DE1533083C - Process for obtaining osmium - Google Patents

Description

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The present invention relates to the concentration can be, if the conditions in the processing and / or recovery of osmium from osmium- teren concentration and enrichment of the substances and relates in particular to a storage of the base metal residue in valuable target processes for the treatment of osmium-containing metals are controlled in a suitable manner,
genes to concentrate the osmium and / 5 The present invention is now general or to gain. spoken in it, substances that have a lesser amount

Many ores of the base metals cobalt, copper, a valuable metal and a large amount

Iron and nickel contain varying amounts of at least one of the base metals from

valuable metals such as platinum, Palla group containing iron, copper, nickel and cobalt,

dium, iridium, rhodium, ruthenium, gold and io to treat the content of valuable metal

Silver. In general, osmium is valuable with these - by sulfating the substance 1 to 3 times as much

full metals communicated, with it in its weight in concentrated sulfuric acid

Amount below 1% of the total amount of valuable me- a temperature below about 260 ° C to concentrate-

can be present. In rare cases, the ren and then the sulfated material is used

Extraction of the base metal through the presence of 15 removal of the base metals, such as the

that the valuable metals themselves are economically leached, iron, copper, nickel and cobalt,

justifies. In general, the valuable me- The residue that is highly valuable

tall by-products of the base metal refining metals is enriched, then hydrometallic

Proceedings. Indeed, the concentrations of the ■ urgently treated are to osmium and the other

valuable metals, including osmium, to be isolated and converted into many valuable metals

Base metal ores so small that they can be economically recovered.

It is not justified to take separate steps to obtain them. Osmium reacts with oxygen bonds with the concentration of the base metals, substance with the formation of osmium tetroxide, which are concentrated in this way. For example, even 35 temperatures as low as 129 ° C must be volatile. If the total content of the residues resulting from the sulphating roasting in the base must be regulated in such a way that no significant amounts of osmium an * valuable metals concentrations of 1 to tetroxide are volatilized, while the base has reached 5% Concentrated residue further. metals are made soluble,
in order to ^{extract the valuable metals:} ₃₀ · It has now been found that at temperatures at this point, however, it is economically advantageous to provide separate extraction stages below about 260 ° C, but preferably more than approximately. 149 ° C, sufficient oxidizing conditions

Experiments of great variety have been carried out to find base metals such as copper, nickel, iron, to fatigue the valuable metals in and cobalt with concentrated sulfuric acid to form residues from base metal refining. At the same time, these conditions are included, however, driving further to concentrate and / sufficiently reducing in order to escape or win the formation of. One method is to prevent the tiger osmium tetroxide.
After the sulphating roasting process, the lead alloy is removed, a leachate being leached with water in order to obtain the base metal emulsification, which fate the valuable metals, such as iron, copper, Highly enriched nickel and cobalt sulphates. Another _{move to} remove. The residue is then used for driving consists in treating the residue in an oxidizing manner to obtain osmium. So roasting and then the base metals can be volatilized in mium tetroxide and then dissolved in an alkali sulfuric acid. Another process Belian solution can be collected. The resulting rests on the residue with a boiling 45 solution then treated to leach a reducible solution of sulfuric acid and manganese dioxide from an osmium compound, like a hydrated osmium. Attempts have also been made to precipitate the dioxide. Metallic osmium is roasted by residue at temperatures from 371 to 427 ° C conversion of the reducible osmium compound to sulphate and the resulting solvent leached with hydrogen at elevated temperatures over borrowed base metal sulphates, with a temperature of _{50 to} 260 ° C obtained.

