Modern Hydrogen Energetics and Ecology

Authors: 
Kozin L.H.
Volkov S.V.
Skryptun I.N.
Year: 
2019
Pages: 
364
ISBN: 
978-966-360-392-6
Publication Language: 
English
Edition: 
200
Publisher: 
PH "Akademperiodyka"
Place Published: 
Kyiv

The book deals with the problems of the world, including Ukraine, provision with power carriers as well as peculiarities of the new developing field of knowledge and industry — hydrogen energetics, which is the only ecologically pure method of power generation of the future. Self-sufficiency conditions of unrenewable and renewable power sources for civilization existence on the Earth are described. The authors' hypotheses concerning oil, natural gas and hard coal origin are discussed. Special attention is paid to ecologic aspects, in particular, greenhouse effect, ozone holes power generation. Intended for engineering staff and research scientists engaged in the problems of power prospecting, including prospecting and production of unrenewable and renewable power sources, as well as for postgraduates and students of the secondary and higher educational institutions.

References: 

Chapter 1.
1. L.P. Kozin, VI Int. Conf. «Hydrogen materials science and chemistry of metal hydrides», Ukraine, Yalta, Sept. 2–8, 1999, pp. 284–285.
2. L.F. Kozin, D.V. Sokolsky and Yu.P. Balybin, Direct Conversion of Thermal Energy into Elect ric Energy and Fuel Elements, V. 64, No. 2 (1975) 136.
3. S.V. Volkov, J. Inorg. Chem., No. 11 (1990) 136.
4. S.V. Volkov, Ukr. Chem. J., No. 7 (1982) 2789.
5. V.I. Subbotin, Bull. Rus. Acad. Sc., No. 12 (2001).
6. Yu.P. Yelagin, State of the World Nuclear Energetics. Nucl. Eng. Abroad, No. 1 (1999) 9.
7. Yu.K. Zavalishin, Object 551, Saransk, Russia, 1996.
8. A.S. Koroteyev and V.M. Nesterov, Energetics, Bull. Rus. Acad. Sc., No. 5 (2002) 3.
9. A.I. Kiselev, A.A. Medvedev and V.A. Menshikov, Cosmonautics on the Border of Millenia. Results and Prospects, Mashinostroyenie, Moscow, 2001.
10. Yu.V. Kondratyuk, Cosmonautics, Encyclopaedia, Sovetskaya Entsiklopedia, Moscow, 1985, 167.
11. L.P. Kozin and S.V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2004.
12. E.E. Shpilrain, S.P. Malyshenko and G.G. Kuleshov, Introduction in Hydrogen Energetics. V.A. Legasov (ed.), Energoatomizdat, Moscow, 1984.
13. V. Belokon, Engineer, No. 9 (2002) 2.
14. L.P. Kozin and S.V. Volkov, International Conference, Grenoble, 2003.
15. Yu.V. Pleskov, Photoelectrochemical Conversion of Solar Energy, Khimiya, Moscow, 1990.
16. E.B. Kuzminsty, G.Ya. Kolbasov, Ya.Yu. Tevtul, and N.B. Golub, Nontraditional Electrochemical Energy Conversion Systems, Akademperiodyka, Kyiv, 2002.
17. O.A. Gorshkov and A.S. Koroteyeva, Energetics, Proc. Rus. Acad. Sc., No. 5 (2000) 66.
https://doi.org/10.1023/A:1017599727495
18. A.N. Arbekov, A.I. Leontyev and V.L. Samsonov, et al., Energetics, Proc. Rus. Acad. Sc., No. 4 (2002) 3.
19. M.S. El-Genk, Proc. of STAIF-2000. 17th SSNPS, American Institute of Physics, 2000.
20. V.A. Legasov, The accident at the Chernobyl nuclear power and the USSR, 2015, http://www.
litmir.co/br/?b=261352.
21. S.A. Subbotin, V.A. Stukalov and Yu.F. Chernilin, Energy: Economics, Technology, Ecology, No. 3 (2002) 10.
22. E.P. Velikhov and P. Robinson, Energy: Economics, Technology, Ecology, No. 2 (2003) 33.
23. S.P. Kapitsa, Bull. Rus. Acad. Sc., 3 (1998) 234.
24. Great Soviet Encyclopaedia, 3rd ed., USSR, Moscow, 17 (1974) 28.
25. S.V. Volkov, V.A. Legasov and A.V. Gorodusky, et al., Author’s certificate 811867 of the USSR. MKI3 C 25 B 1/02 Electrolyte for Hydrogen production, Bull. 23. 1983. https://doi.org/10.1016/0011-684X(83)90099-0
26. O.G. Zarubitsky, V.A. Legasov, A.V. Gorodysky, et al., Bull. No. 23, 1983.
27. S.V. Volkov, J. Inorg. Chem., No 25, V. 1 (1980) 87.
28. L.F. Kozin and V.A. Sakharenko, Ukr. Chem. J., V. 50, No. 1 (1984) 9.
29. L.F. Kozin and R.G. Sarmurzina, J. Appl. Chem., V. 54, No. 10 (1981) 2176.
30. L.F. Kozin, Ye.O. Berezhny and B.I. Daniltsev, VI Int. Conf. «Hydrogen Material Science and Chemistry of Metal Hydrides», Ukraine, Yalta, Sept. 2–8, 1999.
31. S.P. Malyshko, F.N. Pekhota, Energy: Economics, Technology, Ecology, No. 1 (2003) 2.
32. Lu Yunsian, Proc. Rus. Acad. Sc. V. 70, No. 4 (2000) 338.
33. V.G. Gorshkov, K.Ya. Kondratiev, K.S. Losev, Ecology, No. 3 (1998) 163.
34. V.I. Vovk, et al., eds, Ukraine in the Context of «Agenda for the 21st Century», Nora Print,Ukraine, Kyiv, 1998.
35. Tieri Allo, Energy: Economics, Technology, Ecology, No. 12 (2002), 2.
36. V.Yu. Andropov, V.M. Biryukov and E.V. Markov, Khimiya i zhizn, No. 4 (2000) 14.
37. V.S. Avdutievsky and L.V. Leskov, Future of Science, Znanie, Moskow, No. 20 (1987) 108

Chapter 2.
1. S.P. Kapitsa, Bull. Rus. Acad. Sc., 3 (1998) 234.
2. Great Soviet Encyclopaedia, 3rd ed., USSR, Moscow, 17 (1974) 28.
3. N. Nakichenovich, Energy: Economics, Technology, Ecology, No. 12 (1998) 2.
4. Energetics and Problems of Stable Development. Estimate of the World Energetics. Survey. —UNO Development Program, 2011.
5. V.I. Subbotin, Bull. Rus. Acad. Sc., N 12 (2001), pp. 1059–1068.
6. E.P. Velikhov and P. Robinson, Energy: Economics, Technology. Ecology, No 2 (2003) 33.
7. L.P. Kozin and S.V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2004.
8. H.-H. Rogner and A. Popecku, Energy and the Challenge of Sustainability. World Energy Assessment, 2000, 30.
9. K.Ya. Kondratiev and K.S. Losev, Bull. Rus. Acad. Sc., V. 72, No. 7 (2002) 592.
10. Zh.A. Medvedev, Bull. Rus. Acad. Sc., V. 72, N 1 (2002) 57.
11. E.A. Kozlovsky and M.I. Shchadov, Raw-Mineral Problems of National Security in Russia,
Mining Univ. Publ. Moscow, 1997.
12. V.I. Vernadsky, Proc. Acad. Sc. USSR, No. 12 (1990) 127. https://doi.org/10.1111/1467-9566.ep11376053
13. N.G. Basov, V.I. Subbotin and L.P. Feoktistov, Bull. Rus. Acad. Sc., V. 63, No. 10 (1993) 878.
14. A.Yu. Gagarinsky, I.V. Gagarinskaya, Energy: Economics, Technology, Ecology, No. 6 (2002) 2.
15. L.I. Bennet, G.I. Laue, B.A. Semenov and R. Skoldebrant, The World Energetics, Energoizdat,Moscow, 1995.
16. A.A. Beschinsky and D.B. Wolfberg, The World Enerhetics, Energoizdat, Moscow, 1985.
17. H.-H. Rogner, A. Popecky, Energy and the Challenge of Sustainability, World Energy Assesment 2000.
18. Adamov E. Russian Economical J. No. 5–6 (2000) 80.
19. L.F. Kozin and V.I. Trefilov, Rare-Metal Industry of Ukraine. Problems and Prospects. Prepr.Kyiv, 1998.
20. Statistical Year-Book of Ukraine for 2010, Avgust Trade Ltd. 2011.
21. Yu.S. Vasiliev, Bull. Rus. Acad. Sc., Energetics, No. 1 (2003) 50–57.
22. N.V. Vershinsky, The Ocean Energy, Nauka, Moscow, 1986.
23. A.F. Dyakov, Bull. Rus. Acad. Sc., Energetics, No. 4 (2002) 13.
24. S. Sawfer and O. Zaborsky (eds.), Biomass of Energy Source, Mir, Moscow, 1985.
25. Ukraine: Efficiency of Minor Energetics, EC-Energy Centre, Kyiv, 2001.
26. Yu. Matveyev, Zelena Energetyka (Green Energetics), No. 4 (2002) 14.
27. V. Larin, Energy: Economics, Technolohy, Ecology, No. 3 (2001) 29.
28. Yu. Matveev, Zelena Energetyka (Green Energetics), No. 1 (2002).
29. M. Khvorov, Naukovy svit (Scientific World), No. 2 (2002) 14.
30. Renewable Energy World, (2012).
31. Brennstoffspiegel, No. 11 (2000).
32. Yu.V. Pleskov, Photoelectrochemical Conversion of Solar Energy, Khimiya, Moscow, 1990.
33. E.B. Kuzminsty, G.Ya. Kolbasov, Ya.Yu. Tevtul, and N.B. Golub, Nontraditional ElectrochemicalEnergy Conversion Systems, Akademperiodyka, Kyiv, 2002.
34. D. Lott, Direct Energy Conversion, Mir, Moscow, 1975.
35. N.S. Lidorenko, Proc. Rus. Acad. Sc., Energetics, No. 1 (2003) 98.
36. A.I. Kiselev, A.A. Medvedev, and V.A. Menshikov, Cosmonautics on the Border of Millenis.Results and Prospects, Mashinostroyenie, Moscow, 2001.
37. G.N. Petrov and N.A. Yasmanov, Bull. Rus. Acad. Sc., V. 68, No. 2 (1998) 132.
38. F.T. Yanshina and A.I. Yanshin, Ibid, V. 70, No. 3 (2000) 243.

Chapter 3.
1. D.B. Volberg, Teploenergetika, No. 8 (1999) 5.
2. H.-H. Rogner, A. Han, Energy: Economics, Technology, Ecology, No. 3 (1999) 8.
3. Global Environment Outlook 2012, UNER. Earth scan Publ. Ltd, London, 2012.
4. V.A. Kirillin, Sciemce Future, No 16 (1983) 3.
5. E.F. Shnyukov and V.A. Krayushkin, Geol. J., No. 1 (1999) 109.
6. J. Laherrere, Petrol Rev., V. 53. No. 625 (1999) 24.
7. N.V. Selivanov, Probl. Sc., No. 7 (2000) 44.
8. B. Mayevsky, N. Yevdoshchuk and O. Lozinsky, Oil-Gas Provinces of the World, Naukova Dumka, Kyiv, 2002.
9. H.-H. Rogner, Energy and the Challenge of Sustainability. World Energy Assessment, 2000.
10. Yu.V. Kondratyuk. Cosmonautics. Encyclopaedia, Sovetskaya Entsiklopediya, Moscow, 1985.
11. A. Han, L. Langlois, and M. Jiru, Energy, No. 11 (1998) 9.
12. K.Ya. Kondratyev, Bull. Rus. Acad. Sc., V. 74, No. 9 (2000) 788.
13. I.Yu. Yegorov-Tismenko, N.M. Baikov, Energy: Economics, Technology, Ecology, No. 12 (1998) 2.
14. O.V. Krylov, Bull, Rus. Acad. Sc., Vol,70, No. 2 (2000) 136.
15. N. Nakichenovich, Energy: Economics, Technology, Energetics, Ecology, No. 12 (1998) 2.
16. N.I. Yevdoshchuk, N.K. Ilnitsky, P.N. Melnichuk, and V.P. Klochko, Geology of Oil and Gas, No. 2 (2000) 2.
17. A.A. Beschinsky and D.B. Wolfberg, Energetics of the World, Energoizdat, Moscow, 1985.
18. V.N. Kochetkov and A.A. Novoseltsev, Ecologic problems of coal-mining branch in the region under transition to sustainable development. Proc. Int. Scient.-Practical Conf., Kuzbasvuzizdat, Kemerovo, V. 1 (1999) 125.
