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Apatitic Waste Forms: Process Overview

Published online by Cambridge University Press:  10 February 2011

J. Carpena
Affiliation:
Commissariat ä I'Energie Atomique, DCC/DESD, Bat. 307, 13108 Saint Paul lez Durance, France
F. Audubert
Affiliation:
Commissariat ä I'Energie Atomique, DCC/DESD, Bat. 307, 13108 Saint Paul lez Durance, France
D. Bernache
Affiliation:
Université des Sciences de Limoges, LMCTS/CNRS URA 320, 123 Avenue A. Thomas, 87060 Limoges, France
L. Boyer
Affiliation:
Commissariat ä I'Energie Atomique, DCC/DESD, Bat. 307, 13108 Saint Paul lez Durance, France INP Toulouse, CNRS URA 445, 38 rue des 36 ponts, 31400 Toulouse, France
B. Donazzon
Affiliation:
INP Toulouse, CNRS URA 445, 38 rue des 36 ponts, 31400 Toulouse, France
J.L. Lacout
Affiliation:
INP Toulouse, CNRS URA 445, 38 rue des 36 ponts, 31400 Toulouse, France
N. Senamaud
Affiliation:
Commissariat ä I'Energie Atomique, DCC/DESD, Bat. 307, 13108 Saint Paul lez Durance, France Université des Sciences de Limoges, LMCTS/CNRS URA 320, 123 Avenue A. Thomas, 87060 Limoges, France
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Abstract

Our study is concerned with the different apatitic waste forms which can be produced with processes ranging from high-temperatures to ambient temperature synthesis. The different processes developped allow to take into account the nature of the waste and the application targeted, from specific conditioning of separated wastes, encapsulating of mixed wastes, solid or liquid wastes, to filling materials for direct storage of spent fuel, interim storage, surface storage or deep repository.

Type
Research Article
Copyright
Copyright © Materials Research Society 1998

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References

REFERENCES

1 - Carpéna, J., 1992, CEA Internal Report, NT-SESD 92–21.Google Scholar
2 - Carpéna, J., 1996, NT-CEA-SEP96/450.Google Scholar
3 - Carpéna, J. et Lacout, J.L., 1993a, Licence HD 626.Google Scholar
4 - Carpéna, J. et Lacout, J.L., 1993b, Licence HD 627.Google Scholar
5 - Boyer, L., Carpéna, J., Lacout, J.L., 1997, State Ionics, 95,121129 Google Scholar
6 - , Carpéna and Lacout, J.L., 1997, L'Actualité Chimique (R), 2, 39.Google Scholar
7 - Carpéna, J. et Sère, V., 1995, Proceedings fourth joint EC-CEA final Meeting, Saclay, 225238.Google Scholar
8 - Bros, R., Carpéna, J., Sère, V., Beltritti, A., 1995, Radiochimica Acta, 74,277282.Google Scholar
9 - Carpéna, J., 1997, in “Advances in Fission Track GeochronologyHaute, P. Van den and Corte, F. de (Eds.), Kluwer Academic Publishers, in press.Google Scholar
10 - Medjoubi, E., 1993, Doctoral Thesis, INP Toulouse, France.Google Scholar
11 - Carpéna, J., Donazzon, B., Lacout, J.L., 1996, NT-CEA-SEP/96-439.Google Scholar
12 - Audubert, F., 1996, Doctoral Thesis, INP Toulouse.Google Scholar
13 - Carpéna, J., Kienast, J.R., Ouzegane, K., Jehanno, C., 1988, Geol.Soc.Amer. Bull. 100, 12371243.Google Scholar
14 - Carpéna, J., Sère, V., Kienast, J.R., 1995b, Migration 95, St-Malo.Google Scholar
15 - Ouzegane, K, Fourcade, S., Kienast, J.R., Javoy, M., 1988, Contrib. Mineral. Petrol. 98, 277292.Google Scholar
16 - Carpéna, J., Audubert, F., Lacout, J.L., 1995a, Patent N'.WO96/18196, 6Nov.1995.Google Scholar
17 - Jouan, A., Moncouyoux, J.P. and Merlin, S., 1995, Waste Management 95, Tucson, USA.Google Scholar
18 - Boyer, L., Savariault, J.M., Carpéna, J., Lacout, J.L., 1997, Acta Crystal. in press.Google Scholar
19 - Jouan, A., Pacaud, F., Carpéna, J. and Fiquet, O., 1996, in “High temperature and Materials Science” Ed. Humana Press, Totowa, NW Jersey, USA.Google Scholar
20 - Bart, F., L'Hermite, V., Houpert, S., Fillet, C., Pacaud, F., Jacquet-Francillon, N., 1997, Am. Cer. Soc. Cincinnati may 97.Google Scholar