valuable metals enriched or concentrated in the practice of the present invention ter residue is obtained. All of these procedures will use an osmium-containing material, for example a have the disadvantage that excessive losses anode sludge, which is up to about 2.5% valuable occur in osmium. Indeed, in some metals, up to about 0.02% inclusive was osmium Cases the presence of osmium in the back 55 contains, with the remainder made up of base metals from the were unknown as the refining group used was nickel, copper, iron and cobalt, from up to Procedure for complete loss of osmium to 20% sulfur and small amounts of other neglect and the osmium content of impurities, such as selenium, is made with concentrated original ore was so low that it was practical to contain sulfuric acid at temperatures below 260 ° C could not be discovered. 60 heats to sulfate the base metals. The sul-es It is therefore desirable that the osmium losses in the fatted material are leached with water to remove the Concentration of substances that dissolve valuable metals from detachable base metals. The SuI hold to lower and osmium from substances, the fatigue and leaching steps are repeated, Containing valuable metals in greater proportions until the base metal content is recovered to an acceptable level. 65 is low. If, for example, with secondary It has now been found that losses of osmium, nickel anode slurries from electrolytic refining Working in residues from base metal refining from Sudbury ores become the SuI processes is included, the fatigue and leaching steps are kept to a minimum and repeated until the

Nickel and copper content below about 1%> treated with ermetal. The osmium is generated by calcium

is low. A reduction in the base metals kidneys of the hydrotreated residue in

it contributes up to such concentrations in general air or in air enriched with oxygen

think necessary the sulfation and leaching a temperature of about 816 to 982 ° C, whereby

Repeat steps 3 to 5 times. 5 the osmium as tetroxide together with the remaining

To the retained in the residue osmium borrowed amounts of selenium is volatilized, won. the To gain, the residue can be in air or in exhaust gases with an aqueous, alkaline solvent Oxygen-enriched air washed at about 816 to sung, which is an organic, reducing 982 ° C calcined to form osmium as a tetroxide, compound containing the volatilized osmium to collect the sulfur as dioxide and selenium as dioxide. The absorption solution will volatilize, whereby a residue of valuable medium-thin sulfuric acid is neutralized and easily precipitated remains, which is depleted in osmium, and boils to knock down the hydrated osmium dioxide using conventional methods of extracting the hammer. The hydrated osmium dioxide is how individual valuable metals are treated. The ab- stated above, obergase by hydrogen reduction be with enough alkaline solution, such as 15 half about 260 ° C to metallic osmium re for example an aqueous solution of sodium.

hydroxide or potassium hydroxide, washed to the As a further alternative can be the sulfated and Collect osmium from it. The osmium-containing, leached residue in a hydrogen atmospheric alkaline Solution is used to separate and gain sphere at a temperature of about 538 to tion of the osmium and selenium by acidification heated to 20,982 ° C to sulfur and selenium, each Solution with sulfuric acid and adding a but not to volatilize the osmium. The re-oxidizing agent, like hydrogen peroxide, potassium level is cooled and treated with aqua regia, permangate and the like. The acidic solution becomes an osmium-enriched residue cooked to volatilize the osmium tetroxide. The residue from the aqua regia discharge is absorbed in an alkaline solution, the leaching is fused with sodium peroxide. The an organic, reducing compound, such as fused material, is leached with water for example, methanol, ethanol, formic acid and the like, and the resulting solution with sulfuric acid contains, and the selenium is acidified from the acidic solution. By adding hydrogen peroxide obtained with known measures, the osmium and heating, osmium tetroxide is distilled off. The containing absorption solution is neutralized with sulfuric acid 30 osmium tetroxide can by washing with a and lightly cooked to the hydrated dilute perchloric acid solution and then Precipitate osmium dioxide, which is filtered off. Collect the osmium tetroxide in an alkaline Wash, dry and bring to a temperature over solution that contains an organic, reducing compound, for example 260 ° C, for example to around 538 ° C, in manure and water, can be further cleaned, an atmosphere of hydrogen is heated, whereby 35 This solution is carefully neutralized and easily results in practically pure, metallic osmium. cooked, with a finely divided, black