19. BWK, No. 7 (2000).
20. A.N. Dmitrievsky, Bull. Rus. Acad. Sc., V. 67, No. 10 (1997) 893.
21. Western Australia, Petrol. Rev., V. 51, No. 604 (1997) 212.
22. A.E. Kontorovich, N.L. Dobretsov, N.P. Liverov, et al. Bull. Rus. Acad. Sc., V. 69, No. 9 (1999) 771.
23. Export Strategy of Gazprom, Gas Ind., No. 7 (1989) 37.
24. E. Adamov, Rus. Econom. J., No. 5/6 (2000) 80.
25. Statistical Yearbook of Ukraine for 2010, Kyiv Avgust Trade Ltd. 2011.
26. I.I. Muzychko, Oil and Gas of Ukraine. Naukova Dumka, Kyiv, 1997.
27. B. Ustimenko, Pravda Ukrainy, May 16, 2000.
28. N. Galkin, Zerkalo nedeli, August 21, 1999.
29. A. Shidlovsky, Bull. NAS of Ukraine, No. 5/6 (1998) 64, No. 3 (2001) 29.
30. D.V. Yakovlev, A.N. Shabarov, E.V. Goncharov, et al. Patent l136850, Russia MPK6E21D43/00, 43/30, Bull. No. 25 (1999).
31. Yu.N. Melyshev, Energy: Economics, Technology Ecology, No. 6 (2000) 8.
32. J. Westwood and R. Knight, Oil and Gas J., V. 100, No. 33 (2002) 22.
33. Wu Kang and Fesharaki Fereidun, Oil and Gas J., V. 100, No. 31 (2002) 18.
34. S. Hannus and V. Poivonnen, Energetics of the World, Energoizdat, Moscow, 1985.
35. N.N. Ponomarev-Stepnoy, Energiya, No. 12 (1997) 5.
36. World Coal, V. 7, No. 12 (1998) 6. https://doi.org/10.1016/S0262-1762(99)80436-2
37. BWK: Branst. — Warme-Kraft, V. 50, No. 11/12 (1988) 8.
38. Ugol (Coal), No. 8 (2001) p.
39. K.Ya. Kondratyev, K.S. Losev, M.D. Ananicheva and I.V. Chesnokova, Bull. Rus. Acad. Sc., V.73, No. 1 (2003) 3.
40. Statistical Yearbook of Ukraine for 2010, Kyiv Avgust Trade Ltd. 2011.
41. Porfiriev, Scientist, Geologist, Redagogue, Scient. Publ. Inst. Geol. Sc., Kyiv, 2000.
42. M.I. Gebki, Science of Oil, Gostoptechizdat, Moscow, 1932.
43. I.O. Brod, V.A. Klubov, Bull. Moscow Univ., No. 10 (1948) 21.
44. N.B. Vassoyevich, Bull. Moscow Univ., No. 5 (1975) 3.
45. A.A. Trofimchuk, V.I. Molchanov, V.V. Paraev, Geology and Geophysics Sib. Branch, Russian Acad. Sc., No 39, No. 5 (1998) 673.
46. N.B. Vassoyevich, Proc. VNIGRI, No 132 (1959) 131.
47. I.I. Chebanenko, Ged. J., No. 1 (1991) 120.
48. B.S. Sokolov, Bull. Rus. Acad. Sc., V. 70, No. 7 (2000) 589.
49. Yu.N. Yefremov, Ibid., No. 4 (2000) 314.
50. M.S. Arabadzhi and V.S. Melnichuk, Secrets of Earth’s Depths, Nedra, Moscow, 1983.
51. I.D. Polyakova, Lithology and Chemistry of Oil-Gas-Bearing Thicknesses of Liberian Platform,Nauka, Moscow, 1981.
52. S.G. Neruchev, E.A. Rogozina. Lithology and Geochemistry of Oil-Gas-Bearing Thicknesses of Siberian Platform, Nauka, Moscow, 1981.
53. Jounal of Real Stories, No. 11 (2002) 59.
54. L.F. Kozin, S.V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2004.
55. F.T. Yanshina, A.L. Yanschim, Bull. Rus. Acad. Sc., V. 7, No. 3 (2000) 243.
56. J. Rosen, A. E. Egger, The History of Earth’s Atmosphere I: The Origin of the Modern
Atmosphere, 2015, http://www.visionlearning.com/en/library/Earth-Science/6/The-Historyof-Earth%E2%80%99s Atmosphere-I/202.
57. Geoecology, No. 5 (2000).
58. I.S. Kulikov, Isotopes and elements properties: Reference Book, Metallurgia, Moscow, 1990.
59. I. Chebanenko, V. Krayushkin, M. Yevdoshchuk, Bull. NAS of Ukraine, No. 3 (2001) 41.
60. G.N. Petrov, N.A. Yasmanov, Ibid., No. 2 (1998) 132.
61. P.L. Kapitsa, Science and Mankind. Znanie, Moscow, 1976.
62. V.L. Makarov, Bull. Rus. Acad. Sc., No. 5 (2003) 450.
63. N.L. Dobretsov, A.E. Kontorovich and V.V. Kuleshov, Bull. Rus. Acad. Sc., V. 71, No. 10 (2001) 867.
64. M. Pavlovsky, Golos Ukrainy (Voice of Ukraine), March 9, No. 43 (1999).
65. D.E. Davydynts, Problems of Statistics, No. 8 (2002) 73.
66. Minor Medical Encyclopaedia, V. 2, Sovetskaya Entsiklopedia, Moscow, 1989.
67. M. Podzharsky, Bull. NAS of Ukraine, No. 11 (2002) 2.
68. K.Ya. Kondratyev, K.S. Losev, Bull. Acad. Sc., V. 72, No. 7 (2002) 592.

Chapter 4.
1. K. Ya. Kondratyev, K. S. Losev, Bull. Rus. Acad. Sc., No. 7 (2002) 592.
2. L. F. Kozin et all, Fundamental Problems of hydrogen energetics, Ed. V.D.Pokhodenko, V.V.
Skorokhod, Yu.M Solonin, Kyiv, KIM, 2010.
3. V. I. Subtotin, Bull. Rus. Acad. Sc., No. 12 (2001) 1059.
4. Yu. P. Yelagin, Atom. techn. abroad, No. 1 (1999) 9.
5. C. Marcetti, N.N. Ponomarev-Stepnoy, Energy, No. 12 (1997) 5.
6. V. Kukhar, Nauk. Svit, No. 8 (2000) 2.
7. W. Schroter, K.-H. Lautenschlager, H. Bibrak, and A. Schnabel, Chemic, Leipzig, VEB Fachbuchverlag, Germany. 1986.
8. V. N. Mikhailov, Bull. Rus. Acad. Sc., No. 2 (1998) 116.
9. F. J. Reshetnikov, Ibid., No. 2 (2000) 17.
10. H.-H. Rogner, Energy and the Challenge of Sustainability. World Energy Assessment, 2010, B5.
11. L. F. Kozin, V. I. Trefilov, Rare-Metal Industry of Ukraine. Problems and Prospects, Inst. Material Sc. Problems Publ., Kyiv, 1998.
12. E. Adamov, Russian Economic J., No. 5–6 (2000) 80.
13. Energy, No. 2 (1997) 2. https://doi.org/10.1016/S1359-6128(97)82638-9
14. A. M. Sukhotin (ed.), Reference Book on Electrochemistry, Khimiya, Leningrad, 1981.
15. V. A. Lebedev, V. I. Kober and L. F. Yamshchikov, Thermochemistry of Alloys of Rare-Earth and Actinoid Elements: Reference Book. Metallurgy, Chelyabinsk, 1989.
16. M. Hansen, K. Anderko, Structure of Binary Alloys, Metallurgizdat, Moscow, V. 1, 2, 1962.
17. R. P. Elliot, Structures of Binary Alloys, Metallurgiya, Moscow, V. 1, 2, 1970.
18. F. Schank, Structures of Binary Alloys, Metallurgiya, Moscow, 1973.
19. N.N. Ponomarev-Stepnoy, Energiya, No. 12 (1997) 5.
20. World Coal, No. 2 (1998) 6.
21. BWK: Breust, Warme-Kraft, No. 11/12 (1988) 8.
22. E. A. Kotenko, V. N. Morozov, E. L. Petrov, et al., Gorn. Zhurn., (Mining), No. 12 (1999) 18.
23. E. A. Kotenko, V. N. Morozov, E. L. Petrov, et al., Energiya, No. 5 (2000) 11.
24. E. L. Petrov, I. D. Sergeyev, Underground Space for Nuclear Plant. Problems of Radiation Safety, A. N. Krylov TsNII, St. Petersbourg, 1983.
25. E.A. Kotenko, Creation of Underground Nuclear Plants, TsNIIatominform, Moscow, 1996.
26. O. E. Muratov, Energy, Economy, Technology, Ecology, No. 11 (2002) 9.
27. F. M. Mitenkov, Bull. Rus. Acad. Sc., No. 6 (2003) 488.
28. Ship Nuclear Power Plants, Moscow, Atomizdat, 1976.
29. Ship Nuclear Power Plants of Foreign Countries, Sudostroyenie, Moscow, 1994.
30. S.S. Abolin, V. M. Novikov, V. N. Prusakov, Nuclear Hydrogen Energetics and Technology, No 1 (1978) 126.
31. V. A. Legasov, I. G. Belousov, N. K. Yerokhin, A. S. Doronin, Ibid., No 2 (1979) 85.
32. S. V. Volkov, J. Inorganic Chem., No. 11 (1990) 2789.
33. L. E. McNcese, M. W. Rosenthal, Nucl. News, No. 2 (1974) 52.
34. Yu. K. Delimarsky, Ion Melts in Modern Technology, Metallurgiya, Moscow, 1981.
35. V. R. Blinkin, V. M. Novikov, Liquid Salt Nuclear Reactors, Atomizdat, Moscow, 1978.
36. J.N. Yakovlev, B.F. Myasoyedov, L.D. Dukhovenskaya, Radiokhimiya, No. 5 (1979) 687.
37. P. Fangeras, A. Lecock, J. L. Blum, Trans. Amer. Nucl. Soc., No. 20 (1975) 703.
38. V. N. Grebennik, N. N. Ponomarev-Stepnoy, V. V. Lebedev, Nucl. — Hydrogen Energetics and Technology, No 4, 23.
39. L. F. Kozin et all, Fundamental Problems of hydrogen energetics, Ed. V.D.Pokhodenko, V.V. Skorokhod, Yu.M Solonin, Kyiv, KIM, 2010.
40. S. V. Volkov, Ukr. Khim. Zhurn., No. 7 (1982) 675.
41. S. V. Volkov, V. A. Legasov, A. V. Gorodysky, et al., Pat. No 811867, USSR, MKI3 C25 B 1/02, Electrolyte for Hydrogen Production. No. 9, 1981.
42. O. G. Zarubitsky, V. A. Legasov, A. V. Gorodysky, et al., Pat. No 1025184 USSR, MKI3 C25 B1/02, Method of Hydrogen Production, No. 23, 1983.
43. L. F. Kozin, V. A. Sakharenko, Ukr. Khim. Zhurn., No. 1 (1984) 9.
44. L. F. Kozin, R. G. Sarmurzina, Zhurn. Prikladnaya Khimiya, No. 10 (1981) 21176.
45. L. F. Kozin, Ye. O. Berezhny, B. V. Danil’tseva, VI Int. Conf. Hydrogen Materials Science and Chemistry of Metal Hydrides, Katsiveli, Yalta, Ukraine, Sept. 2–8, 1999.
46. S. V. Volkov, Zhurn. Neorgan. Khim., No. 1 (1980) 87.
47. S. V. Volkov, Zhurn. Teor. i Eksperimen. Khim., No. 1 (1982) 3.
48. S. V. Volkov, V. F. Grishchenko, Yu. K. Delimarsky, Coordination Chemistry of Salt Melts., Naukova Dumka, Kiev, 1985.
49. S. V. Volkov, Zhurn. Neorganicheskaya Khimiya, No. 11 (1986) 2748.
50. S. V. Volkov, Molten Saft Bull. Univ. de Provence, No. 35 (1988) 3.
51. S. V. Volkov, Ion Melts and Solid Electrolytes, No 4 (1983) 26.
52. D. M. Gruen (ed.), The Chemistry of Fused Technology, Plenum Publ. Corp., New York, 1972.
53. N. G. Basov, V. I. Subbotin, L. P. Feoktistov, Bull. Rus. Acad. Sc., No. 10 (1993) 878.
54. V. Belokon, Inzhener, No. 9 (2002) 3.
55. R. I. Nigmatullin, Energy: Economics, Technology, Ecology, No. 3 (2003) 2.
56. I. Larin, Energy: Economics, Technology, Ecology, No. 10 (2001) 10.
57. B. B. Kadomtsev, Nuclear and Thermonuclear Energetics of the Future, Energoatomizdat, Moscow, 1987.
58. B. B. Kadomtsev, V. I. Pistunovich, Nuclear and Thermonuclear Energetics of the Future, Energoatomizdat, Moscow, 1987.
59. E. O. Adamov, V. I. Rachkov, Energy: Economics, Technology, Ecology, No. 1 (2001) 2.
60. Press Service of RAS, Bull. Rus. Acad. Sc., No. 10 (1993) 946.
61. V. N. Mikhailov, Bull. Rus. Acad. Sc., No. 2 (1998) 116.
62. Yu. P. Semenov, V. M. Filin, B. A. Sokolov, et al. Bull. Rus. Acad. Sc., Energetika, No. 3 (2003)
63. N. V. Selivanov, Problemy Nauki, No. 7 (2000) 44.
64. E. Sobotovich, Bul. NAS of Ukraine. No. 3/4 (1998) 73.
65. F. G. Reshetnikov, Ibid., No. 2 (2000) 117.
66. M. Morozov, Svit, No. 17/8 (2000).
67. A. P. Shpak, V. V. Trachevsky, V. L. Karbovsky, Actinoides in Technogenesis, Book 1,Akademperiodika, Kyiv, 2002.
68. K. P. Chercherov. Energy: Economics, Technology, Ecology. No.6 (2002)10.
69. K. Ya. Kondratyev, Bull. Rus. Acad. Sc., No. 9 (2000) 788.
70. O. N. Favorsky, Bull. Rus. Acad. Sc., No. 4 (1989) 311.
71. A. A. Makarov, World Energetics and Eurasian Energy Space, B. I., Moscow, 1998.

Chapter 5.
