Hostname: page-component-54dcc4c588-b5cpw Total loading time: 0 Render date: 2025-09-25T20:09:55.631Z Has data issue: false hasContentIssue false
  • English
  • Français

Experimental Study of Colloid Filtration by CompactedBentonite

Published online by Cambridge University Press:  03 September 2012

Susumu Kurosawa ,
Mikazu Yui  and
Hideki Yoshikawa
Susumu Kurosawa
Affiliation:
Naka Energy Research Center, Mitsubishi Materials Corporation, 1002–14 Mukouyama, Naka-machi, Naka-gun, Ibaraki-ken, 311–01, Japan
Mikazu Yui
Affiliation:
Power Reactor and Nuclear Fuel Development Corporation, 4–33 Muramatsu, Tokai-mura, Naka-gun, Ibaraki-ken, 319–11, Japan
Hideki Yoshikawa
Affiliation:
Power Reactor and Nuclear Fuel Development Corporation, 4–33 Muramatsu, Tokai-mura, Naka-gun, Ibaraki-ken, 319–11, Japan
Get access

Abstract

In this study, the transport behavior of colloids through compactedbentonite and sand-bentonite mixtures was investigated. Colloidal gold wasused to simulate mobile colloids because it was well characterized and itsdispersivity was controlled. The bentonite used was a sodium bentonite. Thesand-bentonite mixtures were prepared by mixing up to 50wt.% silica sandwith the bentonite. The bentonite and the sand-bentonite mixtures werecompacted to dry densities of 1000 and 1800 kg/m3 and thensaturated with distilled water. The sand-bentonite mixture was alsosaturated with synthetic sea-water. Column experiments were performed toinvestigate colloidal transport. Further, colloidal particles stabilities inhigh ionic strength water such as bentonite porewater or saline groundwaterwere interpreted based on the repulsion potential from the double layerforce and the attraction potential from the van der Waals force.

The results indicated that the colloidal particles were effectively filteredby both the compacted bentonite and the sand-bentonite mixtures. This studyindicated that the effect of colloids on radionuclide transport in compactedbentonite is negligible for the safety assessment of high level radioactivewaste (HLW) disposal.

Information

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 465: Symposium II – Scienfific Basis for Nuclear Waste Management XX , 1996 , 963
Copyright
Copyright © Materials Research Society 1997

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.)

Article purchase

Temporarily unavailable

References

REFERENCES

1. Sato, H., Yui, M. and Yoshikawa, H., in Scientific Basis for Nuclear Waste Management XVIII. edited by Takahashi, M. and Rodney, C. E. (Mater. Res. Soc. Symp. Proc. 353, Kyoto, 1994), pp269276.Google Scholar
2. Kim, J. I., Buckau, G., Klenze, R., Rhee, D. S. and Wimmer, H., CEC Report EUR 13181, 41 (1991).Google Scholar
3. Ogino, K., Ohta, M. and Matsui, J., 18th Int. I.F.S.C.C. Cong., (Venezia, 1994), pp. 272284.Google Scholar
4. Kurosawa, S., Yoshikawa, H. and Yui, M., Radioactive Waste Research 1 (2), 177(1995)(in Japanese).Google Scholar
5. Nakano, M., Amemiyaand, Y., Fujii, K., Trans. JSIDRE 100, 8 (1982)(in Japanese with English abstract, figures and tables).Google Scholar
6. Ishikawa, H., Amemiya, K., Yusa, Y. and Sasaki, N., Int. Clay Conf. Proc. 9, (Strasbourg, 1989).Google Scholar
7. Kruyt, H. R., Colloid Science, 1st ed. (Elsevier Publishers, New York, 1952), p. 271.Google Scholar