Direct Oxidation of Waste Hydrocarbon Gases to Oxygenates as a Perspective Tool for Decreasing of Atmospheric Pollution

Authors

  • V. S. Arutyunov Semenov Institute of Chemical Physics Russ.Acad.Sci, Moscow, Kosygina 4, Russia, 119991
  • V. I. Vedeneev Semenov Institute of Chemical Physics Russ.Acad.Sci, Moscow, Kosygina 4, Russia, 119991
  • A. M. Kutepov Institute of Chemistry of Solutions, Russ.Acad.Sci., Ivanovo, Akademicheskay 1, Russia 153460
  • Yu. A. Lebedev Institute of Chemistry of Solutions, Russ.Acad.Sci., Ivanovo, Akademicheskay 1, Russia 153460
  • A. D. Sedykh Joint-Stock Company “Gazprom”, Moscow, Nametkina 16, Russia 117884
  • S. Z. Alekseev Joint-Stock Company “Gazprom”, Moscow, Nametkina 16, Russia 117884
  • I. Sh. Saifullin Ministri of Industry and Science of Russian Federation, Moscow, Miusskay 3, Russia 125889

DOI:

https://doi.org/10.18321/ectj552

Abstract

Global warming is one of the most difficult problems of this century. We argue that it is unreal to prevent future climate change by collecting enormous antropogenic emission of carbon dioxide. More reasonable may be the collecting and processing much lover and more valuable emissions of other greenhouse gases, first of all methane. But industry needs new low-scale technologies to accomplish this task. Direct oxidation of hydrocarbons to liquid oxygenates may be the real solution.

References

(1). Arutyunov V.S. Russian Chemical Journal, 2001, v.45, #1, p.55 (in Russian).

(2). Hansen J., Sato M., Ruedy R., Lacis A., and Oinas V., Proc.Natl.Acad.Sci., 97:9875 (2000). (http://www.giss.nasa.gov/research/impacts/altscenario/)

(3). Cavaney R., Oil & Gas Journal, Nov. 13, p.64. (2000).

(4). Coboter A.A.A., Brkic D., Cooperberg D.C., Sep K., Oil & Gas J., Feb. 26, p.58. (2001).

(5). Rawls R.L., Chem.Eng.News, Sept. 18, p.66. (2000).

(6). Gesser H.D., Hunter N.R., Catalysis Today, 42:183 (1998).

(7). Gritzenko A.I., Akopova G.S., Maksimov V.M., Ecology. Oil and Gas. Nauka, Moscow, 1997 (in Russian).

(8). Arutyunov V.S., Basevich V.Ya., Vedeneev V.I., Strekova L.N., Meszcheryakov S.V., Alekseev S.Z., Chemistry for Sustainable Development, 8:327-337 (2000).

(9). Weeden S.L., Oil & Gas Journal, 2001, Mar. 12, p.58-63.

(10). Arutyunov V.S., Krylov O.V., Oxidative Conversion of Methane, Nauka, Moscow, 1998 (in Russian).

(11). Agee M.A., Natural Gas Conversion V. Studies in Surface Science and Catalysis. Vol. 119, A.Parmaliana et. al. (Editors), 1998, Elsevier, Amsterdam, p.931-936.

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Published

2001-08-20

How to Cite

Arutyunov, V. S., Vedeneev, V. I., Kutepov, A. M., Lebedev, Y. A., Sedykh, A. D., Alekseev, S. Z., & Saifullin, I. S. (2001). Direct Oxidation of Waste Hydrocarbon Gases to Oxygenates as a Perspective Tool for Decreasing of Atmospheric Pollution. Eurasian Chemico-Technological Journal, 3(2), 107–111. https://doi.org/10.18321/ectj552

Issue

Vol. 3 No. 2 (2001)

Section

Articles

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