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Recovery and separation of cobalt and manganese from one of zinc plant residues (ZPR), namely hot filter cake (HFC) using a hydrometallurgical process was studied. The process is carried out in four steps as follows: (1) washing zinc, (2) reductive leaching with hydrogen peroxide, (3) cadmium cementation with zinc powder and (4) separation of cobalt from manganese with beta naphthol. In this research, the separation between manganese and cobalt from the HFC using N-N reagent was investigated. The influence of several parameters on the course of the reaction such as N-N quantity, pH, temperature and reaction time was also examined. The optimum separation conditions were found to be N-N quantity: 8 times of stoichiometric value, time: 30 min, temperature: 25 °C and pH = 1.5. Using the optimized conditions, the cobalt and manganese precipitation was nearly 99% and 0%, respectively. A kinetic study of manganese precipitation through N-N reagent has been carried out to assess the effect of kinetics parameters. The data obtained for the leaching kinetics indicated that the precipitation of manganese is an ash diffusion controlled reaction and the reaction activation energy is equal to 1.4kJ/mol.
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Tom
Strony
735--746
Opis fizyczny
Bibliogr. 21 poz., rys.
Twórcy
autor
- Faculty of Engineering, University of Zanjan, Zanjan, Iran
autor
- Research and Engineering Company for Non-ferrous Metals (RECo.), Zanjan, Iran
autor
- Research and Engineering Company for Non-ferrous Metals (RECo.), Zanjan, Iran
- Faculty of Engineering, Imam Khomeini International University, Qazvin, Iran
autor
- Research and Engineering Company for Non-ferrous Metals (RECo.), Zanjan, Iran
Bibliografia
- 1. Abdollahi P., Moradkhani D., Behnian D., Yozbashizadeh H., 2006, Lead recovery from Iranian zinc plant residue using brine leaching method. Proceedings of XXII International Mineral Processing Congress, Istanbul Turkey, 1515–1520.
- 2. Altundogan H.S., Ozer A., Tumen F., 1992, Bakir Curuflarinin Asidik Ortamlardaki Agir Metal Cozunurlukleri, VIII. Kimya ve Kimya Muhendisligi Sempozyumu, 7-11 Eylul 1992. Istanbul, Vol IV, 195–200.
- 3. Eivazi A.R.H., Alamdari E. K., Moradkhani D., 2008, Dissolution kinetics of zinc from zinc plant residue. In: Young, C.A., (Eds.), Hydrometallurgy 2008, Proceedings of the 6th International Symposium. The Minerals, Metals and Materials Society, Vancouver, Canada, 196–200.
- 4. Eivazi A.R.H., Heidari N., Alamdari E.K., Darvishi D., Moradkhani D., 2009, Dissolution of Co, Mn and Zn from zinc plant residue in H2O2-H2SO4-H2O medium, The 2009's Fifth International conference on Hydrometallurgy, Zhangjiajie, Hunan Province, China.
- 5. Eivazi A.R.H., Moradkhani D., Alamdari E.K., Darvishi D., 2008, Solvent extraction separation of zinc, manganese and cobalt in sulfate solutions by D2EHPA, International Solvent Extraction Conference, B.A. Moyer, Eds., Vol. I, Tucson, Arizona, USA, 233–238.
- 6. Farahmand F., Moradkhani D., Safarzadeh M.S., Rashchi F., 2009, Brine leaching of lead bearing zinc plant residues: process optimization using orthogonal array design methodology. Hydrometallurgy 95, 316–324.
- 7. Florijn P.J., Van Beusichem M L., 1993, Uptake and distribution of cadmium in maze inbred lines, Plant Soil 150, 25–32.
- 8. Hatch, 2000, Review of Environmental Releases for the Base Metals Smelting Sector, PR36242.002.
- 9. Jha M.K., Kumar V., Singh R.J., 2001, Review of hydrometallurgical recovery of zinc from industrial wastes. Resour. Conserv. Recycl, 33, 1–22.
- 10. Kul, M., Topkaya, Y., 2008, Recovery of germanium and other valuable metals from zinc plant residues, Hydrometallurgy, Vol. 92, Issue 3-4, 87–94.
- 11. Levenspiel O., 1991, Chemical Reaction Engineering, 3rd Edn. John Wiley and Sons, New York.
- 12. Raghavan R., Mohanan P.K., Swarnkar S.R., 2000, Hydrometallurgical processing of lead-bearing materials for the recovery of lead and silver as lead concentrate and lead metal. Hydrometallurgy 58, 103–116.
- 13. Ross S.M., 1994, Toxic metals in soil–plant systems. John Wiley & Sons, Chichester, UK.
- 14. Safarzadeh M.S., Moradkhani D., Ashtari P., 2009, Recovery of zinc from Cd–Ni zinc plant residues. Hydrometallurgy, 97, 67–72.
- 15. Safarzadeh M.S., Moradkhani D., Ojaghi-Ilkhchi M., 2005, Fall, Feasibility studies on the production of cadmium in Iran. Report no. 202, R&D Center, Iranian Zinc Mines Development Company, Zanjan (in Persian).
- 16. Sedaghat B., Moradkhani D., Khodadadi A., Eivazi Hollagh A.R., Koleini S.M.J., 2008, Study of the effective parameters to transport of hazardous waste from zinc leaching plant to environment, Hydrometallurgy 2008, Proceedings of the Sixth International Symposium.
- 17. Tumen F., 1988, A Study on the Solubility of Lignite Fly Ash, Doga TU J. Chem, 12(1), 88–96.
- 18. Tumen F., Bildik M., Boybay M., Cici M., Solmaz B., 1992, Ergani Bakir Isletmesi Kati Atiklarinin Kirlilik Potansiyeli, Doga Tr. J. of Engineering and Environmental Sciences, 16: 43–53.
- 19. Tumen F., Boybay M., Solmaz B., Cici M., Bildik M., 1991, Elazig Ferrokrom Fabrikasi ve Keban Simli-Kursun Isletmesi Kati Atiklarinin Kirlilik Potansiyeli, Doga Tr. J. of Engineering and Environmental Sciences, 15: 464–485.
- 20. Wang Y., Zhou C., 2002, Hydrometallurgical process for recovery of cobalt from zinc plant residue”, Hydrometallurgy, Vol. 63, Issue 3, 225–234.
- 21. Wentz C. A., 1989, Hazardous Waste Management, McGraw-Hill, NewYork.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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