1. V. S. Arutyunov, A. L. Lapidus, Ross. Khimich. Zhurnal, V. 47 No. 2 (2003) 23.
2. V. I. Subbotin, Bull. Rus. Acad. Sc., V. 71, No. 12 (2001) 1059.
3. U.S. Sensus Bureau, Statistical Abstract of the United States: 2012.
4. O.N. Favorsky, Bull. Rus. Acad. Sc., V. 69, No. 4 (1999) 311.
5. O.N. Favorsky, Bull. Rus. Acad. Sc., V. 69, No. 1 (2001) 3.
6. G. Geletukha, T. Zhelezna, Green Energetics, No. 3 (2003) 19.
7. Solar Energetics in Europe, Green Energetics, No. 5 (2010) 21.
8. Novosti telposnabzheniya (Heat Supply News), No. 8 (2002).
9. L. A. Manfutov, A. A. Troitsky, Energy Policy, No 1 (2002) 3.
10. P. P. Bezrukikh, Energy: Economy, Technology, Ecology, No. 11 (2002) 2.
11. Yu. M. Belyaev, Energy Policy, No 1 (2002) 7.
12. B. G. Sanayev, A. V. Lagerev, V. N. Khanaeva, and A. V. Chemezov, Energy Policy, No 4 (2002) 16.
13. V. M. Bykov, Energy: Economy, Technology, Ecology, No. 4 (2002) 7.
14. I. N. Karp, Ecotechnologies and Resource Saving, No. 1 (2003) 3.
15. S. B. Tulub, A. K. Shidlovsky, G. G. Givnyak, and M. N. Kulik, Gorny Zhurnal (Mining Journal), No. 6 (2000) 158.
16. Statistical Yearbook of Ukraine for 2010, Kyiv Avgust Trade Ltd. 2011..
17. A. Yu. Zenyuk, Energy: Economy, Technology, Ecology, No 1 (1988) 9.
18. M. E. Kokeyev, Yu. I. Koryakin, Energy: Economy, Technology, Ecology, No. 1 (1997) 2.
19. N. V. Selivanov, Problems of Science, No. 7 (2000) 44.
20. K.Ya. Kondrayev, Bull. Rus. Acad. Sc., V. 70, No. 9 (2000) 788.
21. A. Shidlovsky, Bull. NAS of Ukraine, No. 5/6 (1998) 64.
22. V. A. Kirillin, Future of Science, No 16 (1983) 3.
23. O. Chernousenko, Yu. Kosyak, Energy No. 3 (1997) 11.
24. A. Shidlovsky, Bull. NAS of Ukraine, No. 3 (2000) 29.
25. V. Kukushkina, V. Sychevoi, A. Konechenkov, Green Energetics, No. 3 (2002) 5; 10.
26. V. G. Fesenko, With Scholar’s Eyes, Acad. Sc. USSR Publ., 1963.
27. Complete Encyclopaedia Reference Book, Rus.Encycl. Partnership, Moscow, 2002.
28. Cosmonautics. Encyclopaedia, Sovetskay Entsiklopedia Publ., Moscow, 1985.
29. N. M. Mkhitaryan, Helioenergetics. Systems, Technology, Application, Naukova Dumka, Kyiv, 2002.
30. L. L. Kistersky, I. G. Gaiduchok, Yu. V. Poluneyev, International Economic Safety. Foreign Trade, Currency-Financial and Energy Aspects, Naukova Dumka, Kyiv, 1991.
31. L. F. Kozin, S. V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2004.
32. M. Rabinovich, I. Tolstykh, Green Energetics, No. 1 (2003) 6.
33. Ye. V. Kuzminsky, G. Ya. Kolbasov, Ye. Yu. Tevtul, and N. V. Golub, Nontraditional Electrochemical Energy Conversion Systems, Akadem. periodika, Kyiv, 2002.
34. V. I. Gomon, V. E. Grinshtein, A. A. Dolinsky, et al., Ukraine: Efficiency of Minor Energetics, EC Energy Centre in Kyiv, Kyiv, Ukraine, 1995.
35. H. Armstead, P. Fraenkel, F. Murray, et al., The World Energetics, Energoatomizdat, Moscow, 1985.
36. Jens Bau Holm-Nielsen, Green Energetics, No. 4 (2002) 6.
37. G. G. Geletuka, T. A. Zheleznaya, S. V. Tishaev, and S. G. Kobzar, Ecotechnologies and Resource Saving, No. 3 (2002) 3.
38. N. Martynyuk, Green Energetics, No. 4 (2002) 12.
39. G. G. Geletukha, S. G. Kobzar, Oil and Gas, No. 3 (2001) 88.
40. G. G. Geletukha, T. A. Zheleznaya, Ecotechnology and Resource Saving, No. 3 (1998) 3.
41. F. M. Mitenkov, N. N. Ponomarev-Stepnoi, Energy, No. 2 (1997) 2.
42. V. A. Ragasov, N. N. Ponomarev-Stepnoi, A. N. Protsenko, et al., Nuclear-Hydrogen Energetics and Technology. No 1 (1978) 11.
43. L. F. Kozin, V. I. Trefilov, Rare-Metal Industry of Ukraine, Problems and Prospects, Kyiv, 1998 (Prepr. IIM NAS of Ukraine. No. 479).
44. I. Pidlusky, Kievskie vedomosti, Sept. 6, 1994.
45. V. N. Mikhailov, Bull. Rus. Acad. Sc., V. 68, No 2 (1990) 116.
46. V. I. Gorny, S. G. Kritsuk, I. Sh. Latypov, et al., Optic. Journ., V. 66, No. 8 (1999) 6. https://doi.org/10.1364/JOT.66.000676

Chapter 6.
1. M. Freemantle, Chemistry in Action, Part 2, Mir, Moscow, 1991.
2. D. Dini, Int. J. Hydrogen Energy, No. 11/12 (1983) 897. https://doi.org/10.1016/0360-3199(83)90113-1
3. I. Felkle, H. Alefeld, Hydrogen in Metals, Vol. 1, Mir, Moscow, 1981, 379.
4. V.P. Barmin, I.L. Warshavsky, Science Future, Iss. 15 (1982) 64.
5. I.L. Warshavsky. Energy-Accumulating Substances and Their Use, Naukova Dumka, Kyiv, 1980.
6. K.N. Semenenko, Hydrogen — the Base of Chemical Technology and Energetics of the Fu tu re, B.i., Moscow, 1979.
7. A.F. Zhigan, D.S. Stasinevich, Hydride Chemistry, Khimija, Moscow, 1969.
8. Hydrogen in Metals, Ed. G. Amfeld, I. Felkle, in 2 Vols., Mir, Moscow, 1981.
9. K. Makkey, Hydrogen Metal Compounds, Mir, Moscow, 1968.
10. G.V. Samsonov, Rep. Acad. Sc. USSR, Vol. 208, No. 3 (1973) 621.
11. D. O.Hoyard, B. M. Trapnell Chemisorplion, Butterworth, London, 1964.
12. Chemisorption and reactions on Metalic Films / Ed. J. R. Anderson, Acad. Press., New York, 1971.
13. Ya.D. Kogan, B.A. Kolpachev, Yu.V. Levinsky, et al., Contsants of Metals Interaction with Gases: Ref. Book, Metallurgiya, Moscow, 1987.
14. L. Shihtsien, K. Weik, L. Hezhong // Hydrogen Syst. Pap. Int. Symp. (7—11 May, 1985), Beijing; Oxford, Vol. 1, 1986.
15. Yuh. Fukai // J. Less-Common Metas. Vol. 172—174, No. 1 (1991) 8. https://doi.org/10.1016/0022-5088(91)90427-6
16. B.A. Koplachev, Hydrogen Brittleness, Metallurgiya, Moscow, 1985.
17. P.V. Geld, R.A. Ryabov, E.S. Kodes, Hydrogen and Imperfections of Metal Structure, Me tallur giya, Moscow, 1979.
18. E. Huster // Galvanotechnic, Vol. 83, No. 1 (1992) 109.
19. H. Herd, Introduction in the Chemistry of Hydrides, Izd. inostr. lit., Moscow, 1955.
20. M.E. Kost, A.L. Shilov, V.I. Mikheyeva, et al., Compounds of Rare Elements. Hydrides, Borides, Carbides, Phosphides, Chalcogenides, Pseudohalgenides, Nauka, Moscow, 1983.
21. V.I. Mikheyeva, Studies in Theoretical and Applied Inorganic Chemistry, Nauka, Moscow, 1971.
22. O.M. Barabash, Yu.N. Koval, Structure and Properties of Metals and Alloys: Ref. Book, Naukova Dumka, Kyiv, 1986.
23. Manual in Inorganic Synthesis, Ed. H. Bauer, in 6 vol., Mir, Moscow, 1985.
24. Yu.V. Levinsky, p-I-x-Diagrams of State of the Binary Metal Systems, Ref. Book, Vol. 1, Metallurgiya, Moscow, 1990.
25. G. Blument, Z. Engels, I. Fitz, et al., Unorganicum, Vol. 1, Mir, Moscow, 1984.
26. D. Blackledge, Metal Hydrides, Ed. V. Miller, D. Blackledge, G. Libowitz, Atomizdat, Moscow, 1973.
27. F. Wagner, G. Wortmah, Hydrogen in Metals, Mir, Moscow, 1981.
28. M.M. Antonova, Properties of Metal Hydrides: Ref. Book, Naukova Dumka, Kyiv, 1975.
29. G. Libowitz, Material Study and Energetics Problems, Ed. G. Libowitz, M. Wittingham, Mir, Moscow, 1982.
30. G. G. Libowitz, T. Gibb // J. Phys. Chem, Vol. 60, No. 4 (1956). https://doi.org/10.1021/j150538a036
31. A.Yu. Zenyuk, Energiya, No. 1 (1998) 9.
32. Ch.B. Meidzhy, Metal Hydrides, Ed. W. Miller, D. Blackledge, G. Libowitz, Atomizdat, Moscow, 1973.
33. E. Wix, H. Brodoff, H. Zuchner, Hydrogen in Metals, Mir, Moscow, 1981.
34. A. K. Switendick, Solid State Communs, Vol. 8, No. 18, (1970). https://doi.org/10.1016/0038-1098(70)90720-9
35. A. K. Switendick, Int. Quant. Chem, No. 5, (1971) 459. https://doi.org/10.1002/qua.560050854
36. L. K. Heung, T. Motyka, W. A. Summers, Proc. 4 Intern. Symposium on Hydrogen PowerTheoretical and Engineering Solutions, Stralsund. 9—14 Sept., 2001.
37. L. E. A. Berlouis, P.Honnor, P. J. Ha ii, S. Morris, S. B. Dodd//Proc. 4 Intern. Symposium on Hydrogen Power-Theoretical and Engineering Solutions, Stralsund. 9—14 Sept., 2001.
38. T. Klassen, W. Oelerich // 4 Intern. Symposium on Hydrogen Power-Theoretical and Enginttring Solutions, Stralsund. 9—14 Sept., 2001.
