RU2007131985A - CAUSTIFICATION OF BYER PROCESS SOLUTIONS - Google Patents

Claims (54)

1. A method of causticizing a Bayer process solution, comprising the steps of adding a phosphate source to a Bayer process solution, adding a causticizing agent to a Bayer process solution, and forming a calcium phosphate precipitate, whereby a Bayer process solution is causticized. 2. A method of causticizing a Bayer process solution, comprising the steps of obtaining a Bayer process solution from a Bayer process cycle, adding a phosphate source to the Bayer process solution, adding a causticizing agent to the Bayer process solution, and returning the causticized Bayer process solution to the Bayer process cycle. 3. The method of causticizing a Bayer process solution according to claim 2, further comprising the step of forming a precipitate of calcium phosphate in a Bayer process solution. 4. The method of causticizing a Bayer process solution according to claim 2, wherein the Bayer process solution subjected to caustification is returned to the Bayer process cycle before the stage of separation of solids in the cycle to ensure the removal of sediment. 5. The method of causticizing a Bayer process solution according to any one of claims 1, 3 or 4, wherein the calcium phosphate precipitate contains carbonate. 6. The method of causticizing a Bayer process solution according to claim 5, wherein the precipitate of calcium phosphate is obtained in the form of apatite. 7. The method of causticizing a Bayer process solution according to claim 6, wherein the apatite is carbonate hydroxylapatite. 8. The method of causticizing a Bayer process solution according to any one of claims 1 or 3, wherein the calcium phosphate precipitate is removed from the Bayer process solution by settling, filtration or cyclone separation. 9. The method of causticizing the Bayer process solution of claim 8, wherein the calcium phosphate precipitate is used as an auxiliary filter material to remove subsequent sediment or other solids formed in the Bayer process cycle. 10. The method of causticizing a Bayer process solution according to any one of claims 1 or 2, wherein the phosphate source is selected from the group consisting of laboratory or analytically pure ortho (phosphoric) acid, laboratory or analytically pure sodium phosphate with a varying degree of hydration, phosphate rock minerals (such as strangite, variskite, barrandite, krandalit), fertilizers (such as superphosphate, triple superphosphate, mono- or di-ammonia phosphates) or other complex compounds containing phosphates. 11. The method of causticizing a Bayer process solution according to any one of claims 1 or 2, wherein the causticizing substance contains a calcium source. 12. The method of causticizing a Bayer process solution according to claim 11, wherein the causticizing agent is selected from the group consisting of dry lime, slaked lime, putty based on slaked lime, tricalcium aluminate or hydrocalumite. 13. The method of causticizing the Bayer process solution of claim 12, wherein the slaked lime putty has a small particle size and a high density of solids. 14. The method of causticizing a Bayer process solution according to any one of claims 1 or 2, wherein the Bayer process solution is a leach solution, a preliminary leach solution, a subsequent leach solution, or a process side stream. 15. The method of causticizing the Bayer process solution according to any one of claims 1 or 2, wherein the phosphate source is added directly to the Bayer process solution in the Bayer process cycle or is mixed in the process side stream with the Bayer process solution before being added to the Bayer process cycle. 16. The method of causticizing the Bayer process solution according to any one of claims 1 or 2, wherein the causticizing agent is added directly to the Bayer process solution in the Bayer process cycle or is mixed in the process side stream with the Bayer process solution before adding it to the Bayer process cycle. 17. The method of causticizing a Bayer process solution according to claim 15, wherein the process side stream is a washing excess solution, a washing stock solution, a reverse alkaline solution, or a green alkaline solution. 18. The method of causticizing a Bayer process solution according to clause 16, wherein the process side stream is a washing excess solution, a washing stock solution, a reverse alkaline solution, or a green alkaline solution. 19. The method of causticizing a Bayer process solution according to claim 2, which, before the stage of returning the solution of the Bayer process subjected to caustification to the cycle of the Bayer process, includes an additional step, namely, that the solution of the Bayer process subjected to caustification is sent to a special stage for separating solid substances to remove sediment. 20. The method of causticizing a Bayer process solution according to claim 19 wherein the stage of separation of solids is a settling step, a filtration step or a cyclone separation step. 21. The method of causticizing a Bayer process solution according to any one of claims 19 and 20, which also includes a precipitate collection step for use as an auxiliary material for filtering the main stream of alkaline solution. 22. The method of causticizing a Bayer process solution according to any one of claims 19 and 20, wherein the Bayer process side stream is a wash excess solution, a wash stock solution, a reverse alkaline solution, or a green alkaline solution. 23. The method of causticizing a Bayer process solution according to claim 21, wherein the Bayer process side stream is a wash excess solution, a wash stock solution, a reverse alkaline solution, or a green alkaline solution. 24. The method of causticizing a Bayer process solution according to any one of claims 1 or 2, wherein the Bayer process comprises the steps of leaching bauxite with a caustic solution, separating the liquid from solids to obtain a precipitate and an alkaline solution, precipitating aluminum hydroxide from an alkaline solution and calcining the hydroxide aluminum to produce alumina, with a source of phosphate added before the stage of separation of the liquid from solids to obtain a precipitate and alkaline solution. 25. The method of causticizing a Bayer process solution according to claim 24, comprising the steps of adding a phosphate source before the bauxite leaching step using an alkaline solution and adding a causticizing agent to the process after the bauxite leaching step using a caustic solution and before the stage of separating the liquid from solids. 26. The method of causticizing the Bayer process solution according to any one of claims 1 and 2, wherein the phosphate source and the causticizing agent are added to the Bayer process solution at a temperature in the range of 30 ° -320 ° C. 27. The method of causticizing a Bayer process solution according to any one of claims 1 and 2, wherein the phosphate source and causticizing agent are added to the Bayer process solution at a temperature of from about 60 ° to about 260 ° C. 28. The method of causticizing a Bayer process solution according to any one of claims 1 and 2, wherein the total alkalinity of the Bayer process solution is from about 15 hl ^-1 to about 400 hl ^-1 . 