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Immobilization of Actinides by Hydroxylapatite

Published online by Cambridge University Press:  25 February 2011

R. Gauglitz ,
M. Holterdorf ,
W. Franke  and
G. Marx
R. Gauglitz
Affiliation:
Free University of Berlin, Institute of Inorganic and Analytical Chemistry, Radiochimical Division, Fabeckstr.34-36, 1000 Berlin 33, FRG
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Abstract

In cooperation with the Ministry of Research and Technology we investigated the influence of hydroxylapatite (HAP) added to the backfill material of a radioactive waste disposal located in a salt dome. The time dependence of the sorption and precipitation of radionuclides has been studied in three different praxisrelevant salt brines under variation of temperature and pH-value.

Performing batch experiments uranium and thorium phosphates were precipitated from UO2(NO3)2 and Th(NO3)4 solutions at 75°C, the amounts of the relevant actinide compounds also exceeding that of HAP. The isolated precipitates were investigated by use of X-ray-powder-diffractometry and SEM. For the various uranium systems two mineral phases were obtained. From solution II and also from Q-brine the mineral saléeite Mg(UO2)2 (PO4)2 · 9H2O was formed. From solution III meta-autunite Ca(UO2)2(PO4)2 · 6H2O, a dehydration product of autunite, was precipitated.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 257: Symposium – Scientific Basis for Nuclear Waste Management XV , 1991 , 567
Copyright
Copyright © Materials Research Society 1992

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References

REFERENCES

[1] ROXBURGH, I.S.: Geology of High Level Waste Disposal, Chapman and Hall - New York 1987.Google Scholar
[2] RINGWOOD, A.E.: Fortschr. Miner.,58(2)(1980) 149168.Google Scholar
[3] GUNTER, H. A.: Fortschr. Miner., 58(2)(1980) 169211.Google Scholar
[4] NOWAK, E.J.: SAND 791110 (1980).CrossRefGoogle Scholar
[5] NOWAK, E.J.: SAND 790990 (1979).Google Scholar
[6] NOWAK, E.J.: SAND 820750 (1982).CrossRefGoogle Scholar
[7] RIESENFELD, E.H.: Anorganisch-chemisches Praktikum, Verlag S.Hirzel - Leipzig 1931.Google Scholar
[8] BRAITSCH, O.: Entstehung und Stoffbestand der Salzlagerstitten, Springer Verlag - Berlin 1962, 86ff.Google Scholar
[9] Arbeitskreis “HAW-Produkte” des BMFT: Stellungnahme Nr. 3 - Korrosionsexperimente an verglasten radioaktiven Abfilen - Salzlösungen und S/V-Verhi1tnis (1986), 2-11.Google Scholar