39. V.I. Verbitsky, A.L. Shilov, and N.T. Kuznetsov, Journ. Inorg. Chem., Vol. 34, Iss. 9 (1989) 2401.
40. V.N. Verbitsky, E.A. Movlev, Bull. Acad. Sc. USSR, No. 3 (1991) 37.
41. E.I. Sokolova, L.N. Padurets, A.L. Shilov, et al., Journ. Inorg. Chem., Vol. 33, Iss. 2 (1988) 275.
42. R. P. Mitrofanova, Yu. I. Mikhailov, N. N. Maltseva, Ibid.Iss. 9 (1989)2207
43. Chui Hua, Li Qingfu, Chui J. // Hydrogen Syst. Pap. Int. Symp. (Beijing, 7—11 May 1985) Oxford 1986.
44. E. Kaldis, M. Tellefsen, R. Bischof, J. Less-Common Metals // Vol. 130, No. 2 (1987) 542. https://doi.org/10.1016/0022-5088(87)90158-5
45. S.Ono, K. Nomura, E. Akiba, R. Bischof., et al. Vol. 113, No.1 (1985) 113. https://doi.org/10.1016/0022-5088(85)90153-5
46. Hydrogen Syst. Pap. Int. Symp. (Beijing 7—11 May 1985) — Beijing: Oxford, 1986. —Vol. 1 — P. 383.
47. D.G Ivey, D. O. Northwood, Z. Phys Chem. (BRD). Vol.147, No.1/2 (1986) 191. https://doi.org/10.1524/zpch.1986.147.1_2.191
48. Q. Jiuxin, D. Xi a o ping, Z. Chaogui, Y. Yupu, Int. J. Hydrogen Ener., Vol. 11, No.2 (1986) 129. https://doi.org/10.1016/0360-3199(86)90051-0
49. Jong-Man Park, Jai-Y Lee // Mater. Res. Bull, Vol. 22, No.4 (1987) 455. https://doi.org/10.1016/0025-5408(87)90255-8
50. Y. Suzuki, Me Lellan // Acta met, Vol. 34, No.1 (1986) 125. https://doi.org/10.1016/0001-6160(86)90239-7
51. Patent 4631170 USA, MKI C.01 B 6/24, NKI 42/455, Publ. 23.12.1986.
52. L.F. Kozin, Physico-Chemistry and Metallurgy of Highly Pure Mercury and Its Alloy, Naukova Dumka, Kyiv, 1992.
53. A.L. Shilov, Zhurn. Fiz. Khim., Vol. 43, Iss. 4 (1989) 1114.
54. A.G. Konyaeva, Ibid., Vol. 64, Iss. 10 (1990) 2856.
55. L.F. Kozin, V.A. Sakharenko, Ukr. Khim. Zhurn., Vol. 50, No.1 (1984) 9.
56. L.F. Kozin, V.A. Sakharenko, A.N. Budarina, Ibid., No.2 (1984) 16.
57. L.F. Kozin, A.N. Budarina, Zhurn. Prikl. Khim., Vol. 64, No.7 (1991)1429.
58. B.A. Troshenkin, Circulation and Film Evaporators and Hydrogen Reactors, Naukova Dumka, Kyiv, 1985.
59. Appl. 60—137801 Japan, MKI4 C 01 B 3/00, G17 C 11/00, Yamadzi Yakukadzy, Publ. 22.07.1985.
60. E. From, E. Hebhardt, Gases and Hydrogen in Metals, Metallurgiya, Moscow (1980).
61. R. E. Bischof-Furrer. Untersuchungen an Hydriden der Seltenen E: Abh. Dokt. Naturwiss. Eidgenoess.Techn.Hochsch, Zuerich, 1984.
62. E.Ya. Pesina, O.N. Pavlov, Metal Hydrides, 1985.
63. A. Drissen, H. Hemmes, R. Griessen, Z. Phys. Chem. (BRD). Vol. 143, No.1. (1985) 145. https://doi.org/10.1524/zpch.1985.143.143.145
64. Yu.I. Mikhailov, N.N.Maltseva, N.S. Kerdova, N.T. Kuznetsov, 9 All-Union. Meet. on Therm. Anal.; B.i., Kyiv, 1985.
65. K.M. Mackey, Comprehensive Inorganic Chemistry: In 5 Vol., Pergam. Press, Oxford, New
York. 1973.
66. B. Tarasov, S. Shilkin, Production, Properties, Analysis and Use of Compounds with Molecular Crystal Lattice for New. Techn., Theses, Novgorod, 1991.
67. Appl. 63144102 Japan, MKI4 C 01 B3/56, B 01 D 53/14. Kosiba Khirosi, Publ. 16.08.88
68. B.M. Andreyev, A.N. Borisenko, A.V. Kruglov, Hihgly Pure Substances, No. 1 (1992) 12.
69. Appl. 2137702 Japan, MKI5 C 01 B 3/56. Hydrogen Cleaning, Jonedzaki Takakhiro, Nasako Kanlzi, Publ. 28.05.90.
70. V.A. Legasov, G.A. Kotelnikov, V.K. Po pov, Nuclear-Hydrogen Energetics and Technology,Atomizdat, Moscow, 1978.
71. V.V. Pozdeyev, V.K. Shiryaev, S.P. Dobrovolsky, Ros. Khim. Zhurn., No. 3 (1993) 18.
72. Yu.I. Aristov, S.I. Prokofiev, Yu.Yu. Tanashev, et al., Energiya, No.1 (1999) 9.
73. L. F. Kozin. // VI int. Conf. «Hydrogen materials science and chemistry of metal hydrides», Katsiveli, m. Yalta, Ukraine, Sept. 2—8, 1999.
74. L.F. Kozin, D.V. Sokolsky, Yu.F. Balybin, Direct Conversion of Thermal Energy into Electric One and Fuel Elements, No. 2 (1975) 136.
75. S.V. Volkov, Zhurm. Neorg. Khim., No. 1 (1990) 136.
76. S.V. Volkov, Ukr. Khim. Zhurn., No. 7 (1982) 675.
77. L.F. Kozin, S.V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2002.
78. E.E. Shpilrain, S.P. Malyshenko, G.G. Kuplenov, Introduction into Hydrogen Energetics, Ed. V.A. Legasov, Energoatomizdat, Moscow, 1984.
79. L.F. Kozin, V.A. Sakharenko, Ukr. Khim. Zhurn., No. 10 (1084) 9.
80. L.F. Kozin, S.V. Volkov, Grenoble.
81. Yu.V. Pleskov, Photoelectrochemical Transformation of Solar Energy, Khimiya, Moscow, 1990.
82. Yu.I. Aristov, S.I. Prokofiev, Yu.Yu. Tanashev, et al., Energiya, No. 2 (1999) 7.
83. J. O’M. Bockris, F. Gutmann, W. Graven. Hydrogen Ebergy Progr. IV. Proc. World Hydorgen Energy Conf. 4th. Pasadena, Calif., 13—17 June, 1982. Vol. 4, Oxford et al., 1982.
84. V.M. Zaichenko, E.E. Schpilrein, Energia, No.6 (1998) 2.
85. Inorganic Reaction and Methods. — Vol. 16. Edit J. J. Zuckerman, A. D. Norman, VCN Publishers, New York (1991).
86. G. I. Novikov, Hydrogen Energy Progr., Proc. 3rd Word Hydrogen Energy Conf., Tokyo, 23—24 June, 1980, Oxford, 1981.
87. I.G. Belousov, Nuclear-Hydrogen Energetics and Technology, Atomizdat, Moscow, 1990.
88. R. H. Mentorf, R. E. Hanneman // Science. Vol. 185 (1974) 311. https://doi.org/10.1126/science.185.4148.311
89. L.F. Kozin, Electrodeposition and Dissolution of Multivalent Metals, Naukova Dumka, Kyiv, 1989.
90. Yu.K. Delimarsky, Ion Melts in Modern Technology, Metallurgia, Moscow, 1991.
91. J. E. Funk, R. M. Reinstorm, Ind. Eng. Chem. Porc. Res. Develop. Vol. 5 (1966) 336. https://doi.org/10.1021/i260019a025
92. I.G. Belousov, Nuclear-Hydrogen Energetics and Technolohy, Atomizdat, Moscow, 1980.
93. A.E. Bezhanishvili, K.N. Zvyagintsev and E.V. Kreinin, Chemistry of Hard Fuel, No. 6 (1962) 109.
94. Pat. 251537, DDR. ÌÊÈ C 01 B 3/10/M. Heinz, K. Horst, S, Manfred.- Publ.
95. L.M. Yakimenko, I.D. Modylevskaya, Z.A. Tkachek, Water Electrolysis, Chimiya, Moscow, 1970.
96. A.c. 811867 USSR, MKI3 C25 B 1/02. Electrolyte for Hydrogen Production, S.V. Volkov,
V.A. Legasov, A.V. Gorodyssky, et al., 1981.
97. A.c. 80.76.71 USSR, MKI3 C25 B 1/02. Hydrogen Production Method, O.G. Zarubitsky, N.F. Zakharchenko, G.R. Sunegin, V.G. Budnik, Publ. 1981.
98. A.c. 811868 USSR, MKI C25 B 1/04., Electropolyzer for Hydrogen Production, A.V. Go rodys sky, V.A. Legasov, S.V. Volkov, et al., Publ. 1981.
99. O.G. Zarubitsky, Zhurn. Prikl. Khim., Vol. 68, No.5 (1995) 718.
100. F. J. Salzano, G. Skarerdas, A. Mezzina // Int. J. Hydrogen Energy, Vol. 10, No. 12 (1985) 801. https://doi.org/10.1016/0360-3199(85)90168-5
101. J. Divisek, H. W. Nurnberg, Grundlagenforsch. Energietechnol. Jahresber, 1982.
102. J. Calvalho, G. Tremiliosi-Filho, L. A. Avaca et al., Hydorgen Energy Progress VI — Pergamon Press N. Y., Oxford a.o. Vol. 1 (1986) 250.
103. W. Donits, G. Dienrich, E. Erdle et al., Ibid. Vol.1 (1986) 271.
104. A. R. Rotinyan, K. I. Tikhonov, I. A. Shoshina, Theoretical Electrochemistry, Khimiya, Lenin grad, 1981.
105. O.G. Zarubitsky, N.F. Zakharchenko, Hydrogen Material Science and Hydride Chemistry,
Proc. VI Int. Conf., Yalta, Katsiveli, 2—8 September, B.i., Kyiv, 1999.
106. M.V. Perfiliev, A.K. Demin, B.L. Kuzin, et al., High-Temperature Water Electrolysis, Nauka, Moscow, 1988.
107. A.c. 1358329 USSR, MKI4 C 01 F 7/04, Method of b-Silica Production, L.F. Kozin, B.I. Daniltsev, V.A. Sakharenko, Publ. 1987.
108. A.c. 1192280 USSR, MKI4 C 08 F 7/04. Method of b-Silica Production, L.F. Kozin, B.I. Daniltsev, V.A. Sakharenko, Publ. 1985.
109. B.V. Galkin, G.A. Grishaeva, A.P. Germanovich, et al., Problems of Nuclear Science and Technology, Ser. Nuclear Eng. and Technol., No. 1 (1991) 29.
110. N.V. Korovin, Electrochemical Energetics, Energoizdat, Moscow, 1991.
111. N.N. Fateyev, Energiya, No. 12 (1998) 11.
112. A.N. Podgorny, I.L. Warshavsky, A.V. Priymak, Hydrogen and Energetics, Naukova Dumka, Kyiv, 1984.
113. A.N. Podgorny, I.L. Warshavsky, A.I. Mishchenko, et al., Nuclear-Hydrogen Energetics, Naukova Dumka, Kyiv, 1980.
114. R. F. Alimova, L. F. Goltsova, Garkusheva V. F. et al, Int. J. Hydrogen Energy, Vol. 10, No. 12, (1985) 861. https://doi.org/10.1016/0360-3199(85)90176-4
115. A.N. Podgorny, I.L. Warshavsky, A.I. Mishchenko, et al., Nuclear-Hydrogen Energetics and Technology, Atomizdat, Mscow, 1980.
116. K.N. Semenenko, Bull, Rus. Acad. Sc., No. 10 (1993) 895.
117. A.c. 618920 USSR, MKI4 C 01 F7/04. Method of Hydrogen Production, D.V. Sokolsky, L.F. Kozin, R.G. Sarmurzina, et al., Publ. 1978.
118. L.F. Kozin, R.G. Sarmurzina, Zhurn. Prikl. Khimii, Vol. 54, No. 10 (1981) 2176.
119. A.c. 618921 USSR, MKI4 C 01 F 7/04, Method of Hydrogen Production, D.V. Soko lovsky, L.F. Kozin, R.G. Sarmurzina, et al., Publ. 1978.
120. A.c. 1512159 USSR, MKI4 C 22 C 21/00. Aluminium-Bused Alloy for Hydrogen Pro duction from water, L.F. Kozin, V.A. Sakharenko, B.I. Daniltseva, V.G. Gopienko, Publ. 1989.
121. A.c. 1241636, MKI4 C 01 B 3/08. Method of Hydrogen Production, L.F. Kozin, A.V. Go rodysky, V.A. Sakharenko, Publ. 1986.
122. A.c. 1051966 USSR, MKI4 C 22 C 21/00. Aluminium-Based Alloy for Hydrogen Production, L.F. Kozin, V.A. Sakharenko, Publ. 1983.
123. A.c. 1108773 USSR, MKI4 C 22 C 21/00. Aluminium-Based Alloy for Hydrogen Production, L.F. Kozin, V.A. Sakhasenko, B.A. Troshenkin, Publ. 1984.
124. A.c. 1360000 USSR, MKI4 B 22 F 1/00. Method of Aluminium Powder Activation, L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, V.G. Gopienko, Publ. 1987.
125. A.c. 1591510 USSR, MKI5 C 22 C 21/90, 1/05. Aluminium-Based Composition Material for Hyd ro gen Production, L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, I.L. Warshavsky, Publ. 1990. https://doi.org/10.1016/0010-4361(90)90111-9
126. A.c. 1111405 USSR, MKI4 C 01 B 3/08, Composition for Hydrogen Production by Water Decom position, L.F. Kozin, A.V. Gorodysky, V.A. Sakharenko, et al., Publ. 1984.
