Conference paper
Application of Mesophilic Mixed Micro-Organisms for Recovery of Valuable Metals from Spent Refinery Catalysts
Advanced Materials Research, Vol.20-21, pp.119-125
Trans Tech Publications Inc.
Biohydrometallurgy: From the Single Cell to the Environment (Frankfurt am Main, Germany, 02/09/2007–05/09/2007)
2007
Abstract
Bioleaching of pre-treated spent refinery catalyst was performed using sulfur and iron oxidizing bacteria separately. Both the mixed cultures were grown at various concentration of either ferrous sulfate or elemental sulfur. Bioleaching process was conducted by varying the reaction time, effect of substrates and effect of catalyst amount. Under the most favourable transport conditions examined, (5g/L spent catalysts, 10g/L ferrous sulfate, reaction time 7 days) the mixed iron oxidizing bacteria were able to recover Ni, V, and Mo of 90, 80 and 54 % respectively. Higher catalyst and ferrous sulfate concentration showed decline result in recovery of Mo and V. Ni showed consistent results throughout the series of experiments (88 to 90% recovery). The mixed sulfur oxidizing bacteria were observed to be more effective than the iron oxidizing bacteria. The sulfur oxidizing cells were able to recover Ni, V and Mo of 88, 94 and 46 % respectively (spent catalysts 50g/L, elemental sulfur of 2% (w/v), reaction time 7 days). The oxidation of elemental sulfur to sulfate could play a vital role for extraction of the metals.
Details
- Title
- Application of Mesophilic Mixed Micro-Organisms for Recovery of Valuable Metals from Spent Refinery Catalysts
- Authors/Creators
- D.J. Kim (Author/Creator) - Korea Institute of Geoscience and Mineral ResourcesD. Mishra (Author/Creator) - Korea Institute of Geoscience and Mineral ResourcesD.E. Ralph (Author/Creator) - Murdoch UniversityJ.G. Ahn (Author/Creator) - Korea Institute of Geoscience and Mineral ResourcesY.H. Rhee (Author/Creator) - Chungnam National University
- Publication Details
- Advanced Materials Research, Vol.20-21, pp.119-125
- Conference
- Biohydrometallurgy: From the Single Cell to the Environment (Frankfurt am Main, Germany, 02/09/2007–05/09/2007)
- Publisher
- Trans Tech Publications Inc.
- Identifiers
- 991005543315807891
- Copyright
- © 2007 Trans Tech Publications Inc., Switzerland
- Murdoch Affiliation
- Parker Cooperative Research Centre for Integrated Hydrometallurgy Solutions
- Language
- English
- Resource Type
- Conference paper
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