The sulfated and leached residue can precipitate hydrated osmium dioxide, optionally also by slurrying the return. The osmium dioxide is recovered and reduced to metallic osmium in a booth with the formation of a slurry with a reducing atmosphere * at an elevated temperature, a solids content of 10 to 30 percent by weight,
osmium tetroxide treated with an aqueous solution of a strong alkali such as when the sodium hydroxide, potassium hydroxide and the like volatilized from a residue, are collected in a washing solution, whereby the alkali becomes twice as much by weight, from which the osmium is then contained again as solids. The slurry is volatilized and in a second collecting solution is collected to a temperature of about 149 to 260 ° C. 1 to ■ xide, potassium hydroxide or another strong base 70.3 kg / cm ^{2 is} introduced to make osmium and contains, to absorb the osmium tetroxide, in sulfur, selenium and arsenic, so for example at least enough alkali to absorb Residue remains, which contains the other valuable 50 with the osmium with the formation of a water-soluble solid metal. When the reaction is complete- connect osmats. Which is dig to the alkaline solution, the slurry is filtered and the added amount of oxidizing agent, as in-the filtrate is with hydrogen at about 66 to 121 ° C for example hydrogen peroxide, potassium permanganate and at pressures above atmospheric pressure, etc., is not critical, there are only sufficient ^{treated up to about 35.2 kg / cm 2} , to the osmium 55 amounts necessary to promote the osmium tetroxide formation and other platinum group metals which in the course of cooking. The collection solution from which the pressure leaching step has been dissolved to precipitate the hydrated osmium dioxide. Optionally, the alkali solution is an aqueous, alkaline solution that does not filter the leached slurry, but contains sufficient alkali to ensure the absorption of the osmite hydrogen at a temperature of about 66 60 miumtroxids as a water-soluble osmate up to 121 ° C at a pressure of up to about 35.2 kg / cm ² and which contains a sufficient amount of an organic reducing compound treated for osmium and other platinum metals, such as those dissolved during the pressure leaching step, for example methanol, formic acid and the like , precipitate, sulfur, selenium and in order to leave the precipitation of the hydrated Osmiuni ar ^ ene in solution. In any case, to ensure 65 dioxids when heating,
the solids from the hydrogen treatment The following examples serve to improve the filtration, washing and final separation of the present invention, but are not intended to limit the refining of the osmium and the accompanying substances in any way.

1 533 083 6th 5 Example III Example I.

1000 parts of anode sludge, the analysis of which results in 1000 parts by weight of anode sludge, with in we-0.011% osmium and about 2.5% of other valuable essential metals described in Example I and the rest of the substantially 5 settling, are passed through a sulfation and from base metals from the group nickel and leached with water until a low concentration of copper exist, are reached with a controlled tion of copper and nickel. Three sulfation temperatures of not more than 260 ° C through a sulfation are carried out at a temperature of 232 ° C, and then the sulfation is carried out, followed by leaching the base metals with water until a lower metal is leached with water . At this point the remaining concentration of copper and nickel weighs in, residue reaches 100 parts, and analysis shows 0.111%. At this point the residue weighs 100 parts osmium which is the total osmium of the starting material and analysis shows 0.111% osmium which is the material. 50 parts of the sulfated sludge represents total osmium in the feedstock. are with 50 parts of sodium hydroxide and 300 parts calcination at a temperature of about 945 ° C 15 len water 2 hours at 232 ° C and an acid leads to volatilization of 88% of the osmium, the material pressure of 35.2 kg / cm ² under pressure leached, collected in a sodium hydroxide wash solution. After the pressure leach step, the apparatus will be. The residual sludge contains 12% of the Os- cooled to 93 ° C, the pressure is on atmospheric medium. The sodium hydroxide solution is then reduced with pressure and the oxygen is replaced by sulfuric acid, acidified with hydrogen peroxide at 24.6 kg / cm ² for 1 hour. When cooling and osmium is then used as volatile oil and filtration, a residue is distilled off with a GeTetroxid. The vapors are obtained by weight of 32.3 parts, the 0.172% osmium passed a trap which contains an aqueous hydrogen, which contains the entire osmium of the starting _{maperoxide solution (2 percent by weight H 2} O ₂ ) and represents terials. Calcining this residue in will eventually be absorbed in a solution that 95 air at 927 ° C leads to the volatilization of over 10 parts sodium hydroxide, 10 parts alcohol and 99% of the osmium, which in a solution that contains 10 parts remaining water. The solution is neutralized with sodium hydroxide, 10 parts of methanol and the remainder of the acid and the osmium is collected as hy- water. Carefully knocked down Neutrated Dioxide. The precipitation of this solution, followed by a gentle boil, is filtered off, dried and treated with water: 30 gives a precipitate of hydrated osmium material at 538 ° C., with 0.086 part of dioxide. This is filtered off; washed, dried metallic osmium with a purity over 98% and reduced in a stream of hydrogen at 538 ° C, give. 0.05 parts of the metallic osmium in Beisoiel II result in a purity of over 98%.

