Separation of platinum group metals

Details Separation of platinum group metals Separation of platinum group metals

2000-07-27

2002-04-02

Therkorn, Ernest G. (Department: 1723)

Liquid purification or separation

Processes

Liquid/liquid solvent or colloidal extraction or diffusing...

C210S656000, C423S022000

Reexamination Certificate

active

06365049

ABSTRACT:

The present invention relates to methods and apparatus for the interseparation of platinum group metals, in particular it relates to methods and apparatus for the interseparation of platinum, rhodium and iridium.
Previously, it has been proposed to use gel chromatography to separate platinum group metals from one another on an industrial scale. Prior proposals include U.S. Pat. No. 4,855,143 (Schmuckler) and EP 756013 (Matthey Rustenburg Refiners Pty). The Schmuckler patent describes a method in which the interseparation of platinum group metals (PGMs) from an oxidised gold-free halide solution is achieved using a chromatographic medium such as a polysaccharide gel (Sephadex) or a polyacrylamide gel (Biogel). The PGMs when dissolved in a chloride solution are absorbed onto the chromatographic column and are claimed to be selectively eluted in the order ruthenium, rhodium, palladium, platinum, iridium and caesium, although it is clear from the rest of the patent that Schmuckler meant osmium. The problem with this method is that there is in fact no clear separation of PGMs.
This problem was to a large extent overcome by European patent application EP 0906,962 which describes a method for the interseparation of PGMs from a PGM-containing halide solution comprising the steps of passing the solution through a glycol methacrylate chromatographic medium, absorbing the PGMs onto the medium, eluting each PGM using an acid solution to obtain each fraction containing at least one PGM. During the elution of a reduced, mixed rhodium, iridium, ruthenium, palladium, platinum and osmium/6 molar hydrochloric acid (6 M HCl) solution through Toyopearl HW-40C using a (usually 6 M) hydrochloric acid eluent, the first eluted band contains rhodium ([RhCl
6
]
3−
), iridium ([IrCl
6
]
3−
) and ruthenium ([RuCl
6
]
3−
), that is, the method does not separate rhodium, iridium and ruthenium either from each other or any combinations/permutations within.
GB 1,533,373 (National Institute for Metallurgy) discloses the use of an ion-exchange column to separate Ir from other PGMs. However, it is clear that although Ir (IV) is oxidised to Ir (III) in the method, it teaches that it is necessary to form a mixed sulphito-chloro complex of Ir (III). In contrast, the present invention does not use either an ion exchange column or such sulphito-chloro complexes.
The present invention sets out to solve the problem of the separation of the insoluble metals rhodium, iridium and ruthenium from one another and platinum in addition to other PGMs using gel chromatography. This may be of particular importance during refining, by allowing the separation of these metals by chromatography on an industrial scale. Presently, traditional methods of refining involve the processes of solvent extraction, distillation and ion exchange. During the extraction process the metals are processed sequentially generally in the order gold, palladium, platinum, ruthenium and osmium, iridium and rhodium. The method of the present invention has several advantages over the previously described methods in allowing simultaneous separation of these metals. In addition, the process is extremely fast, and the purity and yield of the extracted metals is high.
Thus, in a first aspect the present invention provides a method for the interseparation of iridium in admixture with one or more other PGMs from an acidic solution containing the chloro complexes of these metals by passing said solution through at least one chromatography column containing a solid absorbant and eluting one or more fractions containing one or more PGMs, which comprises the steps of:
(a) ensuring that iridum is present on the column in a tetravalent oxidation state, and
(b) reducing the iridum from a tetravalent oxidation state to a trivalent oxidation state on the column, effecting the elution of iridium chlorocomplex separately from chlorocomplexes of other PGMs.
In a second aspect, the present invention provides a method for the interseparation of iridium in admixture with one or other PGM from an acidic solution containing chlorocomplexes of these metals by passing said solution through two or more chromatography columns containing a solid absorbant, wherein the columns are attached to one another by a control means, and eluting one or more fraction containing one or more PGMs, which comprises the steps of:
(a) ensuring that iridium is present on at least one column in a tetravalent oxidation state, and
(b) reducing the iridium on at least one column from a tetravalent oxidation state to a trivalent oxidation state, and improving the separation of iridium from chlorocomplexes of other PGMs by reverse elution.
In a preferred embodiment of these two aspects of the invention, an oxidisng eluent may be used to ensure that iridium is present on the column in a tetravalent oxidation state. Preferably the oxidising eluent is IMHCl/5 gl
−1
NaClO
3
. Other oxidising eluents may include hydrogen peroxide. Furthermore, a reducing eluent may be used to effect the reduction of iridium from a tetravalent oxidation state to a trivalent oxidation state. Preferably the reducing eluent is IMHCl/ascorbic acid. The concentration of ascorbic acid may be anywhere between 2 and 15 gl
−1
. Other suitable reducing eluents may include TiCl
3
.
The chromatographic medium is preferably a co-polymer of ethylene glycol and methacrylic acid, for example a medium from the Macro-Prep (trademark of Bio-Rad Laboratories) range of chromatographic media. Or a co-polymer of oligoethyleneglycol, glycidylmethacrylate pentaerythrol-dimethacrylate (for example a medium from the Toyopearl (trademark of TosoHaas and previously known as Fractogel) range of chromatographic media). Most preferably the medium is from the Toyopearl range of chromatographic media. This media has advantages in the scaling up of the chromatographic process because relatively high pressure can be applied to a column containing the medium to achieve high flow rates.
The PGMs are dissolved in an acidic solution such as hydrochloric acid. The inventors have found that
6
M hydrochloric acid gives beneficial results.
The interseparation process may be carried out using a chromatographic medium having beads of any particle size. However, suitably, the medium has beads of particle size of from 32 to 300 &mgr;m, and preferably of from 50 to 180 &mgr;m, most preferably from 50 to 100 &mgr;m.
The interseparation may be carried out using known chromatographic techniques. A suitable method is batch column chromatography whereby an aliquot of feed is loaded onto the column and eluted. A valve arrangement is employed such that the output can be switched so that various products are collected in separate fractions. Alternatively, two columns may be used which are attached to one another by a control means such that the direction of eluent flow may be reversed. This permits the reverse elution of one or more of Ir and Pt or other PGMs. Reverse elution in the context of this invention means that the direction of eluent flow and the subsequent elution of any one or more of Pt, Rh and Ir is upwards through the chromatography column and not downwards as in conventional chromatography.
With appropriate modification, if necessary, other equipment including “Gatling Gun” or Continuous Annular Chromatography may be used.


REFERENCES:
patent: 3999983 (1976-12-01), Grosbois et al.
patent: 4855143 (1989-08-01), Lowey
patent: 4885143 (1989-12-01), Schmucher
patent: 5292490 (1994-03-01), Duyvesteyn
patent: 5879644 (1999-03-01), Grant
patent: 0 756 013 (1997-01-01), None
patent: 0 906 962 (1999-04-01), None
patent: 1 533 373 (1978-11-01), None

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