Specialized metallurgical processes – compositions for use therei – Processes – Free metal or alloy reductant contains magnesium
Patent
1988-10-11
1990-04-03
Stoll, Robert L.
Specialized metallurgical processes, compositions for use therei
Processes
Free metal or alloy reductant contains magnesium
423 22, 423200, 423203, 423207, 423209, 502 34, 502 56, 502516, 502518, 75426, C22B 1102
Patent
active
049137360
DESCRIPTION:
BRIEF SUMMARY
The present invention relates to the recovery of metals from carbon-supported materials and more particularly relates to the recovery of Platinum Group metals from carbon-supported materials.
Many catalytic materials comprise a supporting medium carrying a metal or metal compound. When a catalyst is no longer effective in a reaction process, it is often desirable to recover the metal or metal compound. This is particularly the case for relatively precious metals.
A catalyst for the synthesis of ammonia from nitrogen and hydrogen comprises ruthenium and caesium supported on carbon. It is economically advantageous to recover metals from the spent catalyst material. However, known techniques are sometimes unsatisfactory in their ability to separate the components. The present invention relates to an improved process for the recovery of Platnium Group metals from carbon-supported materials.
Thus according to the present invention there is provided a process for recovering Platinum Group metals from material comprising one or more Platinum Group metals and one or more Group IA metals supported on carbon, the process comprising the steps:
(a) heating the material in a stream of an inert gas or in a vacuum at a temperature between 700.degree. C. and 1150.degree. C. to remove a major proportion of the Group IA metals.
(b) heating the resultant residue from step (a) in a stream of carbon dioxide at a temperature between 70.degree. C. and 1150.degree. C. to remove the carbon and further Group IA metals and
(c) treating the resultant residue from step (b) by conventional means to recover the Platinum Group metals.
By Platinum Group metals is meant one or more of the following metals: ruthenium, osmium, rhodium, iridium, palladium, platinum, silver and gold.
By Group IA metals is meant one or more of the following metals: lithium, sodium, potassium, rubidium and caesium. The material may be a catalyst material. Preferably, the material is a catalyst comprising ruthenium and caesium supported on carbon.
The most preferred temperature ranges for both steps (a) and (b) are 900.degree. C. to 1100.degree. C.
The process may be carried out in a vertical alumina reactor. The reactor is heated by a suitable source such as electrical coils or gas burners. The material is preferably in the form of pellets.
The inert gas is preferably nitrogen. The nitrogen and carbon dioxide may be preheated before being passed through the reactor.
The Group IA metals removed with the inert gas are preferably collected downstream of the material.
The resultant residue from step (b) is preferably washed with hydrochloric acid to yield Platinum Group metals and ash. The Platinum Group metals may then be recovered by conventional means.
The invention will now be described by way of example only and with reference to the drawing.
FIG. 1 represents, in cross-section, a vertical reactor for use in the process according to the present invention for the recovery of ruthenium and caesium from a catalyst material comprising ruthenium and caesium supported on carbon.
A catalyst material (1) was packed into a vertical alumina reactor (2). ICI Saffil wool (3) (95% alumina) was used as a base support for the catalyst material (1). The catalyst material (1) was in pellet form and comprised approximately 5% ruthenium and 25% caesium on a carbon support. The reactor (2) was capable of being heated by an electrical resistance furnace (4) having a hot zone (5) extending over the catalyst material (1). It is envisaged that other types of heater may be used, for example gas burners. The reactor (2) had a gas inlet (6) through which gases (7) could be introduced and an outlet (8) through which outlet gases (9) could be exhausted.
In the first step of the process, the reactor (2) containing the catalyst material (1) was heated to about 1000.degree. C. by the furnace (4) and a stream of nitrogen was passed through the gas inlet (6) and downwardly through the catalyst material (1) in the reactor (2). Caesium was volatilised and condensed in the cooler parts (10) of the
REFERENCES:
patent: 3206413 (1965-09-01), Leopard
patent: 3542863 (1970-11-01), Zimmerscheid
patent: 4142993 (1979-03-01), Elofson et al.
Yasakatsu Tamai et al., Carbon, vol. 15, pp. 103-106, 1977.
Curatolo Joseph G.
Evans Larry W.
Gilbert Teresan W.
Stoll Robert L.
The British Petroleum Company p.l.c.
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