127. L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, Zhurn. Prikl. Khim., Vol. 68, No. 9 (1995) 1433.
128. L.S. Glebov, G.A. Kliger, Ibid., No.6 (1992) 49.
129. I.V. Kalechits, Chemical Encyclopaedia. — Sov. Entsiklopedia Publ., Moscow, Vol. 4, 1995.
130. V.A. Legasov, Kommunist, No. 1 (1976) 72.
131. V.A. Legasov, G.A. Kotelnikov, V.K. Po pov, Nuclear-Hydrogen Energetics and Technology,Atomizdat, Moscow, 1978.
132. V.V. Pozdeyev, S.P. Dobrovolsky, V.K. Shiryaev, Nuclear Energy, Vol. 66, Iss. 5 (1979) 347.
133. L.F. Kozin, A.V. Gorodysky, V.A. Sakharenko, Kinetics and Burning. Chernogolovka, Nauka, Moscow, 1986.
134. L.F. Kozin, A.N. Buderina, Zhurn. Prikl. Khimii, Vol. 62, No. 12 (1989) 2665.
135. Corrosion. Reference Book, Edit. L.L. Schraer, Metallurgiya, Moscow, 1981.
136. Aluminium Alloys. Reference Book, Edit. H. Nilsen, V. Hufnagel, H. Ganulis, Metallurgiya, Moscow, 1979.
137. B.I. Kogan, Rare Metals, Nauka, Moscow, 1978.
138. V.I. Vigdorovich, V.V. Krapukhin, I.F. Chernomordin, Bull. Acad. Sc. USSR, Metallurgy and Fuel, No. 4 (1960) 99.
139. T.A. Badaeva, R.I. Kuznetsova, Proc. Acad. Sc. USSR, No. 2 (1950) 507.
140. L.A. Niselson. G.A. Yaroshevsky, Interphase Distribution Coefficients, Nauka, Moscow, 1992.
141. L.F. Kozin, A.V. Gorodysky, V.A. Sakharenko, Chemical Physics of Burning and Explosions. Kinetics and Burning, Materials of VIII All-Un. Sympos. on Burning and Ex piosion, Chernogolovka, Moscow, 1986.
142. I.L. Warshavsky, Nuclear-Hydrogen Energetics and Technology, Atomizdat, Moscow, Iss. 3 (1980) 123.
143. D.V. Sokolsky, L.F. Kozin, T.V. Kuzora, et al., Proc. Acad. Sc. USSR, Vol. 230, No.3 (1976) 620.
144. O.A. Melnikov, With Scientist’s Eyes. Nauka, Moscow, 1993.
145. R. Dahlbeng // Int. J. Hydrogen Energy. Vol. 7, No. 2 (1982) 121. https://doi.org/10.1016/0360-3199(82)90140-9
146. G.Ya. Kolbasov, A.V. Gorodysky, Processes of Photostimulated Charge Transfer in the Systems Semiconductor-Electrolyte, Naukova Dumka, Kyiv, 1993.
147. G.Ya. Kolbasov, Photoelectric Processes and Structure of the Interface SemiconductorElectrolyte on compounds of AIIBVII and AI IIBV Type; Abstract of Thesis for Doctors degree, IGIC NAS of Ukraine, Kyiv, 1990.
148. Yu.V. Pleskov, Photoelectrochemical Conversion of Solar Energy, Khimiya, Moscow, 1990.
149. Ye. V. Kuzminsky, G. Ya. Kolbasov, Solar Energy Materials and Solar Cells. Vol. 56. (1999) 93. https://doi.org/10.1016/S0927-0248(98)00146-9
150. S. H. Pawar, P. D. Pawar // Indian J. Pure and Appl. Phys. Vol. 34, No. 7 (1996) 504.
151. G.Ya. Kolbasov, I.A. Rusetsky, Ukr. Khim. Zhurn., Vol. 66, No. 5 (2000) 27.
152. K.Ya. Kondratiev, Proc. Rus. Acad. Sc., Vol. 70, No. 9 (2000) 788.
153. M. Sharon, P. Veluchamy, C. Natarajan, D. Kumar // Electrochim. Acta. Vol. 36, No. 7. (1991) 1107. https://doi.org/10.1016/0013-4686(91)85097-Q
154. Energy: Economy, Technology, Ecology, No. 8 (1998) 8.
155. O. M. Bokris, Environment Chemistry, Khimiya, Moscow, 1982.
156. S.D. Varfolomeyev, Energy Conversion by Bi o catalytic System, Moscow Univ. Publ., Moscow, 1981.
157. F.T. Yanshina, A.L. Yanshin, Bull. Rus. Acad. Sc., Vol. 70, No. 3 (2000) 243.
158. H.L. Yanshin, Bull. Rus. Acad. Sc., Vol. 64, No. 12 (1994) 1081.
159. V.S. Golubev, Ibid., Vol. 67, No. 12 (1997) 1104.
160. V.G. Gorshkov, Energetics of Biosphere and Environment State Stability, VINITI, Moscow, 1990.
161. V.G. Gorshkov, Physical and Biological Grounds of Life Stability, VINITI, Moscow, 1995. https://doi.org/10.1007/978-3-642-85001-1
162. M.A. Styrikovich, A.K. Arsky, Science Future, Znanie, Moscow, 1983.
163. V.N. Grebennik, N.N. Ponomarev-Stepnoi, V.V. Lebedev, et al., Nuclear-Hydrogen Energetics and Technology, Iss. 4., 2000.
164. A.N. Bashkirov, G.A. Kliger, Science Future, Znanie, Moscow, 1981.
165. D. Greenhopt, Future of Nuclear Energetics, Moscow, 1990.
166. N.S. Safonov, T.V. Lisichkin, Ros. Khim. Zhurn., Vol. 45, No. 4 (2001) 72.
167. I.I. Chebanenko, Geol. Zhurn., No. 1 (1999) 120.
168. A. Shvidkovsky, Visnyk Ukrainy, No. 5/6 (1998) 64; No. 3 (2001) 29.
169. O.V. Krylov, Ros. Khim. Zhurn., No. 4 (2001) 53.
170. S.D. Pirozhkov, V.D. Kapkin, A.Yu. Krylova. Results of Science and Technology. Ser. Technology of Organic Substances, VINITI, Moscow, 1987.
171. V.G. Lipovich, V.V. Zemskov, V.P. Medvedeva, Khimiya Tverd. Topliva, No. 4 (1990) 91.
172. V.V.Zemskov, V.G.Lipovich, V.P.Medvedeva, et al., Ibid., No.6(1991)92.
173. C.R. Chow, Fuel, Vol. 62, No.3 (1988) 317. https://doi.org/10.1007/BF01246836
174. V.A. Kucherenko, V.A. Sapunov, T.I. Zubova, et al., Khimiya Tverd. Topliva, No. 4 (1992) 96.
175. V.E. Rakovsky, General Chemical Technology of Turf, Gosenergoizdat, Moscow, 1949.
176. M.F. Polubentseva, V.V. Duganova, B.A. Bazhenov, et al., Khimiya tverd. topliva, No. 6 (1997) 62.
177. P. Osterkamp, E. Wagner, G. Ross, Ros. Khim. Zhurn., Vol. 54, No. 1 (2000) 34.
178. A.L. Lapidus, A.Yu. Krylova, Ibid.
179. I.T. Chashechnikova, V.M. Borotyntsev, G.I. Golodets, Khimiya tverd. topliva, No. 6 (1991) 40.

Chapter 7.
1. N. V. Korovin, Electrochemical Energetics, Energoatomizdat, Moscow, 1991.
2. S. V. Volkov, V. D. Prysyazhny, Cold Burning. Naukova Dumka. Kyiv, 1972.
3. Fuel Cell Handbook (Fifth Edition), Science Applications Interrelational Corporation Morgantown, West Virginia, 2000.
4. L. F. Kozin, S. V. Volkov, Chemistry and Technology of Highly Pure Metals and Metalloids, In
2 Vol., Naukova Dumka, Kyiv, 2002, 2003.
5. D. V. Sokolsky, K. A. Zhubanov, Hydration of Vegetable Fats, Nauka, Alma-Ata, 1972.
6. Hydrogen: Properties, Production. Storage, Transportation, Use. Handbook, Edit. D. Yu. Gamburg, N. F. Dubrovkina, Khimiya, Moscow, 1989.
7. J. O. M. Bocris, Int. J. Hydrogen Energy, No. 7 (2002) 719.
8. J. O. M. Bocris, A. J. Appleby, Environment, Vol. 13, No. 1 (1971) 51.
9. V. A. Legasov, N. N. Ponomarev-Stepnoy, A. N. Protsenko, et al., Nuclear-Hydrogen Energetics and Technology, Iss. 1 (1978) 11.
10. V. A. Legasov, Kommunist, No. 1 (1976) 72.
11. V. A. Legasov, G. A. Kotelnikov, V. K. Po pov, Nuclear-Hydrogen Energetics and Technology, Iss. 1 (1978) 37.
12. V. V. Pozdeev, V. K. Shiryaev, S. P. Dobrovolsky, Ros. Khim. Zhurn., No. 3 (1993) 18.
13. V. V. Pozdeev, S. P. Dobrovolsky, V. K. Shiryaev, Atom-energiya, Iss. 5 (1979) 347.
14. O. N. Favorsky, Bull. Rus. Acad. Sc., No. 1 (2001) 3.
15. S. Mazzetti, N. N. Ponomarev-Stepnoy. Energiya, No. 12 (1997) 5.
16. A. c. 843667 USSR, MKI3 H 01 M 10/39. Chemical Current Source / I. V. Matyashchuk, S. V. Volkov, L. S. Leonova, Publ. 1991.
17. A. c. 1575868 USSR, MKI5 H 01 M 10/39/ Chemical Current Source / S. V. Volkov, I. V. Metya shchuk, V. T. Vorogushin, O. B. Babushkina, Publ. 1989.
18. E. Adamov, Ros. Ekonom. Zhurn., No. 5/6 (2000) 80.
19. A. N. Podgorny, Hydrogen Energetics, Znanie, Kyiv, 1988.
20. A. N. Podgorny, I. L. Warshavsky, A. I. Mishchenko, et al. Nuclear-Hydrogen Energetics, Naukova Dumka, Kyiv, 1980.
21. R. F. Alimova, L. F. Goltsova, N. F. Garkuscheva, et al., J. Hydrogen Energy, No. 12 (1985) 861. https://doi.org/10.1016/0360-3199(85)90176-4
22. A. N. Podgorny, I. L. Warshavsky, A. I. Mishchenko, et al., Nuclear-Hydrogen Energetics and Technolohy, Iss. 2 (1980) 197.
23. K. N. Semanenko, Bull. Rus. Acad. Sc., No. 10 (1993) 885.
24. P. Osterkamp, E. Wagner, G. Ross, Ros. Khim. Zhurn., No. 1 (2000) 34.
25. F. Barbir, T. N. Viziroglu, Ros. Khim. Zhurn., No. 3 (1993) 7.
26. N. D. Kuznetsov, Nuclear-Hydrogen Energetics and Technology, Atomizdat, Moscow, Iss. 3 (1980) 161.
27. D. Dini, Int. G. Hydrogen Energy, No. 11/12 (1983) 897. https://doi.org/10.1016/0360-3199(83)90113-1
28. N. N. Fateev, Energiya. No. 12 (1998) 11. https://doi.org/10.7748/ns.12.28.11.s25
29. V. A. Yatzys, M. V. Lototsky, Hydrogen Materials Science and Chemistry of Carbon Nanomaterials. ICH MS’ 2003/VIII, Int. Conf., Sudak, Crimea, Ukraine, Sept. 14–2, 2003.
30. L. F. Kozin, VI Int. Conf. Hydrogen Materials Science and Chemistry of Metal Hydrides, Katsiveli-Yalta-Ukraine, Sept. 2–8, 1998.
31. L. F. Kozin, S. V. Volkov, Grenoble.
32. L. F. Kozin, Ya. O. Berezhny, B. I. Daniltsev, VI Int. Conf. Hydrogen Materials Science and Chemistry of Metals Hydrides, Katsiveli-Yalta-Ukraine, Sept. 2–8, 1999.
33. J. O. M. Bocris, Chemistry of the Environment, Khimiya, Moscow, 1982.
34. S. P. Makyshenko, Energy: Economy, Technology, Ecology, No. 7 (2003) 33.
35. O. N. Favorsky, A. M. Starik, Bull. Acad. Sc., No. 8 (2003) 689.
36. D. Davins, Energy, Energoatomizdat, Moscow, 1985
37. I. A. Rezanov, Bull. Rus. Acad. Sc., No. 4 (2001) 356.
38. Cosmonautics, Encyclopaedia, Moscow, 1985.
39. I. L. Warshavsky, Energy-Accumulating Substances and Their Use, Naukova Dumka, Kyiv, 1980.
40. I. L. Warshavsky Nuclear-Hydrogen Energetics and Technology, Atomizdat, Moscow, 1980.
41. A. N. Podgorny, I. L. Warshavsky, A. I. Priymak, Hydrogen and Energetics, Naukova Dumka, Kyiv, 1984.
42. W. D. Van Vorst, R. L. Woolley, Hydrogen: Its Technology and Implications, Vol. 4, CRS Press, Doca Raton, Florida, 1979.
43. A. N. Podgorny, I. L. Warshavsky, A. A. Makarov, et al., Use of Hydrogen Fuel in Internal Combus tion Engines, IP MASH Acad. Sc. Ukr. SSR, Kharkov, 1977.
44. A. L. Zacharow, V. I. Kostikov, A. S. Kotosonov, et al., Hydrogen Materials Science and Chemist ry of Carbon Nanomaterials, ICHM 2003/VIII Int. Conf. Sudak-Crimea Ukraine, Sept. 14–20, Kyiv, 2003.
45. B. A. Troshenkin, Circulation and Film Evaporators and Hydrogen Reactors, Naukova Dumka,
Kyiv, 1985.
