Patent Number: 045499853
Section: claims

1. A method for solidifying and separating constituents from phosphoric acid solutions containing uranium and dissolved metals, comprising the steps of: (a) adding an alkali metal carbonate to a solution of phosphoric acid containing uranium and dissolved metals in at least about stoichiometric proportions to the acid content of the solution, and separating precipitated insolubles therefrom;  (b) adding a calcium salt to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (c) adding an alkali metal hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated insolubles therefrom.  (a) adding an alkali metal carbonate to a solution of phosphoric acid containing uranium and dissolved metals in at least about stoichiometric proportions to the acid content of the solution, and separating precipitated insolubles therefrom;  (b) adding sodium hydrosulfite to the solution, and separating precipitated insolubles therefrom;  (c) adding a calcium salt to the solution; and  (d) adding an alkali metal hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated insolubles therefrom.  (a) adding at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate to a solution of phosphoric acid containing uranium and dissolved metals in at least about stoichiometric proportions to the acid content of the solution, and adjusting the phosphate concentration thereof to about 1.1.+-.0.2 molar, and separating precipitated insolubles therefrom;  (b) adding sodium hydrosulfite to the solution, and separating precipitated insolubles therefrom;  (c) adding at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (d) adding sodium hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitate insolubles therefrom.  (a) contacting a solution of phosphoric acid containing uranium and dissolved metals with an anion exchange material and removing phosphate ions therefrom to thereby increase the concentration ratio of the dissolved metals to the acid;  (b) adding an alkali metal carbonate to the solution in at least about stoichiometric proportions to the acid content of the solution, and separating insolubles therefrom;  (c) adding a calcium salt to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (d) adding an alkali metal hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating insolubles therefrom.  (a) contacting a solution of phosphoric acid containing uranium and dissolved metals with an anion exchange medium and removing phosphate ions therefrom to thereby increase the concentration ratio of the dissolved metals to the acid;  (b) adding at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate to the solution in at least about stoichiometric proportions to the acid content of the solution, and separating insolubles therefrom;  (c) adding at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (d) adding sodium hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating insolubles therefrom.  (a) contacting a solution of phosphoric acid containing uranium and dissolved metals with an anion exchange material and removing phosphate ions therefrom to thereby increase the concentration ratio of the dissolved metal to the acid;  (b) adding sodium carbonate to the solution in at least about stoichiometric proportions to the acid content of the solution, and separating the insolubles precipitated therefrom;  (c) adding calcium nitrate to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (d) adding sodium hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating the insolubles precipitated therefrom.  (a) contacting a solution of phosphoric acid containing dissolved metals with an anion exchange material and removing phosphate ions therfrom to thereby increase the concentration ratio of the dissolved metals to the acid;  (b) adding an alkali metal carbonate to the solution in at least about stoichiometric proportions to the acid content of the solution, and separating precipitated insolubles therefrom;  (c) adding sodium hydrosulfite to the solution, and separating precipitated insolubles therefrom;  (d) adding a calcium salt to the solution in amount of about 10 to about 50 percent in excess of the stoichiometric proportions with the phosphate content; and  (e) adding an alkali metal hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated insolubles therefrom.  (a) contacting a solution of phosphoric acid containing dissolved metals including uranium compounds with an anion exchange material and removing phosphate ions therefrom to thereby increase the concentration ratio of the dissolved metals to the acid;  (b) adding at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate to the solution in at least about stoichiometric proportions to the acid content of the solution, and separating precipitated insolubles therefrom;  (c) adding sodium hydrosulfite to the solution, and separating precipitated insolubles therefrom;  (d) adding at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride to the solution in amount of from about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (e) adding sodium hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated insolubles therefrom.  (a) contacting a solution of phosphoric acid containing dissolved metals with an anion exchange material and removing phosphate ions therefrom to thereby increase the concentration ratio of the dissolved metals to the acid;  (b) adding an alkali metal carbonate to the solution in at least about stoichiometric proportions to the acid content of the solution and adjusting the phosphate concentration thereof to about 1.1.+-.0.2 molar, and separating precipitated insolubles therefrom;  (c) adding sodium hydrosulfite to the solution, and separating precipitated insolubles therefrom;  (d) adding a calcium salt to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (e) adding an alkali metal hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated insolubles therefrom.  (a) contacting a solution of phosphoric acid containing dissolved metals including uranium compounds with an anion exchange material and removing phosphate ions therefrom to thereby increase the concentration ratio of the dissolved metals to the acid;  (b) adding at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate to the solution in at least about stoichiometric proportions to the acid content of the solution and adjusting the phosphate concentration thereof to about 1.1.