29. The method of causticizing a Bayer process solution according to any one of claims 1 and 2, wherein the total alkalinity of the Bayer process solution is from about 100 hl ^-1 to about 360 hl ^-1 . 30. Alumina obtained by the method according to any one of claims 1 to 29. 31. A method for controlling the concentrations of calcium and / or phosphate in a Bayer process solution, comprising the steps of adding a source of phosphate to an alkaline solution of the Bayer process, adding a causticizing agent to the alkaline solution of the Bayer process, and forming a precipitate of calcium phosphate. 32. The method of controlling the concentrations of calcium and / or phosphate in the Bayer process solution according to p, in which the precipitate of calcium phosphate contains carbonate. 33. A method for controlling the concentrations of calcium and / or phosphate in a Bayer process solution according to claim 31, wherein the precipitate of calcium phosphate is apatite. 34. The method of controlling the concentrations of calcium and / or phosphate in the Bayer process solutions according to claim 33, wherein the apatite is a carbonate hydroxylapatite. 35. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to any one of claims 31-34, wherein the precipitate of calcium phosphate is removed from the solution of the Bayer process by settling, filtering or cyclone separation. 36. The method of controlling the concentrations of calcium and / or phosphate according to clause 35, wherein the precipitate of calcium phosphate is used as an auxiliary filter material when removing subsequent sediment or other solids formed in the Bayer process. 37. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to clause 31, wherein the source of phosphate is selected from laboratory or analytically pure (ortho) phosphoric acid, laboratory or analytically pure sodium phosphate with a varying degree of hydration, phosphate rock minerals ( such as strangite, variskite, barrandite, krandalit), fertilizers (such as superphosphate, triple superphosphate, mono- or di-ammonia phosphates) or other complex compounds containing phosphate. 38. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to p, in which the causticizing substance contains a calcium source. 39. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to § 38, wherein the causticizing agent is selected from the group consisting of dry lime, slaked lime, putty based on slaked lime, tricalcium aluminate or hydrocalumite. 40. The method of controlling the concentrations of calcium and / or phosphate in the Bayer process solutions according to claim 31, wherein the Bayer process solution is a solution used for leaching, a solution used for pre-leaching, a solution used for subsequent leaching, or a process side stream. 41. The method for controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to clause 31, wherein the source of phosphate is added directly to the solution of the Bayer process in the cycle of the Bayer process or is mixed in the process side stream with the solution of the Bayer process before adding it to the process cycle Bayer. 42. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to clause 31, wherein the causticizing agent is added directly to the Bayer process solution in the Bayer process cycle or is mixed in the process side stream with the Bayer process solution before adding it to the process cycle Bayer. 43. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to paragraphs 41 or 42, wherein the technological side stream of the Bayer process is a washing excess solution, a washing stock solution, a reverse alkaline solution, or a green alkaline solution. 44. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to clause 31, wherein the Bayer process includes the steps of leaching bauxite using a caustic solution, separating the liquid from solids to obtain a precipitate and an alkaline solution, and precipitating aluminum hydroxide from an alkaline solution and calcining aluminum hydroxide to produce alumina, wherein a phosphate source is added prior to the step of separating the liquid from the solids to obtain a precipitate and an alkaline solution. 45. The method for controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to item 44, comprising the steps of adding a source of phosphate before the stage of leaching of bauxite using a caustic solution and adding a causticizing substance to the process after the stage of leaching of bauxite using a caustic solution and before the separation stage liquids from solids. 46. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to claim 44, comprising the steps of adding a phosphate source before the bauxite leaching step using a caustic solution and adding a causticizing agent to the process before the bauxite leaching step using a caustic solution. 47. The method for controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to claim 44, comprising the steps of adding a phosphate source before the stage of leaching of bauxite using a caustic solution and adding a causticizing agent to the process at the stage of leaching of bauxite using a caustic solution. 48. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to any one of claims 31-34, 37-42, 44-47, wherein the source of phosphate and causticizing agent is added to the solution of the Bayer process at a temperature of from about 30 ° to approximately 320 ° C. 49. The method of controlling the concentrations of calcium and / or phosphate in the Bayer process solutions according to claim 48, wherein the phosphate source and the causticizing agent are added to the Bayer process solution at a temperature of from about 60 ° C to about 260 ° C. 50. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to any one of paragraphs.31-34, 37-42, 44-47 and 49, in which the total alkalinity of the solution of the Bayer process is from about 15 hl ^-1 to about 400 ch ^-1 . 51. The method for controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to item 43, wherein the total alkalinity of the solution of the Bayer process is from about 15 hl ^-1 to about 400 hl ^-1 . 52. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to claim 48, wherein the total alkalinity of the solution of the Bayer process is from about 15 hl ^-1 to about 400 hl ^-1 . 53. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to claim 50, wherein the total alkalinity of the solution of the Bayer process is from about 100 hl ^-1 to 360 hl ^-1 approximately. 54. The method of controlling the concentrations of calcium and / or phosphate in solutions of the Bayer process according to any one of claims 51 and 52, wherein the total alkalinity of the solution of the Bayer process is from about 100 hl ^-1 to 360 hl ^-1 approximately.