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In-Flight Metal Extraction in a Novel Plasma Reactor

Published online by Cambridge University Press:  15 February 2011

K.J. Reid ,
J.J. Moore  and
J.K. Tylko
K.J. Reid
Affiliation:
Mineral Resources Research Center, University of Minnesota, Minneapolis, MN 55455
J.J. Moore
Affiliation:
Mineral Resources Research Center, University of Minnesota, Minneapolis, MN 55455
J.K. Tylko
Affiliation:
Plasmatech Inc., P.O. Box 14055, Minneapolis, MN 55414
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Abstract

A new plasma reactor system based on a stable expanded conical plasma reaction zone has been used to examine the in-flight extraction of metals from mineral concentrates. The basic principles of the plasma system and details of the equipment are described. Results obtained from the treatment of taconite concentrate, low grade chromite concentrate and a copper-nickel concentrate are presented and discussed.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 30: Symposium L – Plasma Processing and Synthesis of Materials I , 1983 , 151
Copyright
Copyright © Materials Research Society 1984

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References

REFERENCES

1. McManus, G.J., Plasma Could Hold the Key to One-Step Steel Processing, Iron Age, October 3, 1983.Google Scholar
2. Szekely, J., Overview of Plasma Processing, Proceedings MRS Symposium on Plasma Processing & Synthesis of Materials, Boston, November 15–17, 1983, Elsevier.Google Scholar
3. Roman, W.C., Thermal Plasma Melting/Remelting Technology, Proceedings MRS Symposium on Plasma Processing & Synthesis of Materials, Boston, November 15–17, 1983, Elsevier.Google Scholar
4. Gauvin, W.H., Plasmas in Extractive Metallurgy. Proceedings MRS Symposium on Plasma Processing & Synthesis of Materials, Boston, November 15–17, 1983, Elsevier.Google Scholar
5. Reid, K.J., Moore, J.J. and Tylko, J.K., Reduction of Taconite in the Sustained Shockwave Plasma (SSP). Proceedings 5th ISPC, IUPAC, Edinburgh, August 1981.Google Scholar
6. Reid, K.J., Moore, J.J., Plasma Reduction of Minnesota Taconite Concentrates. Proc. 54th Annual Minnesota Sec. AIME Meeting, Duluth, January 1981, University of Minnesota.Google Scholar
7. Reid, K.J., Tylko, J.K. and Moore, J.J., The Application of the Sustained Shockwave Plasma (SSP) in Process Metallurgy. Second World Congress of Chemical Engineering, Montreal, Canada, October 1981.Google Scholar
8. Moore, J.J., Reid, K.J. and Tylko, J.K., In-Flight Plasma Reduction of Domestic Chromite. Journal of Metals, p 43, August 1981.Google Scholar
9. Reid, K.J., Murawa, M. and Girgis, N.M., Plasma Smelting of Copper-Nickel Concentrate for Minimal Environmental Impact. Proceedings 6th International Symposium on Plasma Chemistry ISPC-6, Montreal, 1983.Google Scholar
10. Bibliography of Plasma Chemistry. International Union of Pure and Applied Chemistry.Google Scholar
11. Reid, K.J. and Kakela, P., Direct Iron Smelting: The Influence of International Location on the Competitive Posture of Two New Technologies. Journal of Metals. December 1983.Google Scholar
12. Santen, S., Plasma Technology Gives New Lease of Life to Swedish DR Plant.Iron & Steel International, 53, No. 1, 1980.Google Scholar
13. Santen, S., Plasma Smelting. Proceedings 6th International Symposium on Plasma Chemistry ISPC-6, Montreal, 1983.Google Scholar
14. Ponghis, N., Vidal, R. and Poos, A., PIROGAS - A New Process Allowing Diversification of Energy for Blast Furnaces. High Temperature Technology, Vol 1, No. 5, August 1983, p 275281.Google Scholar
15. Harrington, J.H., Reduction and Dissociation of Molybdenum Compounds in a Transferred Plasma Arc. 4th Int. Symp. on Plasma Chemistry, Zurich, August 1979.Google Scholar
16. Gauvin, W.H., Kubanek, G.R. and Irons, G.A., The Plasma Production of Ferromolybdenum - Process Development and Economics. J. Metals, January 1981, pp 42–46.Google Scholar
17. Carr, T.R., Barcza, N.A., Maske, K.U. and Mooney, J.F., The Design and Operation of Transferred-Arc Plasma Systems for Pyrometallurgical Applications. Proc. 6th International Symposium on Plasma Chemistry ISPC-6, Montreal, July 1983.Google Scholar
18. Thorpe, M.L. and Wilks, P.H., Electric-Arc Furnace Turns Zircon Sand to Zirconia. Chemical Engineering, Nov 15, 1971, pp 117–119.Google Scholar
19. Tylko, J.K. to Plasma Holdings N.V., U.S. Patent 4,361,441.Google Scholar
20. Sayce, I.G., Plasma Processes in Extractive Metallurgy, Advances in Extractive Metallurgy, Inst. Min. Met., p 241, 1972.Google Scholar
21. Hamblyn, S.M.L., Plasma Technology and Its Application to Extractive Metallurgy, Minerals Sci Engng, Vol 9, No. 3, July 1977, p 151.Google Scholar
22. Maske, K.J. and Moore, J.J., The Application of Plasmas to High Temperature Reduction Metallurgy. High Temperature Technology, August 1981, p 51.Google Scholar
23. McRae, D.R., Gold, R.G., Thompson, C.D., Sandall, W.R., Ferrovanadium Production by Plasma Carbothermic Reduction of Vanadium Oxide, 34th Electric Furnace Conference, Iron and Steel Society of AIME, Dec 1976, St. Louis.Google Scholar
24. Donyina, D.K.A., Lavers, J.D., McLean, A., Segsworth, R.S., Plasma Processing of Ferromanganese Slags. 37th Electric Furnace Conference, Iron and Steel Society of AIME Dec 1979 Chicago.Google Scholar
25. Tylko, J.K., Expanded Precessive Plasmas, IUPAC Plasma Chem. Symposium, Kiel, West Germany, 1973.Google Scholar
26. Kamenetskii, Frank, Lektsii po Fizike Plazmy Atomizdat, Moscow, 1964.Google Scholar
27. Brontin, B.R., The Application of Plasmas to Chemical Processing, R.F. Baddour, Timmis, R.S., ed., Oxford: Pergamon Press, 1967.Google Scholar
28. Reed, T.B., The Application of Plasmas to Chemical Processing, pp 2628.Google Scholar
29. Moore, J.J., Reid, K.J., Sivertsen, J.M., Production of Metastable, Metallic Particles Directly from the Mineral Concentrate in a Plasma Reactor. Proceedings MRS Symposium on Plasma Processing and Synthesis of Materials, Boston, Nov 15–17, 1983, Elsevier.Google Scholar