Chemistry of inorganic compounds – Treating mixture to obtain metal containing compound – Platinum group metal
Reexamination Certificate
2001-03-28
2003-07-22
Bos, Steven (Department: 1754)
Chemistry of inorganic compounds
Treating mixture to obtain metal containing compound
Platinum group metal
C423S417000, C075S426000
Reexamination Certificate
active
06596245
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a process for the recovery and refining of rhodium.
The state of the art describes and adopts various methods for the recovery and refining of rhodium. These methods, however, are always characterized by the presence of a high number of passages and, above all, have decidedly low yields to recovered and refined rhodium.
As a result, considerable quantities of non-recovered rhodium accumulate in the refining plants of precious metals, with obvious economic damage, as rhodium is extremely costly.
The process according to the present invention proposes a way of overcoming the disadvantages of the process according to the known art.
SUMMARY OF THE INVENTION
The present invention therefore relates to a process for the recovery and refining of rhodium starting from a mixture containing rhodium and other transition metals, including those of the platinum Group as well as metals of the main Groups, said process being characterized by the following passages:
a) formation of an adduct between rhodium trichloride and a halide of a metal selected from metals of Groups IIA, IIIA, IVA, IVB, VB and VIB;
b) carbonylation of the precipitated adduct, deriving from passage a) with the formation of rhodium halogen carbonyls;
c) sublimation of the carbonylated product obtained in the previous passage.
The process according to the present invention may also comprise the following passages:
d) oxidation to rhodium trichloride hydrate of the complex Rh
2
(CO)
4
Cl
2
obtained at the end of passage c), the halide of the metal in passage a) being a chloride;
e) reduction with hydrogen, at a high temperature, of the rhodium trichloride hydrate deriving from the oxidation of passage d).
A second object of the present invention relates to a rhodium sponge obtainable by means of a process which, starting from a mixture containing rhodium and other transition metals, including those of the platinum Group as well as those of the main Groups, comprises the following passages:
a) formation of an adduct between rhodium trichloride and a chloride of a metal selected from metals of Groups IIA, IIIA, IVA, IVB, VB and VIB;
b) carbonylation of the precipitated adduct, deriving from passage a) with the formation of rhodium chloro carbonyls;
c) sublimation of the carbonylated product obtained in the previous passage.
d) oxidation to rhodium trichloride hydrate of the complex Rh
2
(CO)
4
Cl
2
obtained at the end of passage c);
e) reduction with hydrogen, at a high temperature, of the rhodium trichloride hydrate deriving from the oxidation of passage d).
The main advantage of the process according to the present invention consists in recovering and refining rhodium until a product having a purity of over 99.99% is obtained, with yields varying from 30 to 90%.
DETAILED DESCRIPTION OF THE INVENTION
In particular, passage a) of the process according to the present invention, i.e. the formation of an adduct between rhodium trichloride and a halide of a metal selected from metals of Groups IIA, IIIA, IVA, IVB, VB and VIB, is carried out in the presence of free hydrochloric acid and by the addition of a quantity of metal halide, sufficient to cause the precipitation of the adduct in the form of a solid. Said adduct is insoluble in hydrochloric acid.
The halide of the metal selected from the metals of Groups IIA, IIIA, IVA, IVB, VB and VIB is preferably a chloride.
In particular, it is preferably anhydrous aluminum trichloride or anhydrous vanadium trichloride.
The free hydrochloric acid is preferably concentrated. In particular, the concentrated hydrochloric acid is hydrochloric acid at 37%.
The precipitated solid consists of the adduct between rhodium trichloride and the metal halide, as indicated above, and contains rhodium in a percentage varying from 2 to 20%, whereas the other metals substantially remain in solution.
The solid, i.e. the adduct, deriving from passage a) is then washed with alcohols and subjected to passage b), i.e. to the carbonylation reaction.
The carbonylation reaction is carried out, according to a first alternative, in an aqueous solution with a concentration of rhodium varying from 5 g/l to 300 g/l, under vigorous stirring, the partial CO pressure being kept within the range of 300 hPa to 5.065 MPa, at a temperature ranging from 10° C. to 100° C.
The concentration of rhodium preferably ranges from 50 g/l to 200 g/l.
In particular, the partial CO pressure is maintained within a range of 400 to 2000 hPa and the temperature within a range of 20° C. to 50° C.
Once the absorption of CO in the solution is complete, the carbonylated product obtained, consisting of neutral or anionic rhodium halogen carbonyl complexes, is subjected to the subsequent sublimation reaction.
In particular, the carbonylated product obtained, consisting of neutral or anionic rhodium halogen carbonyl complexes, is extracted with an organic solvent.
Said organic solvent can be selected from the group consisting of ethers, esters, carboxylic acids, alkyl halides, alcohols, halogenated compounds, hydrocarbons.
The organic solvent is preferably an ether or an alkyl halide. It is even more preferably MTBE or CH
2
Cl
2
.
The organic phase is then concentrated to a dry product and subjected to sublimation.
In particular, the sublimation reaction is carried out under vacuum, at pressures lower than 10 mmHg, and at a temperature lower than 110° C.
Furthermore, if an even higher purity is desired, the sublimation reaction can be repeated twice.
Alternatively, the carbonylation reaction can be carried out by heating the solids, i.e. the adduct coming from passage a), to 100° C., in a PYREX® tube in a stream of CO, PYREX® is defined as a trademark used for glass and glassware that contains appreciable oxide of boron and is resistant to heat, chemicals and electricity.
According to this alternative, the sublimation of the final product therefore takes place directly on the cold part of the PYREX® tube.
In particular, when the metal halide in passage a) is a chloride, the product obtained from the sublimation reaction consists of rhodium (I)chlorocarbonyl dimer i.e. Rh
2
(CO)
4
Cl
2
.
This product is an extremely important product as it is the starting product for the subsequent synthesis of a wide variety of rhodium derivatives.
In addition, Rh
2
(CO)
4
Cl
2
can be transformed into rhodium sponge by means of oxidation and subsequent high temperature hydrogenation.
In particular, the oxidation reaction which produces rhodium trichloride hydrate can be effected with HNO
3
or H
2
O
2
in hydrochloric acid.
At the end of the oxidation, the solution is then evaporated to dryness, on a water bath, and the product obtained, consisting of rhodium trichloride hydrate with a rhodium content of about 50%, is then subjected to hydrogenation in a quartz tube, in a stream of hydrogen at 500° C.
The rhodium sponge which is and can be obtained with this process, has a purity of over 99.99%, has a shiny grey color and excellent particle size characteristics.
In particular, the equipment used for the process according to the present invention comprises a reactor in which the formation of the adduct between rhodium trichloride and the halide of a metal selected from metals of Groups IIA, IIIA, IVA, IVB, VB and VIB, takes place; a washing system with alcohols of the solid thus obtained, a subsequent carbonylation reactor, equipped with a stirring system, in which the extraction with an organic solvent can also be effected, a system for the concentration and drying of the organic extract and finally a sublimation apparatus.
In a particular embodiment, the sublimator consists of a glass container with a sealed metal lid (for example a screw top), of which the seal consists of gaskets made of TEFLON® (composition as defined on Mar. 28, 2001 by DuPont Chemicals) or any material resistant to acids. The lid has a hole in the center in which a glass tube is inserted, having a diameter ranging from 2 to 40 cm and a height ranging from 50 to 200 cm or more, with a flange at the top equipped with a rubber hol
Fachinetti Giuseppe
Funaioli Tiziana
Bos Steven
Chimet S.p.A.
Hedman & Costigan ,P.C.
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