Resources Recycling (자원리싸이클링)

The Korean Institute of Resources Recycling (한국자원리싸이클링학회)
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Universal Plasma-chemical Module for Carbon-containing Raw Materials Treatment

  • Park, Hyun-Seo (Dept. of Environmental Science and Technology, Jeonju University) ;
  • Zasypkin, I.M. (ITAM SB RAS, Novosibirsk State Technical university(Russia))
  • Published : 2004.02.01
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Abstract

A universal plasma-chemical module (PChM) for the industrial processing of different hydrocarbon raw material pyrolysis was designed and tested. Laboratory investigations for the plasma-chemical method of acetylene production from natural gas and different coals were made. Similar laboratory tests on the industrial production of acetylene as a raw material for organic syn-thesis were developed using the PChM. A comparison of the suggested plasma-chemical method with the traditional process of acetylene production were carried out. The outlook of the plasma-chemical method was shown.

Keywords

References

  1. Zhukov, M.E, Zasypkin, I.M., Timoshevskij, A.N. et al., 1999: Electric arc generators of thermal plasma, Lowtemperature plasma. Novosibirsk in Russia, 17
  2. Zhukov, M.F., Koroteev, A.S. and Urjukov, B.A., 1975: Applied dynamics of thermal plasma, Science. SB. Novosibirsk in Russia
  3. Park, H.-S. and Ivan Zasypkin. Electric arc gas heaters for technological processes
  4. Painter, J.H. and Crowtil, J.K., 1980: AIAA J. 18(3)
  5. Painter, J.H. and Emsen, R.J., 1971: AIAA J. 9(12)
  6. Rutberg, F.G. and Safronov, A.A. et aI., 1995: High power AS plasma torch, Proc. Int. conf. Low-temperature plasma physics. Petrozavodsk in Russia. 3
  7. Polak, L.S. and Ovsjannikov, L.A et al. 1975: Theoretical and applied plasma-chemistry, Science. Moscow in Russia
  8. Krapivina, S.A, 1981: Plasma-chemical technological processes, Chemistry., Leningrad in Russia
  9. Dr. Marlin, Springer, D. and William, C. and Burns, P.E., 1992: Destruction of Medical Waste using Plasma Energy, Proc. of the Incineration Conference., Thermal Treatment of Radioactive, Hazardous Chemical, Mixed and Medical Wastes., Albuquerque in New Mexico. 431-434
  10. Ray Geimer. Current DOE Initiatives in Plasma Arc Technology Development, In the same volume, 765-769
  11. Medical Waste Policy Committee., 1989: Perspectives on Medical Waste, The Nelson A Rockfeller Institute of Government State University of New York (June 1989)
  12. Seitz, M.G., Gerding, T.J. and Steindler, M.J., 1979: Decontamination of Metals Containing Plutonium and Americium, ANL-78-13.(Argonne National Laboratory)Argonne, IL
  13. Gillins, R.L. and Poling, S.D. 1994: Plasma Hearth Waste Treatment Demonstration for Radioactive Mixed Waste, Proc. of the 1994 Int. Incineration Conference, Thermal Treatment of Radioactive, Hazardous Chemica1, Mixed and Medical Wastes. 25-30
  14. Batdorf, J.A., Geimer, R.M., Hassel, G.R and Wolf, W.P. 1996: Off-gas Emissions from the Plasma Hearth Process, Hazardous Waste and Hazardous Materials, 13(1), 153-165 https://doi.org/10.1089/hwm.1996.13.153
  15. Park, H.-S., Lee, H.-N., Kim, S-J. and Kwon, S-S., 2001: The Pyrolysis-Melting system for Toxic waste treatment by plasma energy. Proc. of Korea Engineer's Society of Pyrolysis and Melting. 144-155
  16. Tukhvatullin, A.M. and Zasypkin, I.M. 2002: Resourcesaving plasma-chemical technology of chemical products manufacturing, Thermal Plasma Torches and Technologies. Thermal Plasma and Allied Technologies. Research and Developments/Ed. by G.P. Solonenko. Cambridge International Science Publishing. 2
  17. Tukhvatullin, A.M., Izinger Ju, V., Zasypkin, I.M. et al. 1990: Plasma-chemical reprocessing of hydrocarbon stock and organic wastes from chemical process., Proc. of the Intern. Workshop, Plasma jets in the development of new material technology. pp. 3-9 Sept. 1990, -Frunze, USSR- VSP, Utrecht, the Netherlands, Tokyo, Japan 1990. 493-497
  18. Ed, M.F., Zhukov, V.E.., Panin. 1992: New materials and technologies, Extreme technological processes. Chapter 5. Novosibirsk in Russia
  19. Nozdrenko, G.V. and Zasypkin I.M. 2002: Production of acetylene and synthesis-gas from coal with plasma-chemical method., Thermal Plasma Torches and Technologies. Vol. 2. Thermal Plasma and Allied Technologies. Research and Developments. /Ed. O.P. Solonenko - Cambridge Intemational Science Publishing
  20. Tukhvatullin A.M., Izinger Yu.V 1986 : Plasma-chemical reactor - effective equipment for destruction processes in petroleum chemistry, Proc of LX All-union conf. Chemical reactor -9 Grodno (In Russian). 2, 51-55
  21. Muller, R. and Kaske, G. 1984: The use of plasma-chemical processes for chemical reactions. The Chemische werke Huls plasma processes, Erdol und Kohle - Erdgas Petrochemie vereinigt mit Brennstoff - Chemie. - 37(4), 149-155
  22. Wragg, J.G., Kaleel, M.A. and Kim, C.S. 1980: Plasma-arc coal chemicals, Coal Processing Technology. 6, 186-192
  23. Muller, R. 1982: The use of hydrogen plasma process in the petrochemical and iron- smelting industries, Hydrogen energy process: Proc. World Hydrogen Energy Conf. California. 2, 885-900
  24. Zhukov, M.F., Kalinenko, R.A., Levitzkii, A.A. and Polak, L.S., 1990: Plasma-chemical coal treatment, Moscow in Russia
  25. Tukhvatullin, A.M. and Izinger, Y.V., 1989: Technicaleconomical reasons of use of plasma- chemical acetylene from coal in chlorine-organic synthesis, Technicaleconomical reasons of plasma-chemical processes of coal and hydrocarbon treatment. Irkutsk in Russia