RU99114599A - METHOD FOR REMOVING NICKEL FROM BIO-ALKALIABLE SOLUTION - Google Patents

Claims (14)

1. A method for extracting nickel from an ore selected from the group consisting of nickel-containing laterite ores and nickel-containing sulfide materials, by bio-leaching, which includes, if the selected ore is a nickel-containing laterite ore, then adding at least one microorganism selective for leaching of laterite ore, moreover, the microorganism is added to the aqueous suspension of ore, maintaining a pH in the range from 1 to 3 and including a nutrient medium for the said microorganism, while at least one use In leaching of laterite ore, the microorganism is a fungus that systematically produces carboxylic acid, which promotes the chelation of nickel in the ore, and thus produces a solution containing nickel, and if the selected ore is nickel-containing sulfide ore or its concentrate, then at least at least one microorganism, including a biooxidizing ore, a bacterium selective for leaching of sulfide ore, the bacterium being added to an aqueous suspension of sulfide ore, supporting pH in the range from 1 to 3 and including the nutrient medium for this bacterium; in this case, the biooxidation of the ore is carried out using at least one bacterium selected from the group consisting of Thiobacillus thiooxidans, Thiobacillus ferroxidans, Leptospiritum species, Sulfobacillus, Thermosulfidooxidans or similar species, Sulfolobus brierleyi, Sulfolobus acidocalus bulusulus, sulfulfobulus sulfus bulusulus, selected ore for a time sufficient to effect the dissolution of nickel in the ore and form an enriched solution and precipitate, separation of the nickel-containing solution from the precipitate, contacting the separated nickel-containing solution with an ion-exchange polymer Containing as active ingredient bispikolilamin specific to the absorption of nickel, thereby forming a nickel loaded resin, extracting the absorbed nickel from the resin by reacting the polymer with a mineral acid solution and extracting nickel from the mineral acid solution.  2. The method according to p. 1, characterized in that the carboxylic acid systematically produced by mushrooms is selected from the group consisting of citric, tartaric, pyruvic, oxalic, lactic, glycolic and malonic acids.  3. The method according to p. 1, characterized in that the microorganism used in the processing of laterite ore is selected from the group consisting of Aspergillus Niger, Penicillium Aspergillus Sp., Penicillium Simplicissimus and Enterobacter Spp., Bacillus Spp. and Achromobacter Spp.  4. The method according to p. 3, characterized in that the fungus is Aspergillus niger.  5. The method according to p. 1, characterized in that the ion-exchange polymer containing bispicolylamine as the active ingredient is added in crushed form to the leachable suspension to obtain nickel deposited on the polymer, and then the polymer particles coated with nickel are separated from the suspension by sieving .  6. A method for extracting nickel from an ore selected from the group consisting of nickel-containing lateritic ores and nickel-containing sulfide materials, by bio-leaching, which includes, if the selected ore is a nickel-containing lateritic ore, adding at least one microorganism selective for leaching of lateritic ore, the microorganism is added to the aqueous ore suspension, maintaining a pH in the range of 1 to 3 and including a nutrient medium for said microorganism, with at least one used leaching of lateritic ore, a microorganism is a fungus that systematically produces carboxylic acid, which promotes the chelation of nickel in the ore, and thus produces a solution containing nickel, and if the selected ore is nickel-containing sulfide ore or its concentrate, then at least one microorganism, including a biooxidizing ore, a bacterium selective for leaching of sulfide ore, the bacterium being added to an aqueous suspension of sulfide ore, maintaining the pH ranging from 1 to 3, including the culture medium for the bacterium, which includes at least one bacterium selected from the group consisting of Thiobacillus thiooxidans, Thiobacillus ferroxidans, Leptospiritum species, Sulfobacillus, Thermosulfidooxidans or similar species, Sulfolobus brierleyi, Sulfolus acid , Sulfolobus BC and Sulfolobus sulfataricus, the formation of a dump of a selected ore or concentrate, bioleaching of a dump by