Dissolution Behavior of Rhodium into Molten Slag
Chompunoot Wiraseranee
Graduate School of Engineering, The University of Tokyo; 7-3-1 Hongo, Bunkyo-ku; Tokyo 113-8656, Japan
Search for more papers by this authorToru H. Okabe
Institute of Industrial Science, The University of Tokyo; 4-6-1 Komaba, Meguro-ku; Tokyo 153-8505, Japan
Search for more papers by this authorKazuki Morita
Institute of Industrial Science, The University of Tokyo; 4-6-1 Komaba, Meguro-ku; Tokyo 153-8505, Japan
Search for more papers by this authorChompunoot Wiraseranee
Graduate School of Engineering, The University of Tokyo; 7-3-1 Hongo, Bunkyo-ku; Tokyo 113-8656, Japan
Search for more papers by this authorToru H. Okabe
Institute of Industrial Science, The University of Tokyo; 4-6-1 Komaba, Meguro-ku; Tokyo 153-8505, Japan
Search for more papers by this authorKazuki Morita
Institute of Industrial Science, The University of Tokyo; 4-6-1 Komaba, Meguro-ku; Tokyo 153-8505, Japan
Search for more papers by this authorJiann-Yang Hwang
Search for more papers by this authorJaroslaw Drelich
Search for more papers by this authorJerome Downey
Search for more papers by this authorMark Cooksey
Search for more papers by this authorSummary
This chapter contains sections titled:
-
Introduction
-
Experimental
-
Results and Discussion
-
Conclusion
References
- D. Jollie, Platinum 2010 (England: Johnson Matthey Public Limited Company, 2010).
- J. S. Yoo, “Metal Recovery and Rejuvenation of Metal-loaded Spent Catalysts,” Catal. Today., 44 (1998) 27–46.
- C. Hagelüken, “Recycling of Electronic Scrap at Umicore's Integrated Metals Smelter and Refinery” (Paper presented at the European Metallurgical Conference EMC 2005, Dresden, 18–21 September 2005), 152–161.
- T. H. Okabe, H. Nakada, and K. Morita, “Recovery Technology of Platinum Group Metals,” Journal of the Surface Science Society of Japan, 29 (10) (2008), 592–600.
- A. Gibbon, J. E. Harry, and D. Hodge, “The Plasma Process for the Recovery of the Platinum Metals from Auto catalyst” (Paper presented at 8th International Symposium on Plasma Chemistry ISPC-8, Tokyo, 1987), 1862–1867.
- M. Benson et al., “The Recovery Mechanism of Platinum Group Metals from Catalytic Converters in Spent Automotive Exhaust Systems,” Resour. Conserv. Recy., 31 (2000) 1–7.
- J. W. Matousek and J. G. Whellock, “Precious Metals Losses in Pyrometallurgical Processing,” CIM Bulletin, 83 (933) (1990), 97–101.
- S. Nakamura and N. Sano, “Solubility of Platinum in Molten Fluxes as a Measure of Basicity,” Metall. Mater. Trans. ft, 28B (1997), 103–108.
- S. Nakamura et al., “The Influence of Basicity on the Solubility of Platinum in Oxide Melts,” Metall. Mater. Trans, B., 29B (1998), 411–414.
- H. Shuto, T. H. Okabe, and K. Morita, “Ru Solubility and Dissolution Behavior in Molten Slag,” Mater. Trans., submitted
- D. Swinbourne, “Solubility of Precious Metals in Slags” (Paper presented at the European Metallurgical Conference EMC 2005, Dresden, 18–21 September 2005), 152–161.
- I. Barin, Thermochemical Data of Pure Substances (Weinheim, Germany: VCH Verlagsgesellschaft, mbH, 1989).
- F. D. Richardson and C. J. B. Fincham, “Sulphur in Silicate and Aluminate Slags,” J. Iron. Steel. I., (September 1954), 4–15.
- R. Inoue and H. Suito, “Sulfur Partitions between Carbon-saturated Iron Melt and Na2O-SiO2 Slags,” Transactions ISIJ, 22 (1982), 514–523.
- J. Nell and H. O'Neill, “The Gibbs Free Energy of Formation and Heat Capacity of b̃-Rh2O3 and MgRh2O4, the MgO-Rh-O Phase Diagram, and Constraints on the Stability of Mg2Rh4+O4,” Geochim. Cosmochim. Ac., 61 (19) (1997), 4159–4171.
- K. T. Jacob and Y. Waseda, “Solid State Cells with Buffer Electrodes for Measurement of Chemical Potentials and Gibbs Energies of Formation: System Ca-Rh-O,” J. Solid. State. Chem., 150 (2000), 213–220.
- J. A. Duffy and M. Ingram, “An Interpretation of Glass Chemistry in Terms of the Optical Basicity Concept”, J. Non-Cryst. Solids, 21 (1976), 373–410.
- J. A. Duffy, “A Review of Optical Basicity and Its Application to Oxidic Systems,” Geochim. Cosmochim. Ac., 57 (1993) 3961–3970.
