Document Type : Research Paper
Authors
Abstract
In this work, the possibilities of molybdenum content reduction in uranium leach liquor was investigated by adsorption techniques. Several activated charcoals were used as adsorbents. Under the optimized condition, 83.59% of molybdenum was adsorbed with “Norit PK 0.25-1” activated charcoal. Since the low uranium adsorption is the aim of this work, by performing the optimization conditions, the uranium adsorption with activated charcoal was determined to be 2.74%.
Highlights
- 1. F. Habashi, “A textbook of hydrometallurgy, metallurgie extractive quebe publication, canada,” ISBN: 2-980-3247-0-1, 355-374 (1993).
- 2. A. Floreancing, J.P. Cuer, “Separation of uranium and molybdenum using a solvent,” United States Patent, Patent Number: 4363788 (1982).
- 3. E.K. Lam, M.G. Neven, R.A. Steane, K.F. Ko, “Removal of molybdenum from uranium- bearing solutions,” United States Patent, Patent Number: 5229086 (1993).
- 4. C. Brassier-Lecarme, P. Baron, J.L. Chevalier, C. Madic, “Acidic organophosphorus solvent extraction process for the purification of molybdenum in tailings from uranium ore treatment,” Hydrometallurgy, Vol. 47, 57-67 (1997).
- 5. R.J. Jan, A.H. Montgomery, “Process for the separation and recovery of molybdenum and uranium from leach solution using ion exchange,” United States Patent, Patent Number: 4375452 (1983).
- 6. D. Hietkamp, K. Wagener, “Method for the recovery of uranium dissolved in sea water,” United States Patent, Patent Number: 4277345 (1981).
- 7. G.H. Kuehl, S.H. Sherry, “Method of controlling the molybdenum content of uranium yellowcake,” United States Patent, Patent Number: 4304757 (1981).
- 8. H.E. Gardner, “Removal of molybdenum from uranium solutions,” United States Patent, Patent Number: 4366126 (1982).
- 9. T.J. Crossley, “Method of removing uranium from a slurry containing molybdenum,” United States Patent, Patent Number: 4393028 (1983).
10. D.R. Weir, R.M. Berezowsky, “Removal of uranium from sulphate solutions containing molubdenum,” United States Patent, Patent Number: 4405566 (1983).
11. T.Y. Yan, “Method of precipitating contaminants in a uranium leachate using ferri ions, complexing agent and pH control,” United States Patent, Patent Number: 4464345 (1984).
12. E.T. Hollis, H.E. Dixon, “Removal of molybdenum from acid leach liquors by activated carbon,” WIN-53, July 29 (1958).
13. Laferty, John M, L. Johnson, Burwell, “Recovery of molybdenum and uranium from activated charcoal containing molybdenum and residual uranium,” United States Patent, Patent Number: 4199551 (1980).
14. Merritt, C. Robert, “The extractive metallurgy of uranium,” Johnson Publishing Company, (1971).
15. A. Mellah, S. Chegrouche, M. Barkat, “The removal of uranium (VI) from aqueous solutions onto activated carbon: kinetic and thermodynamic investigations,” Journal of Colloid and Interface Science, Vol 296, 434-441 (2006).
16. Ceren Kütahyalı, Meral Eral, “Selective adsorption of uranium from aqueous solutions using activated carbon prepared from charcoal by chemical activation,” Separation and Purification Technology, Vol 40, 109-114 (2004).
Keywords
- 1. F. Habashi, “A textbook of hydrometallurgy, metallurgie extractive quebe publication, canada,” ISBN: 2-980-3247-0-1, 355-374 (1993).
- 2. A. Floreancing, J.P. Cuer, “Separation of uranium and molybdenum using a solvent,” United States Patent, Patent Number: 4363788 (1982).
- 3. E.K. Lam, M.G. Neven, R.A. Steane, K.F. Ko, “Removal of molybdenum from uranium- bearing solutions,” United States Patent, Patent Number: 5229086 (1993).
- 4. C. Brassier-Lecarme, P. Baron, J.L. Chevalier, C. Madic, “Acidic organophosphorus solvent extraction process for the purification of molybdenum in tailings from uranium ore treatment,” Hydrometallurgy, Vol. 47, 57-67 (1997).
- 5. R.J. Jan, A.H. Montgomery, “Process for the separation and recovery of molybdenum and uranium from leach solution using ion exchange,” United States Patent, Patent Number: 4375452 (1983).
- 6. D. Hietkamp, K. Wagener, “Method for the recovery of uranium dissolved in sea water,” United States Patent, Patent Number: 4277345 (1981).
- 7. G.H. Kuehl, S.H. Sherry, “Method of controlling the molybdenum content of uranium yellowcake,” United States Patent, Patent Number: 4304757 (1981).
- 8. H.E. Gardner, “Removal of molybdenum from uranium solutions,” United States Patent, Patent Number: 4366126 (1982).
- 9. T.J. Crossley, “Method of removing uranium from a slurry containing molybdenum,” United States Patent, Patent Number: 4393028 (1983).
10. D.R. Weir, R.M. Berezowsky, “Removal of uranium from sulphate solutions containing molubdenum,” United States Patent, Patent Number: 4405566 (1983).
11. T.Y. Yan, “Method of precipitating contaminants in a uranium leachate using ferri ions, complexing agent and pH control,” United States Patent, Patent Number: 4464345 (1984).
12. E.T. Hollis, H.E. Dixon, “Removal of molybdenum from acid leach liquors by activated carbon,” WIN-53, July 29 (1958).
13. Laferty, John M, L. Johnson, Burwell, “Recovery of molybdenum and uranium from activated charcoal containing molybdenum and residual uranium,” United States Patent, Patent Number: 4199551 (1980).
14. Merritt, C. Robert, “The extractive metallurgy of uranium,” Johnson Publishing Company, (1971).
15. A. Mellah, S. Chegrouche, M. Barkat, “The removal of uranium (VI) from aqueous solutions onto activated carbon: kinetic and thermodynamic investigations,” Journal of Colloid and Interface Science, Vol 296, 434-441 (2006).
16. Ceren Kütahyalı, Meral Eral, “Selective adsorption of uranium from aqueous solutions using activated carbon prepared from charcoal by chemical activation,” Separation and Purification Technology, Vol 40, 109-114 (2004).
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