passing a solution containing the named microorganisms under the action of gravity through this dump for a time sufficient to allow dissolution of nickel in ru e and the formation of its enriched solution, collecting the enriched nickel-containing solution after leaching the dump, contacting the enriched nickel-containing solution with an ion-exchange polymer containing bispicololamine specific for the absorption of nickel as an active ingredient, resulting in the formation of nickel deposited on the polymer, extraction of absorbed nickel with polymer in the interaction of the polymer with a solution of mineral acid and the extraction of Nickel from a solution of mineral acid.  7. The method according to p. 6, characterized in that the carboxylic acid systematically produced by fungi is selected from the group consisting of citric, tartaric, pyruvic, oxalic, lactic, glycolic and malonic acids.  8. The method according to p. 6, characterized in that the microorganism used in the processing of laterite ore is selected from the group consisting of Aspergillus Niger, Penicillium Aspergillus Sp., Penicillium Simplicissimus and Enterobacter Spp., Bacillus Spp. and Achromobacter Spp.  9. The method according to p. 8, characterized in that the fungus is Aspergillus niger.  10. A method for extracting nickel from an ore selected from the group consisting of nickel-containing lateritic ores and nickel-containing sulfide materials by bioleaching, which includes, if the selected ore is a nickel-containing lateritic ore, then adding at least one microorganism selective for leaching of lateritic ore moreover, the microorganism is added to the aqueous suspension of ore, maintaining a pH in the range from 1 to 3, including a nutrient medium for the said microorganism, with at least one used In leaching of laterite ore, the microorganism is a fungus that systematically produces carboxylic acid, which promotes the chelation of nickel in the ore, and thus produces a solution containing nickel, if the selected ore is a nickel-containing sulfide ore or its concentrate, then at least , one microorganism comprising a biooxidizing ore, a bacterium selective for leaching of sulfide ore, the bacterium being added to an aqueous suspension of sulfide ore, maintaining the pH ranging from 1 to 3 and including a culture medium for the bacterium, which includes at least one bacterium selected from the group consisting of Thiobacillus thiooxidans, Thiobacillus ferroxidans, Leptospiritum species, Sulfobacillus, Thermosulfidooxidans or the like, Sulfolobus brierleyusi, Sulfobobusus brierleyi, Sulfolobus brierleyi acidocaldarius, Sulfolobus BC and Sulfolobus sulfataricus, loading ore in a crushed state into a bath (vat), bioleaching this ore loading in a bath (vat) by saturating the ore with alkali for a long period of time sufficient to dissolve the nickel in the ore and form I enriched its solution and precipitate, separating the enriched nickel-containing solution from the precipitate, contacting the separated nickel-containing solution with an ion-exchange polymer containing bispicololamine specific for the absorption of nickel as an active ingredient, as a result of which nickel is deposited on a polymer specific for nickel absorption, as a result, nickel is deposited on the polymer, the extraction of absorbed nickel from the polymer during the interaction of the polymer with a solution of mineral acid lots, extraction of nickel from a solution of mineral acid.  11. The method according to p. 10, characterized in that the carboxylic acid systematically produced by fungi is selected from the group consisting of citric, tartaric, pyruvic, oxalic, lactic, glycolic and malonic acids.  12. The method according to p. 10, characterized in that the microorganism used in the processing of laterite ore is selected from the group consisting of Aspergillus Niger, Penicillium Aspergillus Sp., Penicillium Simplicissimus and Enterobacter Spp., Bacillus Spp. and Achromobacter Spp.  13. The method according to p. 12, characterized in that the fungus is Aspergillus niger.  14. The method according to p. 10, characterized in that the ion-exchange polymer containing bispicololamine as an active ingredient is added in crushed form to the enriched nickel-containing solution to obtain nickel deposited on the polymer, and then the polymer particles coated with nickel are removed from the suspension by sieving.