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Determination of a stability potential-pO2- diagram of samarium in the eutectic LiCl-KCl

Published online by Cambridge University Press:  17 March 2011

G. Córdoba
Affiliation:
Nuclear Fission Department. CIEMAT. Avda. Complutense 22. 28040-Madrid., SPAIN.
C. Caravaca
Affiliation:
Nuclear Fission Department. CIEMAT. Avda. Complutense 22. 28040-Madrid., SPAIN.
J. Quiñones
Affiliation:
Nuclear Fission Department. CIEMAT. Avda. Complutense 22. 28040-Madrid., SPAIN.
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Abstract

Abstract:Reaction between samarium trichloride and oxide ions was studied in the fused LiCl – KCl eutectic mixture at 723 K, by potentiometry with an yttria-stabilised zirconia membrane electrode. Titration curve demonstrated the existence of a precipitated samarium oxychloride (SmOCl), under this experimental conditions, with a solubility product value of 7.59 ţ 0.3 (molality scale). The combination of this value with the standard potentials allowed setting up the potential–pO2- stability diagram which summarises the properties of Sm species in the eutectic LiCl – KCl melt.

Type
Research Article
Copyright
Copyright © Materials Research Society 2004

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References

[1] OECD/NEA, "Actinide and Fission Product Partitioning and Transmutation. Status and Assessment Report," OECD/NEA 1999.Google Scholar
[2] CEA, "Assessment of pyrochemical processes for separation/transmutation strategies. Proposed areas of research," Rapport Technique PG-DRRV/Dir/00-92, March 2000 2000.Google Scholar
[3] Mottot, Y., "Propietes chimiques et electrochimiques des chlorures de lanthanidesceriques en milieux chlorures fondus. Stabilite thermodynamique des alliages La-Ni et Nd-Fe a haute temperature." Paris: L Universitè Pierre et Marie Curie Paris VI, 1986.Google Scholar
[4] Laitinen, H. A. and Gaur, H. C., "Impedance and polarization measurements in fused lithium chloride-potassium chloride," J. Electrochem. Soc.,vol. 104, pp. 730, 1957.Google Scholar
[5] Picard, G., Seon, F., and Tremillon, B., "Oxoacidity reactions in molten LiCl- KCl eutectic (at 470°C): Potentiometric Study of the equilibria of exchange of 02- between Al(III)systems and carbonate and water systems," J. Electroanal. Chem., vol. 102, pp. 6575, 1979.Google Scholar
[6] Lysy, R. and Combes, R., "Oxoacidobasic properties of water in the molten LiCl-KCl eutectic," J. Electroanal. Chem., vol. 83, pp. 287295, 1977.Google Scholar
[7] S. , Sànchez, "La chimie des sels fondus et procedes pyrochimiqies. Etablissement du diagramme potentiel-acidite du selenium." Saclay (Paris): Institut National des sciences et techniques nuclàaires, 2001.Google Scholar
[8] Sàon, F., "Rèactions d'èchange de l'ion oxyde dans l'eutectique LiCl-KCl a 470oC. Application a la chloruration sèlective d'oxydes mètalliques en milieu chlorures fondus." Paris: Univeritè Pierre et Marie Curie, Paris6, 1981, pp. 210.Google Scholar
[9] Lambertin, D., "Propiètès chimiques de l'americium dans l'eutectique LiCl-KCl fondu. Application a la sèparation amèricium-lanthanides (nèodyme)." Paris: Lâ'universite Paris 6, 2001.Google Scholar
[10] Combes, R., Levelut, M., and Tremillon, B., "ConditionalSolubility versus pO2- of Cerium (III) oxide in molten equimolar NaCl-KCl at 727 °C," J. Electroanal. Chem., vol. 91, pp.125131, 1978.Google Scholar
[11] Trèmillon, B., "Diagrammes d'èquilibre potentiel-aciditè (E-pO2-ns les sels et hydroxydes alcalins fondus," Pure Applied Chemistry, vol. 25, pp. 395429, 1971.Google Scholar