46. L. F. Kozin, S. V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv.
47. G. R. Rikardo, High-Speed Internal Combustion Engines, Gostransizdat, Moscow, 1932.
48. N. V. Olmichen, D. I. Pa per, 1942.
49. R. Wisswall, Hydrogen in Metals. Applied Aspects, Mir, Moscow, 1981.
50. R. L. Meijer, Philips Tech Rev., 1970.
51. Erdol-Erdgas-Kohle, Bd. 117, No, 1 (2001) 492.
52. A. c. 722454 USSR, MKI2 H 01 M 6/14/ Nonwater Electrolyte for Low-Tempe rature Current Source / S. V. Volkov, I. V. Matyashchuk, V. A. Vasilenko, et al., Publ. 1979.
53. V. Goloborodko, Signal, No. 2 (2000) 28.
54. N. A. Levchuk, Energy: Economy, Technology, Ecology, No. 2 (2001) 35.
55. N. V. Korovin, Hydrogen Materials Science and Chemistry of Carbon Nanomaterials, ICHMS’ 2003, VIII Int. Conf. Sudak-Crimea-Ukraine, Sept. 14–20, 2003, Kyiv, 2003.
56. N. V. Korovin, Bull. Rus. Acad. Sc., Energetics, No. 4 (1977) 49.
57. I. E. Baranov, V. N. Fateev, S. A. Grigoriev, V. D. Rusanov, Hydrogen Materials Sciences and Chemistry of Carbon Nanomaterials, ICHMS’ 2003, VIII Int. Conf. Sudak-Crimea-Ukraine, Sept. 14–20, 2003, Kyiv, 2003.
58. Energy: Economy, Technology, Ecology, No. 7 (2003) 40.
59. Ph. Herissel, Vie rail et transp., No. 2767 (2000) 4.
60. V. I. Spitsyn, L. I. Martinenko, Inorganic Chemistry, Part 1, Moscow Univ. Publ., Mos cow, 1991.
61. I. S. Kulikov, Isotopes and Element Properties, Reference Book, Metallurgiya, Moscow, 1990.
62. R. A. Lidin, V. A. Molochko, and L. L. Andreyeva, Chemical Properties of Inorganic Substances, Chemistry, Moscow, 2000.
63. T.N. Veziroglu, Hydrogen Energy Progress XII, Proc. 13th World Hydr. Energy Conf., Beijing, China, June 12–15, 2000.
64. S. Verhelst, L. Sierens, Hydrogen Energy Progress XII, Proc. 13th Hydr. Energy Conf., Beijing, China, June 12–15, 2000.
65. Qunli Hai, Chand Wahg, Poilan Wang, Hydrogen Energy Propress XII, Proc. 13th World Hydr. Energy Conf., June 12–15, 2000.
66. Reference Book in Electrochemistry, Edit. A.M. Sukhotin, Znanie, Leningrad, 1981.
67. D. V. Sokolsky, Hydrogen in Solutions, Publ. Acad. Sc. Kaz. SSR, Alma-Ata, 1970.
68. D. V. Sokolsky, Optimal Hydrogenization Catalysts in Solutions, Publ. Acad. Sc. Kaz. SSR, 1962.
69. V. V. Goncharuk, L. I. Kamalov, G. A. Kovtun, E. S. Rudakov, and V.K. Yatsimirsky, Catalysis. Mechanisms of Homogeneous and Heterogeneous Catalysis, Claster Approaches, Naukova Dumka, Kyiv, 2002.
70. D. V. Sokolsky, G. D. Zakumbaeva, Adsorption and Catalysis on VIII Group Metals in Solutions, Nauka Kaz. SSR, Alma-Ata, 1973.
71. D. V. Sokolsky, Ya. A. Dorfman, Coordination and Hydration, Nauka Kaz. SSR, Alma-Ata, 1975.
72. G. D. Zakumbaeva, Interaction of organic Compounds with VIII Group Metals Surface, Nauka Kaz. SSR, Alma-Ata, 1978.
73. N. M. Po pova, L. V. Babenkova, G. A. Savelieva, Adsorption and Interaction of the Simplest Gases with VIII Group Metals in Solutions, Nauka Kaz. SSR, Alma-Ata, 1979.
74. V. D. Yuditsky, A. S. Gribkov, S. E. Belovolov, Bul. Rus. Acad. Sc., Energetics, No. 3 (2003).
75. V. N. Grebennik, N. N. Ponomarev-Stepnoy, V. V. Lebedev, et al., Atom-Hydrogen Energetics and Technology, Iss. 4 (1981) 23.
76. A. N. Bashkirov, G. A. Kliger, Future of Science, Znanie, Moscow, Iss. 14 (1981) 50.
77. N. N. Rykalin, V. A. Lega sov, A.I. Manokhina, et al., Atom-Hydrogen Energeitcs and Technology, Atomizdat, Moscow, Iss. 2 (1979) 16.
78. Ya.M. Kolotyrkin, A.Kh. Breger, E.A. Borisov, Ibid.
79. T.N. Veziroglu, Int. Hydr. Energy, Vol. 12, No. 2 (1987) 59. https://doi.org/10.1016/0360-3199(87)90119-4
80. K.N. Semenchenko, V.N. Verbetsky, Ros. Khim. Zhurn., Vol. 37, No. 2 (1993) 70.
81. K. Ledjeff, Hydrogen Energy Progress, VIII, Perg. Press, Oxford, 1990.
82. N. Bak, J. Novotny, M. Rekas, C.C. Sorell, Int. J. Hydrogen Energy, Vol. 27, No. 10 (1002) 991. https://doi.org/10.1016/S0360-3199(02)00022-8
83. K.Yu. Ignatiev, A.V. Yurin, Hydrogen Materials Science and Chemistry of Carbon Nanomaterials, IC HMS’ 2003, VIII Int. Conf. Sudak-Crimea-Ukraine, Sept. 20, 2003.

Chapter 8.
1. M. McIvan, The Atmosphere Chemistry. — Mir, Moscow; 1978.
2. K.Ya. Kondratyev, Bull. Rus. Acad. Sc., No. 9 (2000) 788.
3. V.V. Snakin, Bull. Rus. Acad. Sc., No. 9 (1998) 214.
4. A.D. Potapov, Ecology, Vysshaya Shkola, Moscow, 2000.
5. G.S. Golitsyn, Bull. Rus. Acad. Sc., No. 11 (1998) 990.
6. V.G. Gorshkov, K.Ya. Kondratyev, K.S. Losev, Ecology, No. 3 (1998) 169.
7. K.P. Butin, T.V.S. Magdesieva, Rus. Khim. Zhurn., No. 1 (2000) 77.
8. I.S. Kolomnikov, M.E. Volpin, Uspekhi Khimii, No. 47 (1978) 603.
9. V.G. Gorshkov, A.M. Makarieva, Biotic Regulation of the Environment, Int. Sem. «Role of Virgin Biota in the Modern Conditions of the Global Environment Changes», Petrozavodsk, Karelia, Russia, Oct. 12–16, 1998 — Gatchina, 1998.
10. H.I. Schiff, Anns Geophys, 28, No. 1 (1972) 67. https://doi.org/10.1080/0034408720670505
11. S.C. Wofsy, J.C. McConnel, M.V. McElroy, J. Geophys. Res., Vol. 77 (1972) 4477. https://doi.org/10.1029/JC077i024p04477
12. V.A. Solovyov, Ros. Khim. Zhurn., 47, No. 3 (2003) 59.
13. V.V. Adushkin, V.P. Kudryavtsev, S.B. Turuntaev, Proc. Rus. Acad. Sc., 391, No. 6 (2003) 813.
14. B.S. Sobolev, Bull. Rus. Acad. Sc., 70, No. 7 (2000) 589.
15. N. Nakichenovich, Energy: Economy, Technology, Ecology, No. 12 (1998) 2.
16. I.I. Mazur, O.I. Moldovanov, Course of Geological Engineering, Visshaya Shkola, Moscow, 1999.
17. G.K. Voronovsky, N.P. Pereverzev, Ecology and Energetics, Kursor, Kharkov, 2000.
18. V. Snakin, Ecology and Nature Protection, Academia, Moscow, 2000.
19. Energetics Today and Tomorrow, Edit. A.F. Dyakov, Energoatomizdat, Moscow, 1990, 250.
20. A.L. Yanshin, Bull. Rus. Acad. Sc., 64. No. 12 (1994) 1081.
21. K.Ya. Kondratyev, Bull. Rus. Acad. Sc., 70, No. 9 (2000) 788.
22. K.V. Ananichev, Problems of the Environment, Energy and Natural Resources, VINITI, Moscow, 1975.
23. S.D. Varfolomeev, Energy Conversion by Bi o catalytic Systems, Moscow Univ. Publ., Moscow, 1981.
24. A.A. Belov, E.L. Minina, Bull. Rus. Acad. Sc., 69, No. 9 (1999) 834.
25. A. Karnaukhov, E. Zadokhina, Komsomolskaya Pravda in Ukraine, No. 104 (2001) 6.
26. V.S. Golubev, Bull. Rus. Acad. Sc., No. 12 (1997) 1104.
27. V.G. Gorshkov, Energetics of Biosphere and Environment State Stability, VINITI, Moscow, 1990.
28. V.G. Gorshkov, Physical and Biological Grounds of Life Stability, VINITI, Moscow, 1995. https://doi.org/10.1007/978-3-642-85001-1
29. I.K. Larin, Khimiya I zhizn, No. 7 (2000) 10.
30. K.Ya. Kondratyev, A.A. Grigoryev, The Earth Study from Spa ce, Iss. 4 (2000) 3.
31. S. Bomer-Christiansen, RGO Inf., Iss. 1 (1999).
32. K.Ya. Kondratyev, Ecodynamics and Geopolicy. Vol. 1, Global Problems, Scient. Centre, Russ. Acad. Sc., 1999.
33. L.R. Brown, M. Renner, B. Halweil, Vital Signs 1999. The Environment Trends That Are Shaping Our Future, World Watch Institute, W.W. Norton and Co., Inc. New York, 1993.
34. B.C. Williams, J.T. McMullan, P. Campbell, Fuel, 73, No. 7 (1994) 1069. https://doi.org/10.1016/0016-2361(94)90239-9
35. V.S. Arutyunov, A.L. Lapidus, Rus. Khim. Zhurn., 47, No. 2 (2003) 23.
36. Naukovy Svit, Globus, Kyiv, No. 7 (2000) 16.
37. R.M. Garrels, Ch.L. Criste, Solutions, Minerals Equilibrie, Mir, Moscow, 1968.
38. I.S. Kulikov, Isotopes and Element Properties, Ref. Book, Metallurgia, Moscow, 1990.
39. M.I. Budyko, Bull. Rus. Acad. Sc., No. 12 (1995) 1064.
40. F.A. Kuznetsov, V.A. Istomin, T.V. Rodionova, Ros. Khim. Zhurn., 47, No. 3 (2003) 5.
41. N.A. Yefimova, Radiation Factors of Vegetative Cover Productivity, Gidrometeoizdat, Leningrad, 1977.
42. V.A. Zubakov, Bull. Rus. Acad. Sc., 71, No. 2 (200) 130.
43. I. Pavlova, Arguments and Facts in Ukraine, No. 37 (2000), Sept.
44. L. Skibinsky, Who Derives Benefit from Ozone Holes?, Uryadovy kuryer, No. 223 (1999) 6.
45. Cosmonautics. Encyclopedia, Ed.-in-Chief V. P. Glushko, Entsyklopedia Moscow, 1995.
46. G.I. Voronin, Systems of Air Conditioning in Aircrafts, Mashinostroenie, Moscow, 1973.
47. R.G. Rice, A. Netzer, Handbook of Ozone Technology and Application, Vol. 1, Ann Arbor Science. England, 1982.
48. V.N. Emokhonov, A.N. Yermakov, I.K. Larin, P.G. Filip pov, Bull. Rus. Acad. Sc., Energetics, No. 3 (2002) 58.
49. V.V. Lunin, M.P. Po povich, Physical Chemistry of Ozone, Moscow Univ. Publ., Moscow, 1998.
50. N.V. Korovin, General Chemistry, Vysshaya Shkola, Moscow, 1998.
51. N. Chugunov, Nauka i Zhizn, No. 9 (2000) 14.
52. V.G. Kirillov-Ugryumov, Future of Science. Znanie, Moscow, Iss. 16 (1993) 31.
53. Quuli Hai, Cheng Wahg, Peilan Wang, Hydrogen Energy Progress XII, Proc. BH World Hydrogen Energy Conf. Beijing, China, June, 12–15, 2000. Vol. 1–2, Published Intern. Assoc. for Hydrogen Energy, 2000.
