, A. D. and Tweed, C. J.. To be publishedGoogle Scholar
10. Beaven, G. W., Bodsworth, K., Cross, J. E., Hooper, E. W. and Wilkins, M.: The effect of EDTA and citrate on alpha decontarnination processes. UKAEA Report, AERE R12558 (1987).Google Scholar
11. Bond, K.A. and Tweed, C.J., Geochemical Modelling of the Sorption of Tetravalent Radioelements, UK Nirex Ltd Report NSS/R227 (1991).Google Scholar
12. Moreton, A.D., in Scientific Basis for Nuclear Waste Management XVI, edited by Interrante, C.G. and Pabalan, R.T. (Mater. Res. Soc. Proc. 294, Pittsburgh, PA, 1993), pp.753758.Google Scholar
13. Kleinberg, J., Argersinger, W.J. and Griswold, E. in ‘Inorganic Chemistry’. (Heath, 1960), p.261.Google Scholar
14. Katz, J.J., Seaborg, G.T. and Morss, L.R. in The Chemistry of the Actinide Elements’. (Second Edition, Chapman and Hall, 1986), p797.Google Scholar