Separation of metals

a metal and metal technology, applied in the field of metal separation, can solve the problems of insufficient means for the performance of such separation, the lithium reduction process for producing a metallic feed from an oxide is the production of lisub>2/sub>o by-product, and the process has both technical and environmental limitations, so as to facilitate the reduction of zirconium oxid

Inactive Publication Date: 2006-06-29
NEXIA SOLUTIONS +1
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Benefits of technology

[0025] A specific example of a preferred application of the process is in the separation of hafnium, present as the oxide, in samples of zirconium oxide. Zirconium metal is widely used in the nuclear power industry in zircalloy cladding. However, hafnium serves as a poison in nuclear reactors and it is vital, therefore, that it sho

Problems solved by technology

This process has both technical and environmental limitations.
A disadvantage of the lithium reduction process for producing a metallic feed from an oxide is the production of Li2O by-product.
Thus mixtures of uranium and plutonium oxides, together with the oxides of other actinide metals, may additionally be contaminated with oxides of other, chemically active, metals such as, for exam

Method used

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Examples

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Embodiment Construction

[0030] In order to carry out an embodiment of the present invention, an electrolytic cell is assembled which has a carbon anode and a mesh basket cathode. A mixed oxide sample is placed in the mesh basket. The electrolyte consists of a molten salt or a mixture of such salts comprising, for example, chloride salts such as CaCl2 or BaCl2. A voltage is applied between the cathode and the anode. At the cathode the reaction involves the diffusion of oxygen atoms to the surface of the solid, followed by ionisation according to the reaction:

O+2e−→O2−.

[0031] The oxide ions which are produced dissolve in the electrolyte and are transferred to the anode where they are re-oxidised to produce oxygen gas. Further by-products include carbon monoxide and carbon dioxide. The potential at the cathode may be controlled, via a third reference electrode, to ensure that the reaction occurring at the cathode is oxygen ionisation and not deposition of the cations in the fused salt, and that only a selec...

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Abstract

The invention provides a process for the separation of metals, the metals being comprised as the metal oxides in a mixed oxide sample, the process comprising: (i) adding the mixed oxide to a molten salt electrolyte and cathodically electrolysing the oxide, the potential of the cathode being controlled so as to favour oxygen ionisation over deposition of metal from the cations present in the molten salt, and the applied potential difference being such as to facilitate selective reduction of one metal oxide at the expense of other metal oxides; and (ii) separating the metal from the remaining metal oxides, wherein the metal oxides comprise oxides of metals from at least one of the transition metal, lanthanide or actinide series The process is applicable to mixed oxide samples comprising mixtures of two or more metal oxides, and a particular application is in the separation of zirconium and hafnium comprised in mixed zirconium and hafnium oxides, the removal of hafnium facilitating the use of the zirconium in fuel cladding for use in the nuclear power industry.

Description

FIELD OF THE INVENTION [0001] This invention relates to a method for the separation of metals from mixtures of metal oxides and relies on the selective reduction of certain oxides to the metals, whilst the other metals remain in the form of the oxides. The method of the present invention finds particular application in the separation of transition metals, lanthanides and actinides. BACKGROUND TO THE INVENTION [0002] The prior art teaches the use of molten salts in the separation of metals and metal oxides in molten salt media. As used herein, the term “molten salts” is intended to cover salts such as lithium chloride which melts at an elevated temperature and also ionic liquids which typically are liquid at room temperature or which melt at a temperature up to about 300° C. Such techniques have found particular application in the nuclear industry, where two well-established processes are available for the treatment of irradiated nuclear fuel. [0003] The first of these processes, the...

Claims

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Application Information

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IPC IPC(8): C25C3/26C22B34/14C25C3/34
CPCC22B34/14C25C3/26C25C3/34
Inventor LEWIN, ROBERT GLYNTHIED, ROBERT CHARLES
Owner NEXIA SOLUTIONS
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