1000 parts by weight of anode slurries, which essentially have the same composition as that in Example I 1000 parts by weight of anode slurries for the material described, the analysis 0.015% osmium and about 2.5% others are carried out by sulfation at 232 ° C , and then displays valuable metals and the remainder of which is essentially the base metals are leached by water, 40 borrowed base metals from the group nickel and until a low concentration of copper and copper represents, are sulfated at 232 ° C and nickel is reached. Three sulphations and leaching with water to remove the solubilized base metals are necessary. Leached with water on this. That is four times the point weighs the residue 100 parts and the ana- leads to a suitably low concentration of lysis yields 0.111% osmium, which is the total Os- 45 copper and nickel, ie less than -1% of each, mium des Represents the starting material. To achieve the 100 parts. At this point the residue of this sulfated material weighs 96 parts under pressure and analysis shows 0.156% osmium, 200 parts sodium hydroxide at 10% solids which is the total osmium of the starting material for 2 hours at a temperature of 232 ° C. 95 parts of this sulfated material were leached with an oxygen pressure of 35.2 kg / cm ² . 50 den then in a stream of hydrogen at 293 ° C. The slurry is fed and the solution heated for 1 hour to remove the sulfur along with being at 104 ° C and a hydrogen pressure from a small amount of selenium, and at -24.6 kg / cm treated with hydrogen for 1 hour. the mixture is then heated at 649 ° C. for 2 hours in order to volatilize the residual selenium during filtration, a precipitate with a gel. Finally, a weight of 7.99 parts is obtained that contains 1.39% osmium 55 of the residue for 1 hour at 927 ° C under water, which heats all of the osmium of the original material to the osmium against a subsequent material. Calcine this residue to passivate in ßenden chemical attack. In air at 927 ° C volatilization of 95% at this point the material weighs 62.5 parts and that of the osmium collected in a solution analysis gives 0.237% osmium, which is practically the 10 parts sodium hydroxide, 10 parts Methanol 60 represents the total osmium of the starting material, and the remainder contains water. Careful neutral platinum, palladium and gold are dissolved by treating this solution with sulfuric acid and annealing with aqua regia, which leads to a loss of light boiling resulting in a low osmium of 13%. The remaining 87% of the pure, black, hydrated osmium osmium is produced by fusing the return dioxide. This is filtered off, washed, dried in a nickel crucible with sodium peroxide, and heated in hydrogen at 538 ° C, acidifying the 0.10 part metallic osmium in a purity obtained by leaching the melt with H ₂ SO ₄ and distilling off the result is over 98%. Osmium by adding hydrogen peroxide and

Egg help won. The vapors are washed by passing them through a dilute cyclic acid solution and then collected in a solution containing 1 parts of sodium hydroxide, 10 parts of alcohol and the remainder of water . Careful neutralization of this solution followed by gentle boiling results in a precipitate of fine, black, hydrated osmium dioxide. This is filtered off, washed, dried and reduced in a stream of hydrogen at 538 ° C., 0.13 part of metallic osmium being obtained in a purity of over 98%.

It is clear from the examples that the practice of the present invention is practical Complete recovery of osmium from substances containing osmium is permitted. Even if the examples are directed to the recovery of osmium from secondary nickel anode slurries, so is however, the present invention is in no way limited thereto, and on the contrary is to everyone Applicable osmium-containing residue resulting from a base metal refining process.

