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Synthetic Mineral-Like Matrices for HLLW Solidification: Preparation by Induction Melter with a Cold Crucible (CCIM)

Published online by Cambridge University Press:  03 September 2012

T. V. Smelova
Affiliation:
MINATOM RF, SSC RF VNIINM, Rogov 5, Moscow, 123060, Russia
N. V. Krylova
Affiliation:
MINATOM RF, SSC RF VNIINM, Rogov 5, Moscow, 123060, Russia
I. N. Shestoperov
Affiliation:
MINATOM RF, SSC RF VNIINM, Rogov 5, Moscow, 123060, Russia
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Abstract

A technique for solidification of high-level liquid wastes (HLLW) to obtain mineral-like forms through the use of water-cooled melters with direct induction heating of a melt (CCIM) has been developed at the State Scientific Center of the Russian Federation VNIINM (SSC RF VNIINM).

Mineral-like materials of different classes such as pyroxenes, pyrosilicates, garnets of the andradite group, titanosilicates and Synroc D were synthesized by the CCIM method at temperatures of 1250 – 1550°C.

The preliminary X-ray diffraction studies of these materials indicate that the structures synthesized by the CCIM method have compositions that are identical to those of the corresponding natural analogs. The chemical durabilities of the synthesized materials upon their exposure to distilled water at 20°C have been determined.

In addition to the investigation of solidification of liquid HLW, the CCIM method is examined and applied to the synthesis of mineral-like compositions involving simulated waste components (nonsoluble residues, ashes, and pulps) produced by the chemical and metallurgical manufacturing of fissile materials.

Type
Research Article
Copyright
Copyright © Materials Research Society 1997

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References

REFERENCES

1. McCarthy, G.J., High Level Waste Ceramic Material Consideration, Process Simulation and Product Characterization, Nucl. Techn., v.32, 92, 1997.10.13182/NT77-A31741Google Scholar
2. Ringwood, A.E. et al. , The SYNROC Process A Geochemical Approch to Nuclear Waste Immobilization, Geochem. J., v. 13, 141, 1979.Google Scholar
3. Kushnikov, V.V., Smelova, T.V., Induction Melter with Cold Crucible for Immobilizing Long-Life Radionuclides, The First International Environmental Technology Business Action Conference, Moscow-94, report N 262.Google Scholar
4. Petrov, I.G., Ratnikov, D.G., Cold Crucible. Moscow, 1972.Google Scholar