+-.0.2 molar, and separating precipitated insolubles therefrom;  (c) adding sodium hydrosulfite to the solution, and separating precipitated insolubles therefrom;  (d) adding at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (e) adding sodium hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated insolubles therefrom.  (a) adding an alkali metal carbonate to a solution of phosphoric acid containing uranium and at least one dissolved metal selected from the group consiting of iron, nickel, molybdenum, copper, zinc, chromium, aluminum, cobalt and magnesium in at least about stoichiometric proportions to the acid content of the solution, and separating precipitated metal insolubles therefrom;  (b) adding a calcium salt to the solution in amount of about 10 to about 50 percent in excess of stoichiometric proportions with the phosphate content; and  (c) adding an alkali metal hydroxide to the solution and adjusting the pH of said solution to at least about 10, and separating precipitated metal insolubles therefrom. 2. The solidifying and separating method of claim 1, wherein the alkali metal carbonate added to the solution comprises at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate. 3. The solidifying and separating method of claim 1, wherein the calcium salt added to the solution comprises at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride. 4. The solidifying and separating method of claim 1, wherein the alkali metal hydroxide added to the solution to adjust the pH thereof comprises sodium hydroxide. 5. A method for solidifying and separating constituents from phosphoric acid solutions containing dissolved metals including uranium compounds, comprising the steps of: 6. A method for solidifying and separating constituents from phosphoric acid solutions containing dissolved metals including uranium compounds, comprising the steps of: 7. The solidifying and separating method of claim 6, wherein the carbonate added to the solution comprises sodium carbonate. 8. The solidifying and separating method of claim 6, wherein the calcium salt added to the solution comprises calcium nitrate. 9. The solidifying and separating method of claim 6, wherein the separated precipitated insolubles from each step are combined and dehydrated for disposal. 10. A method for solidifying and separating constituents from phosphoric acid solutions containing uranium and dissolved metals, comprising the steps of: 11. The solidifying and separating method of claim 10, wherein the carbonate added to the solution comprises at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate. 12. The solidifying and separating method of claim 10, wherein the calcium salt added to the solution comprises at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride. 13. The solidifying and separating method of claim 10, wherein the alkali metal hydroxide added to the solution to adjust the pH thereof comprises sodium hydroxide. 14. A method of solidifying and separating constituents from phosphate acid solutions containing uranium and dissolved metals, comprising the steps of: 15. The solidifying and separating method of claim 14, wherein the metal carbonate added to the solution comprises sodium carbonate. 16. The solidifying and separating method of claim 14, wherein the calcium salt added to the solution comprises calcium nitrate. 17. The solidifying and separating method of claim 14, wherein the separated insolubles from each step are combined and dehydrated. 18. A method for solidifying and separating constituents from phosphoric acid solution containing uranium and dissolved metals, comprising the steps of: 19. A method for solidifying and separating constituents from phosphoric acid solutions containing dissolved metals including uranium compounds, comprising the steps of: 20. The solidifying and separating method of claim 19, wherein the alkali metal carbonate added to the solution comprises at least one metal carbonate selected from the group consisting of sodium carbonate, sodium bicarbonate, potassium carbonate, and potassium bicarbonate. 21. The solidifying and separating method of claim 19, wherein the calcium salt added to the solution comprises at least one calcium salt selected from the group consisting of calcium nitrate and calcium chloride. 22. The solidifying and separating method of claim 19, wherein the alkali metal hydroxide added to the solution to adjust the pH thereof comprises sodium hydroxide. 23. The solidifying and separating method of claim 19, wherein the separated precipitated insolubles from each step are combined and dehydrated for disposal. 24. A method for solidifying and separating constituents from phosphoric acid solutions containing dissolved metals including uranium compounds, comprising the steps of: 25. The solidifying and separating method of claim 24, wherein the carbonate added to the solution comprises sodium carbonate. 26. The solidifying and separating method of claim 24, wherein the calcium salt added to the solution comprises calcium nitrate. 27. The solidifying and separating method of claim 24, wherein the separated precipitated insolubles from each step are combined and dehydrated for disposal. 28. A method for solidifying and separating constituents from phosphoric acid solutions containing dissolved metals including uranium compounds, comprising the steps of: 29. A method for solidifying and separating constituents from phosphoric acid solutions containing dissolved metals including uranium compounds, comprising the steps of: 30. The solidifying and separating method of claim 29, wherein the carbonate added to the solution comprises sodium carbonate. 31. The solidifying and separating method of claim 29, wherein the calcium salt added to the solution comprises calcium nitrate. 32. The solidifying and separating method of claim 29, wherein the separated precipitated insolubles from each step are combined and dehydrated for disposal. 33. A method for solidifying and separating constituents from phosphoric acid solutions containing uranium and dissolved metals, comprising the steps of: