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Accumulation of solar energy using thermal chemical transformations

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Powder Metallurgy and Metal Ceramics Aims and scope

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References

  1. I. N. Frantsevich, Chemistry and Biology, Accumulation of Solar Energy [in Russian], Znaniya USSR Publishing house, Kiev (1984).

    Google Scholar 

  2. P. F. Legchilin, “Wind systems — an alternative energy source,” Énergokhozyaistvo Rubezh., No. 3, 36–37 (1991).

  3. N. A. Styrikovich, Yu. V. Sinyak, and S. Ya. Chernyavskii, “Further prospects of developing energy industry throughout the worlds. Achievements and prospects,” Énerg. Topl.,14, No. 3, 25–47 (1981).

    Google Scholar 

  4. W. Hefele, “Problems and prospects of nuclear power engineering,” Vest. AN SSSR, No. 12, 82–102 (1990).

  5. R. B. Akmedov, “Prospects for solar kilowatt,” Énergiya: Ékon. Tekhn. Ékologiya, No. 4, 5–9 (1985).

  6. K. Wainberg and R. Williams, “Using the energy of the sun,” Mir Nauki,34, No. 4, 1–4 (1991).

    Google Scholar 

  7. V. I. Trefilov, “How should the ‘atomic break’ be filled,” Vest. AN SSSR, No. 2, 49–58 (1990).

  8. A. V. Sheklein, “Solar energy and hydrogen energetics: current state of the problem (according to foreign materials),” Geliotekhn., No. 2, 70–76 (1976); No. 4, 80–89 (1976).

  9. V. P. Barmin, I. L. Varshavskii, and M. O. Lerner, “Energy accumulating substances,” in: Future of Science [in Russian], Znanie, Moscow (1982), pp. 64–73.

    Google Scholar 

  10. K. F. Knoche, Thermochemische Kreispozesse zur Wasser Paltung: Tag. Wasserstoffennrgietechnik (Stuttgart, 15–16 Marz, 1989), Berlin, (1989), pp. 235–248.

  11. K. F. Knoche, H. Cremmer, G. Steinborn and W. Shneider, “Feasibility studies of chemical reaction for thermochemical water splitting cycles of the iron—chlorine, iron—sulfur families,” Int. J. Hydrogen Energy,2, 269–299 (1977).

    Google Scholar 

  12. F. Denewe and J. P. Roncato, “Thermochemical or hybrid cycles of hydrogen production technicoeconomical comparison with water electrolysis,” Int. J. Hydrogen Energy,6, No. 1, 9–23 (1981).

    Google Scholar 

  13. M. I. Rustamov, N. Z. Muradov, Yu. V. Bazhutin, et al., “Special features of the hybrid cycles of dissociation of water using solar energy,” in: Proceedings of the Conference on the Methods of Using Solar Energy, Chernogolovka (1981), pp. 146–147.

  14. I. N. Frantsevich and I. D. Radomysel'skii, “Technology of production of an iron powder by reducing scale with natural converted gas,” in: Powder Metallurgy, Proceedings of 48th All-Union Scientific and Technical Conference on the Problems of Powder Metallurgy [in Russian], NTO Mashprom, Yaroslavl' (1956), pp. 129–135.

    Google Scholar 

  15. I. N. Frantsevich, V. N. Bulanov, V. S. Dvernyakov, et al., “Chemical Methods of Accumulation of Solar Energy,” Geliotekhn., No. 5, 18–20 (1983).

  16. V. I. Anikeev, “Experimental examination of the transformation of solar energy using the thermochemical cycle,” Geliotekhn., No. 2, 2–3 (1987).

  17. I. N. Frantsevich, V. S. Zenkov, V. N. Bulanov, and V. P. Klimenko, “Mechanism of interaction of nickel oxide with hydrogen in the presence of a catalytic addition of Pd,” Zh. Fiz. Khim.,57, No. 9, 2206–2208 (1983).

    Google Scholar 

  18. Yu. I. Aristov, V. N. Parmon, V. I. Anikeev, et al., “Thermochemical transformation of solar energy in solar catalytic reactors,” in: New Horizons in Catalysis [in Russian], Institute of Catalysis, Siberian Division of the Academy of Sciences of the USSR, Novosibirsk (1985), pp. 16–66.

    Google Scholar 

  19. V. I. Anikeev, “Experimental examination of the conversion of solar energy using a thermochemical cycle,” Geliotekhn., No. 2, 3–6 (1985).

  20. V. S. Dvernyakov, Kinetics of High-Temperature Fracture of Materials [in Russian], Naukova Dumka, Kiev (1981).

    Google Scholar 

  21. I. N. Frantsevich, V. V. Pasichnyi, V. S. Dvernyakov, et al, “Helioequipment,” Author's Certificate No. 992942 USSR, Otkr. Izobr., No. 4 (1983).

  22. V. N. Bulanov, V. S. Zenkov, V. P. Klimenko, et al., “The natural gas catalytic steam conversion using solar energy,” in: Hydrogen Energy Progress VII; Proc. of the 7th World Hydrogen Energy Conference, Vol. 1 (Moscow, September 27–29, 1988), New York (1988), pp. 1025–1034.