54. P.F. Gozhik, O.V. Bilyavsky, I.M. Krushelnitsky, O. Kostina, Nauk. Svit., No. 2 (2000) 12.
55. I.M. Mazyrin, E.I. Mazurina, Bull. Rus. Acad. Sc., 67, No. 8 (1997) 688.
56. E.Yu. Bezuglaya, E.K. Zacadskaya, I.V. Smirnova, Proc. Gen. Geophy. Observ., No. 549 (1998) 67.
57. M. Das, L. Husain, J. Geophys. Res., 104, No. 17 (1998) 17. https://doi.org/10.1111/j.1741-6612.1998.tb00046.x
58. Ukraine in the context of «Agenda for the 21st Century», Edit. V.I. Vovk, Nora-Print, Kyiv, 1998.
59. Ya.M. Glushko, Harmful Inorganic Compounds in Industrial Emissions into the Atmosphere, Khimiya, Leningrad, 1987.
60. V. Vereshchagina, Arguments in Facts in Ukraine, No. 36 (2000).
61. L.G. Meira, J. Geophys. Res., 76, No. 2 (1971) 202. https://doi.org/10.1029/JA076i001p00202
62. D.F. Strobel, Ibid, No. 1 (197) 83.
63. P. Crutzen, Can. J. Chem., 52, No. 8 (1974) 1569. https://doi.org/10.1139/v74-229
64. N. Berces, S. Forgeteg, Irans. Faradey Soc., No. 66 (1970) 640. https://doi.org/10.1039/TF9706600640
65. P.N. Alekseyev, A.Yu. Gagorinsky, N.N. Ponomarev-Stepnoy, et al., Atom. energiya, No. 1 (2000) 3.
66. S.V. Volkov, Zhurm, neorg. khimii, 35, No. 8 (1990) 2789.
67. Yu.P. Yelagin, State of the World Nuclear Energetics. Nuclear Eng. Abroad., No. 1 (1990) 3.
68. M.I. Budyko, Heat Balance of the Earth Surface, Gidrometeoizdat, Leningrad, 956.
69. M.I. Budyko, Human Effect on Climate, Hidrometeoizdat, Leningrad, 1972.
70. T.F. Ross, C.S. Godfrey, R.R. Heim, Earth System-Monitor, 10, No. 2 (1999).
71. N.A. Shpolyansky, The Earth Cryosphere, 5, No. 1 (2001) 3.
72. S. Emilliani, Science, No. 3933 (1970) 168. https://doi.org/10.1126/science.168.3933.822
73. N.V. Kind, Geochronology of Late Anthropogen by Isotopic Data, Nauka, Moscow, 1974.
74. Trends’93, World Data Center, USA, 1994.
75. N.A. Khotinsky, Z.V. Aleshinskaya, A.A. Sharbatyan, Proc. Acad. Sc., USSR, Ser. Geogr., No. 3 (1991) 30.
76. V.A. Klimanov, Climate Variations in the Recent Millenium, Gidrometeoizdat, Lenin grad, 1988.
77. G. Polozova, Ibid.
78. M.M. Chernavskaya, Ibid.
79. V.P. Melnikova, I.I. Smulsky, O.I. Krotov, Cryosphere of the Earth, No. 3 (2000) 3.
80. J. Imbry, K.P. Imbry, Glacial Epoch Mysteries, Progress, Moscow, 1998.
81. K.Ya. Kondratiev, K.S. Losev, M.D. Ananicheva, I.V. Chesnokova, Bull. Rus. Acad. Sc., 73, No. 1 (2003) 3.
82. V.S. Arutyunov, Ros. Khim. Zhurn., 45, No. 1 (2001) 55.
83. L.F. Kozin, S.V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2002.
84. L.F. Kozin, S.V. Volkov, Production of High-Parameters Hydrogen with Application of Energy
Accumulating Substances, European Hydrogen Energy Conf., 2–5 Sept., 2003, Alpex po,
Grenoble, France.

Chapter 9.
1. V.V. Bushuev, Energy Policy (Russia), Iss. 4 (2002)35.
2. D.B. Wolberg, Teplotekhnika, No. 8 (1999)5.
3. B. Mayevsky, N. Yevdoshchuk, O. Lozinsky, Oil-Gas-Bearing Provinces of the World, Naukova Dumka, Kyiv, 2002.
4. Hans-Holger Rogner, Energy and the Challenge of Sustainability. World Energy Assessment, 2000.
5. Erdol-Erdgas-Kohle. — Bd. 1/8, No. 7–8 (2002)32.
6. D. Dowins, Energy, Energoatomizdat, Moscow, 1985.
7. N.V. Selivanov, Probl. Nauki, No. 7 (2000)44.
8. Enetrgy, US Census Bureau. Statistical Abstract of the United States, 1999.
9. L.K. Silvestrov, V.M. Korenev, Energiya: Economy, Technology, Ecology, No. 5 (2000)9.
10. I.O. Artemshuk, M.I. Baranovsky, S.F. Bilyk, et. al. Oil and Gas of Ukraine, Naukova Dumka, Kyiv, 1997.
11. K.P. Tikhomolova, Electroosmosis, Khimiya, Leningrad, 1989.
12. A.I. Vorobyev, Rec. NAS of Ukraine, No. 5 (2003)101.
13. G. Burlaka, Ekonomika Ukrainy, No. 7 (2000)20.
14. Statistical Annual of Ukraine for 1998, Tekhnika, Kyiv, 1999.
15. Ya.F. Makogon, Ros. Khim. Zhurn., Vol. 47, No. 3 (2003)3.
16. J. Krason, Offshore. Int. Ed., 59, No. 4 (1999), 96, 162, 164.
17. Producers want gas strategy, Hart’s E. and P., 73, No. 2 (2000)17.
18. F.A. Kuznetsov, V.A. Istomin, T.V. Rodionova, Ros. Khim. Zhurn., Vol. 47, No. 3 (2003)3.
19. S.Sh. Byk, Yu.F. Makogon, V.I. Fomina, Gas Hydrates, Khimiya, Moscow, 1980.
20. V.A. Solovyev, Ros. Khim. Zhurn., Vol. 47, No. 3 (2003)59.
21. Yu.F. Makogon, Ros. Khim. Zhurm., Vol. 47, No. 3 (2003)70. https://doi.org/10.1007/BF02763343
22. K.A. Kvenvolden, Chem, Geol., Vol. 41, No. 1, 1988, 41. https://doi.org/10.1016/0009-2541(88)90104-0
23. K.A. Kvenvolden, Potantial Effect of gas hydrate on human welfare. Prec. NAS USA, 1999, 96. https://doi.org/10.1073/pnas.96.7.3420
24. S. Dunn, Intern. J. Hydrogen Energy, Vol. 27, No. 2 (2002)235. https://doi.org/10.1016/S0360-3199(01)00131-8
25. R.A. Hefner, Intern. J. Hydrogen Energy, Vol. 27, No. 1 (2002)1. https://doi.org/10.1016/S0360-3199(01)00079-9
26. L.F. Kozin, S.V. Volkov, Hydrogen Energetics and Ecology, Naukova Dumka, Kyiv, 2002.
27. V.I. Subbotin, Bull. Rus. Acad. Sc., 71, No. 12 (2001)1059.
28. Huang Zhijong, Hydrogen Energy Progress XI II. Proc. 13th. World Hydrogen Energy Conference. Beijing, China, June 12–15, 2000, Vol. 1–2, 2000, 233.
29. Yu.N. Malyshev, Energy, Economics, Technology, Ecology, No. 8 (2000)2.
30. N.S. Safonov, T.V. Lisichkin, Ros. Khim Zhurn., 45, No. 4 (2001)72.
31. N.M. Mkhitaryan, Energy-Saving Technologies in Dwelling and Civil Construction, Naukova Dumka, Kyiv, 2000.
32. V.V. Remizov, Gasovaya promyshlennost, No. 8 (1999)5.
33. V.V. Klimenko, Ibid., No. 5 (2001)16.
34. N.A. Shpolyanskaya, Kriosfera Zemli, 5, No. 1 (2001)3.
35. A.N. Zubakov, 71, No. 2 (2001)80. https://doi.org/10.2307/25591601
36. S. Ma cilwain, Nature, No. 382 (1996)195. https://doi.org/10.1038/382195c0
37. O.G. Sorokhtin, S.A. Ushakov, Bull. Moscow Univ., Ser. Geogr., No. 5 (1996)27.
38. K.S. Demirchyan, K.K. Demirchyan, Ya.B. Danilevich, R.Ya. Kondratyev, Bull. Rus. Acad. Sc., Energetics, No. 3 (2002)18.
39. K.K. Demirchyan, K.S. Demirchyan, K.Ya. Kondratiev, Bull. Rus. Acad. Sc., Energetics, No. 3 (2002)18.
40. D. Ter Haar, H. Wergeland, Elements of Thermodynamics, Addison-Wesley Publishing Company, London, 1966.
41. A.Yu. Zenyuk, Energiya, No. 1 (1998)9.
42. E. Adamov, Ros. Ekonom. Zhurnal, No. 5/6 (2000)80.
43. V.A.Makhova, L.B.Preobrazhenskaya, Energy: Economy, Technology, Ecology, No. 7 (2001)2.
44. L.B. Preobrazhenskaya, Energy: Economy, Technology, Ecology, No. 10 (2000)8.
45. S.N. Golubchikov, Zh.A. Grishina, Energiya: Economy, Technology, Ecology, No. 10 (2000)8.
46. Yu.P. Yelagin, State of the World Nuclear Energetics, Nuclear Technology Abroad, No. 1 (1999)9.
47. V.N. Mikhailov, Bull. Rus. Acad. Sc., 68, No. 2 (1998)116.
48. F.G. Reshetnikov, Bull. Rus. Acad. Sc., 70, No. 2 (2000)117.
49. E.E. Shpilrain, S.P. Malyshenko, G.G. Kuleshov, Introduction into Hydrogen Energetics, Energoatomizdat, Moscow, 1984.
50. F.M. Mitenkov, N.N. Ponomarev-Stepnoi, Energia, No. 2 (1997)2.
51. S.S. Abalin, V.M. Novikov, V.N. Prusakov, Nuclear-Hydrogen Energetics and Technology, Iss. 1 (1978)126.
52. V.A. Legasov, I.G. Belousov, N.K. Yerokhin, A.S. Doronin, Ibid., Iss. 2 (1979)85.
53. L.E. Mc. Ncese, M.W. Rosenthal, Nucl. News, 17, No. 2 (1974)52. https://doi.org/10.1021/cen-v052n025.p017
54. P. Fangeras, A. Lecocq, J.L. Blum, et al., Trans. Amer. Nucl. Soc., No. 20 (1975)703.
55. V.N. Grebennik, N.N. Ponomaryov-Stepnoi, V.V. Lebedev, Nuclear-Hydrogen Energetics and Technology, Iss. 4, 23.
56. S.V. Volkov, Teor. i eksp. Khimiya, No. 1 (1982)3.
57. S.V. Volkov, V.F. Grishchenko, Yu.K. Delimarsky, Coordinational Chemistry of Salf Melts, Naukova Dumka, Kyiv, 1985.
58. S.V. Volkov, Zhurn, Inorg. Khimii, No. 11 (1986)2748.
59. S.V. Volkov, Molten Salf Bull. Univ. de Provence. — No. 35 (1988)3.
60. S.V. Volkov, Ion, rasplavy i tverd. elektrolity, Iss. 4 (1989)26.
61. L.F. Kozin, VI Int. conf. «Hydrogen material science and chemistry of metal hydrides, Katsiveli, Yalta, Ukraine, Sept. 2–8, 1999.
62. L.F. Kozin, D.V. Sokolsky, Yu.F. Balybin, Direct conversion of thermal energy into electric and fuel elements, No. 2 (64) (1975)136.
63. S.V. Volkov, Zhurn. Neorg. Khimii, No. 11 (1990)2789.
64. S.V. Volkov, Ukr. Khim. Zhurn., No. 7 (1982)675.
65. A.c. 811867 USSR, MKI3 S25 B1/02 Electrolyte for Hydrogen Production, S.V. Volkov, V.A. Le gasov, A.V. Gorodyssky, 1981, Bull. No. 9.
66. A.C. 1025184 USSR, MKI3 S25 B1/02 Method of Hydrogen Production / O.G. Zaru bitsky, V.A. Legasov, A.V. Gorodyssky, 1983, Bull. No. 23.
67. S.V. Volkov, Zhurn. Inorg. Khimii, No. 1 (1980)97.
68. L.F. Kozin, V.A. Sakharenko, Ukr. Khim. Zhurn., No. 1 (1984)3.
69. L.F. Kozin, R.G. Sarmurzina, Zhurn. prikladnoi Khimii, No. 10 (1981)2176.
70. L.F. Kozin, Yu.O. Berezhny, B.I. Daniltsev, VI Int. conf. Hydrogen materials science and chemistry of metal hydrates, Katsiveli, Yalta, Ukraine, Sept. 2–8, 1999.
71. A.C. 807671 USSR, MKI3 C25 B1/02 Method of Hydrogen Production / O.G. Zarubitsky, N.F. Zakharchenko, G.P. Sunegin, V.G. Budnik. — Publ. 1981, Bull. inv. No. 7.
72. 187 A.c. 811868 USSR, MKI3 C25 B1/04 Electrolyser for Hydrogen Production / A.V. Gorodyssky, V.A. Legasov, S.V. Volkov, et. al. — Publ. 1981, Bull. inv., No. 9.
73. O.G. Zarubitsky, Zhurn. prikl. khimii, No. 5 (1995)718.
74. F.J. Salzano, G. Skarevdas, A. Mazzina, Int. J. Hydrogen Energy, No. 12 (1985)801. https://doi.org/10.1016/0360-3199(85)90168-5
75. J. Divisek, H.W. Nurnberg, Grundlagenforsch. Energietechnol. Jahresber, 1981–1982, Kernforschungsanlage Julish, Julich, 1982.