From the foregoing it is further evident that substances which were previously assumed to be osmiumfiei may actually have contained osmium, but that all osmium present was soldered during processing according to the state of the art geliöi ende procedures . The present invention provides not only insights _-: nis the cause of such losses, while also providing a straightforward procedure to prevent Osmiumverluste and win the valuable osmium economical.

Although the present invention has been described in connection with preferred embodiments has been, it is not to be understood that the present invention is intended to be limited to it Modifications and changes may be made which will be apparent to those skilled in the art Hand lie without departing from the scope of the present invention.

Claims (11)

Patent claims: 1. Process for the recovery of osmium from material containing Giundmctalle, z. B. at least one of the metals iron, copper, nickel and cobalt by sulfation and subsequent leaching in order to cntteincn the Giundmctalle. and recovery of the osmium from the residue, characterized in that sulfation is carried out with concentrated sulfuric acid at a temperature below about 260 ^° C. 7: Vi ¹ I proceed according to claim 1, characterized in that the sullatation and discharge steps are repeated in order to reduce the content of each base metal in the residue to below about 1 "Ai. 3. Voifahien according to claim 1 or 2, thereby jrcl 1 iin / i iclini (. Dall <l: r; osmium as tetroxide 1 »au ·, the Uiirl.stand \ <: if! Iiclilij! L. Da ;; veifliichliglc O ¹ MHiMiili li "\ id in i'inci alkaline solution absoibicit. An OMuiumveihnung from the alkaline I.OSiIIi) I nicdeiggeschschlag and the OsmiiMMvcihiiKliinj 'obtained and in a rediizicicinicn Λ (morphine at egg-oil temperatures reduced wildly to metallic osmium. 4. The method according to claim 3, characterized in that the residue from the leaching is calcined in an oxidizing atmosphere to volatilize the osmium as tetroxide, the tetroxide with an alkaline solution that is acidified and boiled to make the To volatilize osmium tetroxide, is washed, the volatilized osmium tetroxide 'in a second alkaline solution collected and the osmosis from the second alkaline solution Solution is obtained. 5. S ^; Driving according to claim 4, characterized in that a calcination temperature between approximately 816 and 982 ° C is used. 6. The method according to claim 4 or 5, characterized in that the acidified solution an oxidizing agent is added before cooking. 7. The method according to claim 1 or 2, characterized in that the residue from the sulfation is slurried with alkali, a gaseous oxidizing agent is introduced at a pressure which is above atmospheric pressure, while the slurry is at a temperature of about 149 to 260 ° C is heated, with an osmium-containing solution is formed, the osmium-containing solution is heated to 66 to 121 ⁰ C under a WassenHoilatmosphärc at a pressure of up to 35.2 kg / cm ² , whereupon a precipitate forms which contains metallic osmium, the precipitate calcined at elevated temperature to volatilize the osmium tetroxide, collect the osmium tetroxide in an alkaline solution, precipitate a reducible osmium compound from the alkaline solution, and treat the osmium compound to obtain metallic osmium. 8. The method according to claim 7, characterized in that. that the hydrogen treatment is carried out prior to filtering the slurry. ^: 9. The method according to claim 7, characterized in that that the slurry is filtered and the filtrate from the water treatment is subjected. 10. The method according to claim 7, characterized in that a Kalzinicrungstempciatur applied between about 816 to about 9H2 ° C will. 11. The method according to claim 1 'or 2, characterized characterized in that the osmium-containing residue from the sulfation in a Hydrogen atmosphere heated to volatilize volatile impurities, which in high Measures enriched residue with aqua regia converts to other platinum metals present to dissolve the residue resulting from the aqua regia treatment with natural peroxide fuses, leaches the fused residue with water, see them at you Wasserauslauiüing. resulting solution; aiisiiiieil, adding an oxidizing agent to the solution. osmium tc.lioxid from the solution removed. the distillate collects in an alkaline solution, a manageable Osmium compound precipitates from the alkaline solution and the osmium curtain treated to re-energize metallic osmium.