  23. V. N. Parmon, “The limiting coefficient of the efficiency of the thermochemical transformation of solar energy,” Zh. Fiz. Khim.,58, No. 4, 993–995 (1984).

    Google Scholar 

  24. V. I. Anikeev, V. A. Kuz'min, V. I. Zheivot, et al., “Experimental examination of the process of high-temperature methodization of the synthesis gas in the system with a closed thermochemical cycle,” Geliotekhn., No. 4, 11–14 (1989).

  25. V. I. Anikeev, V. K. Bayev, N. N. Kundo, V. A. Kirillov, and T. F. Ramasanova, “Possibilities of applying heterogenous catalysis in energy devices,” in: Proc. of the 7th World Hydrogen Energy Conference, Vol. 1, (Moscow, September 27–29, 1988), New York (1988), 1693–1709 (1988).

  26. B. A. Proshen'kin, A. I. Blinov and O. M. Drobysheva, “Production of energy-accumulating substances on the base of complex processing of low-calory coal,” in: Problems of the Atomic Science and Technology. Atomic-Hydrogen Energetics and Technology [in Russian], No. 1, Moscow (1987), pp. 48–49.

  27. D. W. Gregg, R. W. Taylor and J. H. Campbell, “Solar gasification of coal, activated carbon, coke and coal and biomass mixtures,” Solar Energy,25, 353–364 (1980).

    Google Scholar 

  28. V. I. Trefilov, I. N. Frantsevich, V. V. Skorokhod, and V. N. Bulanov, “Problem of producing hydrogen by conversion of natural gas and methods of using energetics and transport,” in: Problems of the Atomic Science and Technology. Atomic-Hydrogen Energetics and Technology [in Russian], Moscow No. 5 (1987), p. 54.

  29. V. S. Zenkov, V. N. Bulanov, V. P. Klimenko, et al, “Production of hydrogen by the iron-vapor method using solar energy,” Geliotekhn. No. 3, 29 (1988).

  30. W. Klaus, K. Gunter, K. Kristel, et al., “Production of hydrogen in gases enriched with hydrogen,” Patent No. 94984, East Germany, published 12.1.1973.

  31. V. S. Zenkov, V. N. Bulanov, V. S. Dvernyakov, et al., “Possibilities of using solar energy in the process of production of hydrogen by the iron-vapor method,” Énerg. Elektrofik., No. 1, 26–28 (1990).

  32. I. N. Frantsevich, V. S. Zenkov, V. N. Bulanov, et al., “The effect of a catalytic addition of nickel on the process of reduction of iron oxide powder by carbon monoxide and hydrogen,” Poroshk. Metall., No. 8, 1–6 (1983).

  33. V. S. Zenkov, V. N. Bulanov, V. P. Klimenko, et al., “Examination of the processes of conversion of solid fuel using solar energy,” Geliotekhn., No. 2, 49–52 (1990).

  34. V. N. Zenkov, V. N. Bulanov, V. P. Klimenko, and V. V. Pasichny, “Utilizing of heliothechnics in heterogeneous physico—chemical processes of solid fuel and it's products conversion as well as iron-steam hydrogen production,” in: Proc. of the 7th International Symposium on Solar Thermal Concentrating Technologies, Moscow (1994), p. 133.

  35. V. N. Bulanov, V. P. Klimenko, E. Sh. Leybman, and V. V. Pasichny, “Solar energy using process for printed-circuit card scraps and waste utilisation,” in: Proc. of the 7th International Symposium on Solar Thermal Concentrating Technologies, Moscow (1994), p.116.

  36. E. W. Haltiner, “Sondermullverbrennung ohne Dioxine,” Verfahrenstechnik,24, No. 10, 10–11 (1990).

    Google Scholar 

  37. Pyrolyse, “Verfahren fur awfalle der zeiterplattenfertigung,” Verfahrenstechnik, No. 7, 8, 22–23 (1990).

    Google Scholar 

  38. G. I. Bagryantsev, R. V. Kotlyarova, L. P. Ryabov, and V. E. Chernikov, “Technological systems of thermal treatment of waste of chemical production,” in: Energy and Technological Processes and Apparatus for Chemical Production [in Russian], Novosibirsk (1989), pp. 17–22.

  39. M. Wolfgang, H. Gunter, H. Emler, and H. Diter, “A method of extraction of metals,” Patent No. 267741, East Germany, published 15.05.89.

  40. T. Jurgen, A. Wolfgand, and K. Michael, “Method of processing copper vignette printed board waste,” Patent No. 258141, East Germany, published 13.07.88.

  41. H. Eschar, W. Potke, and R. Wagner, “A method of extraction of nonferrous and nobel metals from carbon-containing materials,” International Claim No. 85/00843 RST, Publ. 28.02.85.

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Authors
  1. B. N. Bulanov
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  2. V. P. Klimenko
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Additional information

Institute of Materials Science, Ukrainian Academy of Sciences, Kiev. Translated from Poroshkovaya Metallurgiya, Nos. 7/8(380), pp. 172–180, July–August, 1995.

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Bulanov, B.N., Klimenko, V.P. Accumulation of solar energy using thermal chemical transformations. Powder Metall Met Ceram 34, 484–490 (1996). https://doi.org/10.1007/BF00559443

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