76. J. Carvalho, G. Tremiliosi-Filho, L.A.Avaca et al. Hydrogen Energy Progress VI Pergan non Press, N.Y. Oxford a.o., 1986.
77. W. Donitz, G. Dienrich, E. Erdle et al., Ibid., 271.
78. A.L. Rotinyan, K.I. Tikhonov, I.A. Shoshina, Theoretical Electrochemistry, Khimiya, Leningrad, 1981.
79. O.G. Zarubitsky, N.F. Zakharchenko, Hydrogen Material Science and Hydride Chemistry, Materials VI Int. Conf., Yalta, Katsiveli, 2–8 September, 1999.
80. M.V. Perfiliev, A.K. Demin, B.L. Kuzmin, et al., High-Temperature Water Electrolysis, Nauka, Moscow, 1988.
81. A.c. 1358329 USSR, MKI4, S 01 F 7/04 Method of b-alumina production / L.F. Kozin, B.I. Daniltsev, V.A. Sakharenko, Publ. 1987, Bull. No. 45.
82. A.c. 1192280 USSR, MKI4 C 01 F 7/4. Method of b-alumina production / L.F. Kozin, B.I. Daniltsev, V.A. Sakharenko, Publ. 1985, Bull. No. 42.
83. B.V. Galkin, G.A. Grishaev, A.P. Germanovich, et al., Problems of nuclear science and technology. Ser. Nuclear Eng. and Technol., No. 1 (1991)29.
84. A.N. Podgorny, I.L. Warshavsky, A.I. Priymak. Hydrogen and Energetics, Naukova Dumka, Kyiv, 1984.
85. A.N. Podgorny, I.L. Warshavsky, A.I. Mishchenko, et al., Nuclear-Hydrogen Energetics, Naukova Dumka, Kyiv, 1980.
86. R.F. Alimova, L.F. Goltsova, V.F. Garkusheva, et al., Int. J. Hydrogen Energy, No. 12 (1985)861. https://doi.org/10.1016/0360-3199(85)90176-4
87. A.N. Podgorny, I.L. Warshavsky, A.I. Mishchenko, et al., Nuclear-Hydrogen Energetics and Technology, Atomizdat, Moscow, 1980.
88. K.N. Semenenko, Bull. Rus. Acad. Sc., No. 10 (1993)885.
89. A.c. 618920 USSR, MKI4 C 01 F 7/04. Method of Hydrogen Production, D.V. Sokolsky, L.F. Kozin, R.G. Sarmurzina, et al., Publ. 1978, Bull. No. 29.
90. L.F. Kozin, R.G. Sarmarzina, Zhurn. Prikl. Khimii, 54, No. 10 (1981)2176. https://doi.org/10.1016/0045-8732(81)90065-6
91. A.c. 618921 USSR, MKI4 S 01 F 7/04. Method of Hydrogen Production, D.V. Sokolsky, L.F. Kozin, R.G. Sarmurzina, et al., Publ. 1978, Bull. No. 29.
92. A.c. 1512159 USSR, MKI4 S 22 C 21/00. Aluminium-based alloy for hydrogen production from water, L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, V.G. Gopienko, Publ. 1989. Bull. No. 36.
93. A.c. 1241636 USSR, MKI4 S 01 B 3/08. Method of hydrogen production, L.F. Kozin, A.B. Gorodysky, V.A. Sakharenko, Publ. 1986, Bull. No. 24.
94. A.c. 1051966 USSR, MKI4 S 22 C 21/00. Aluminium-based alloy for hydrogen production, L.F. Kozin, V.A. Sakharenko, Publ. 1983, Bull. No. 40.
95. A.c. 1108773 USSR, MKI4 C22 C21/00. Aluminium-based alloy for hydrogen production, L.F. Kozin, V.A. Sakharenko, B.A. Troshenkin, Publ. 1094, Bull. No. 30.
96. A.c. 1360000 USSR, MKI4 B 22 F 1/00. Method of activation of aluminium power, L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, V.G. Gopienko, Pull, 1987, Bull. No. 40.
97. A.c. 1591510 USSR, MKI5 S 22 S 21/00, 1/05. Aluminium-based compositional material for hydrogen production, L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, I.L. Warshavsky, Publ. 1990, Bull. No. 33.
98. A.c. 1111405 USSR, MKI4 S 01 B 3/08. Composition for hydrogen production by water decomposition, L.F. Kozin, A. V. Gorodyssky, V.A. Sakharenko, Publ. 1984, Bull. No. 32.
99. L.F. Kozin, V.A. Sakharenko, B.I. Daniltsev, Zhurn. Prikladnoi Khimii., 68, No. 9 (1995)1433.
100. L.F. Kozin, A.V. Gorodyssky, V.A. Sakharenko, Kinetics and Burning. Chernogolovka, Nauka, Moscow, 1986.
101. L.F. Kozin, A.N. Budarina, Zhurn, Prikladnoi Khimii, 62, No. 12 (1989)2665.
102. L.F. Kozin, A.V. Gorodyssky, V.A. Sakharenko, Chemical physics of combustion and explosion processes. Kinetics and burning. Materials VIII All-Un. Symp. on burning and explosion, Chernogolovka, Moscow, 1986.
103. D.V. Sokolsky, L.F. Kozin, T.V. Kuzora, et al., Proc. Acad. Sc. USSR, 230, No. 3 (1976)620.
104. Xu Zhengang. Wu Chnlai, Hydrogen Energy Progress XI II Proc. 13th World Hydrogen Energy Conference. Beijing, June 12–15, 2000. Vol. 1–2, Published Intern. Assoc. for Hydrogen Energy, 2000.
105. L.F. Kozin, S.V. Volkov, Production of high-parameters hydrogen with application of energyaccumulating substances, European Hydrogen Energy Conf.. 2–5 Sept., 2003, Alpex po, Grenoble, France. Res.: C01/20.
106. N.A. Chernomyrdine, E.E. Shpilrain, V.M. Zaichenko, Hydrogen Energy Progress XI II Proc. 13th World Hydr. Energy Conf., Beijing, China, June 12–15, 2000, Publ. Intern. Assoc. For Hydrogen Energy, 2000.
107. Bao De-you, Hydrogen Energy Progress XI II, Proc. 13th World Hydr. Energy Conf., Beijing, China, June 12–15, 2000, Vol. 1–2, Publ. Intern. Assoc. for Hydrogen Energy, 2000.
108. E.O. Adamov, V.I. Rachkov, Energy: Economy, Technology, Ecology, No. 1 (2001)2.
109. Academician V.I. Subbotin, Bull. Rus. Acad. Sc., 70, No. 4 (2000)361.
110. L.S. Belyaev, O.V. Marchenko, Ecology, No. 11 (2001)2.
111. V.S. Okunev, Proc. Rus. Acad. Sc., Energetics, No. 2 (2002)42.
112. V.V. Goncharuk, E.B. Strakhov, A.M. Voloshinova Water-Chemical Technology of Nuclear Power Plants and Ecology, Naukova Dumka, Kyiv, 1993.
113. V.M. Byakov, F.G. Nichiporov, Water Radiolysis in Nuclear Reactors, Energoatomizdat, Moscow, 1990.
114. B.V. Petrov, A.S. Abakumov, Nuclear Energy, 85, Iss. 6 (1998)483. https://doi.org/10.1007/BF02361127
115. N.G. Basov, V.I. Subbotin, L.O. Feoktistov, Bull. Rus. Acad. Sc., 63, No. 10 (1993)878.
116. H. Siborg, P. Nitze, Za rubezhom, No. 52 (1991)20.
117. L. Chidester, Direct Energy Conversion, Mir, Moscow, 1975.
118. K.Ya. Kondratiev, Bull. Rus. Acad. Sc., 70, No. 9 (2000)788.
119. Ya. Shpak, Uryadovy. Currier, No. 187 (2000)5.
120. K.Ya. Kondratiev, Bull. Rus. Acad. Sc., 70, No. 9 (2000)788,
121. L.F. Kozin, S.V. Volkov, Chemistry and Technology of High-Purity Metals and Metalloids, Naukova Dumka, Kyiv, 2002.
122. Pius Husser, Sonnenenerg. Sol., No. 5 (2001)28.
123. G.Ya. Kolbasov, A.V. Gorodyssky, Processes of Photostimulated Charge Transfer in the Semiconductor Electrolyte System, Naukova Dumka, Kyiv, 1993.
124. Yu.V. Pleskov, Photoelectrochemical Conversion of Solar Energy, Khimiya, Moscow, 1990.
125. Ye.V. Kuzminskii, G.Ya. Kolbasov, Solar energy materials and solar cells, 56 (1998)93. https://doi.org/10.1016/S0927-0248(98)00146-9
126. Ye.V. Kuzminskii, G.Ya. Kolbasov. Ya.Yu. Tevtul, N.C. Golub, Nontraditional Electrochemical Systems of  Energy Conversion, Akademperiodika, Kyiv, 2002.
127. M. Sharon, P. Veluchamy, C. Natarajan, D. Kumar, Electrochim, Acta, 36, No. 7 (1990)1107. https://doi.org/10.1016/0013-4686(91)85097-Q
128. N.M. Mkhitaryan, Helioenergetics. Systems, Technology, Application, Naukova Dumka, Kyiv, 2002.
129. J.O.M. Bockris, Int. J. Hydrogen Energy, No. 27 (2002)731. https://doi.org/10.1016/S0360-3199(01)00154-9
130. M. Dergacheva, Nauka and Higher School of Kazakhstan, No. 20 (2003)8.
131. M.B. Dergacheva, V.N. Stasyuk, L.A. Fogel, A.R. Abdrakhmanova, Zhurn, Prikl. Khimii, 71, Iss. 4 (1998)616.
132. M.V. Dergacheva, V.N. Stasyuk, L.A. Fogel. 8yh Intern. Conf, of II-VI Compounds, Grenoble, France, 1997.
133. L.A. Fogel, Electrochemical reactions with participation of Tellurium (IV) Ions and Their Rope in Processes of Electrodeposition of Semiconductor Compounds, Abstr. Cand. Sc. (Chem.), Alma-Aty Rep. Kazakhstan, 2002.
134. S. Dovgy, Bull. NAS Ukraine, No. 11 (1999)6.
135. T. Bak, J. Nowotny, M. Rekas, C.C. Sorell, Int. J. Hydrogen Energy, No. 27 (2002)991. https://doi.org/10.1016/S0360-3199(02)00022-8
136. V.M. Andreyev, V.A. Grilikhes, V.D. Rumyantsev, Photoelectric Conversion of Concentrated Solar Radiation, Nauka, Leningrad, 1989.
137. A.S. Glazkov, V.A. Grilikhes, Solar Energy Conversion, Nauka, Moscow, 1985.
138. V.A. Grilikhes, Solar Spa ce Power Stations, Nauka, Leningrad, 1986.
139. Cosmonautics. Encyclopaedia / Ed. Chief. V.P. Glushko, Moscow, 1985.
140. O.I. Kudrin, Solar High-Temperature Space Energomotive Plants, Mashinostroenie, Moscow, 1987.
141. N.V. Kharchenko, Individual Solar Plants, Energoizdat, Moscow, 1991.
142. K.I. Zamarayev, V.N. Parmon, Energy Resources though the Prism of Photochemistry and Catalysis, Mir, Moscow, 1986.
143. K.I. Zamarayev, V. N. Parmon, Photocatalytic Conversion of Solar Energy. Chemical and Biological Methods, P. 1, Nauka, Novosibirsk, 1985.
144. V.N. Parmon, Photocatalytic converters of Solar Energy, Molecular Systems for Water Decomposition, P. 2, Nauka, Novosibirsk, 1985.
145. U. Wagner, Proc. 4th Intern. Sympos. on Hydrogen Power — Theoretical and Eng. Solutions, Stralsund, 9–14 Sept., 2001.
146. S.D. Varfolomeev, Energy Conversion by Bi o catalytic Systems, Moscow Univ. Publ., 1981.
147. Biomass as Energy Source, Tranl. from Eng., Edit. S. Sowfer, O. Zaborski, Mir, Moscow, 1985.
148. Eur. Power News, No. 5 (1999)33.
149. T. Blair, Bull. NAS Ukraine, No. 1 (2003)9.
150. N.V. Vershinsky, Ocean Energy, Nauka, Moscow, 1986.
151. D.D. Aizeks, Energy Conversions in the Oceans, Vladivostok TOI, FERC AS USSR, 1981.
152. V.A. Troshenkin, Renewable Energy, Par I, Fort Publish., Kharkov, 2993,
153. Motor Fuel of the Future, Avto Mir, No. 43 (2000)8.
154. Plant Fuel for Motor. Avto Mir, No. 43 (2000)22.
155. A.M. Rubailo, V.I. Golubev, Bull. MEI, No. 1 (2000)41.
156. Pat. 2116476 RF, MPK 6 F02 B7/04, Power Plant, A.M. Rubilo, V.I. Golubev, Publ. 1998. Bull. No. 21.
157. A.E. Kontorovich, N.L. Dobretsov, N.I. Laverov, Bull. Rus. Acad. Sc., 69, No. 9 (1999)771.
158. P.L. Kapitsa, Science and Mankind, 1976.
159. V.A. Legasov, I.I. Kuzmin, Nuclear and Thermonuclear Future Energy, Energoatomizdat,
Moscow, 1987.