Catalytic Oxidation of Volatile Organic Compounds in Industrial Off-Gases

Authors

  • Yu.V. Ostrovsky Novosibirsk State Design-Exploratory Institute “VNIPIET”, Bogdana Khmelnitskogo, 2, Novosibirsk, 630075, Russia
  • G.M. Zabortsev Novosibirsk State Design-Exploratory Institute “VNIPIET”, Bogdana Khmelnitskogo, 2, Novosibirsk, 630075, Russia
  • A.A. Shpak Novosibirsk State Design-Exploratory Institute “VNIPIET”, Bogdana Khmelnitskogo, 2, Novosibirsk, 630075, Russia
  • Z.R. Ismagilov Boreskov Institute of Catalysis, 5 Akad. Lavrentieva av., Novosibirsk, 630090, Russia
  • V.A. Sazonov Boreskov Institute of Catalysis, 5 Akad. Lavrentieva av., Novosibirsk, 630090, Russia
  • V.D. Meshcheryakov Boreskov Institute of Catalysis, 5 Akad. Lavrentieva av., Novosibirsk, 630090, Russia
  • M.A. Kerzhentsev Boreskov Institute of Catalysis, 5 Akad. Lavrentieva av., Novosibirsk, 630090, Russia

DOI:

https://doi.org/10.18321/ectj515

Abstract

Processes and apparatuses for catalytic oxidation of VOCs in industrial off-gases are described, including steady state and unsteady state processes, a combined adsorption-catalytic process and an advanced method of ozone induced oxidation for low concentrated exhausts. On the basis of research and development works a series of catalytic incinerators, operating in steady state and unsteady state mode, of various capacity were designed, constructed and tested in the purification of ventilation air and off-gases from VOCs. The principles of operation of different types of catalytic incinerators and possible areas of application are discussed. For VOC concentrations 150-1000 mg/m3 unsteady state catalytic incinerators of KART type should be used, for concentrations 1000-3000 mg/m3 steady state KROT apparatuses are recommended, and for concentrations over 3000 mg/m3 up to 7000 mg/m3 installations TKM-250. It is shown that for the purification of low concentrated gases with the content of organic vapors below 150 mg/m3 adsorptioncatalytic method or catalytic oxidation with ozone in the installation OKA-3000 are most effective. Main kinetic dependencies of the ozone induced oxidation of toluene and acetone over copper oxide catalyst are given and discussed. It is shown that the efficiency of this method of VOCs removal is based on low operation temperature 313-343 K, by contrast to conventional catalytic incineration by air requiring preliminary heating of the gases to 523-573 K. A special consideration is given to adsorptive damping as an efficient method for leveling the VOCs concentrations in the real industrial exhausts directed to the catalytic treatment. The use of adsorptive dampers filled with carbon allows elimination of large deviations of pollutant concentrations in the gas entering the catalyst bed, thus increasing the VOCs removal efficiency from average values. For calculations of adsorptive dampers, an equation describing the profiles of VOC concentrations in gas phase along the length of the adsorbate bed in the damper was derived.

References

1. Sazonov V.A., Popovskii V.V., Belozyorov I.M., Gamaliy L.I., Gorb A.N., Usmanov B.Kh. Method for Purification of Gas Streams from Aromatic Compounds. USSR Certificate of Authorship No 874145. Bulletin of Inventions, No
39, 1981.

2. Gamaliy L.I., Popovskii, Sazonov V.A., Usmanov B.Kh. Catalytic incineration of organic substances in compounding process. Proc. 3rd All-Union Conference «Catalytic Gas Purification», Novosibirsk, 8-11 June 1981, Part1, pp. 149-156.

3. Ostrovskii Yu.V., Ryabtsev A.D., Zabortsev G.M., Shpak A.A., Popovskii V.V., Sazonov V.A. Study of causes of cupric oxide catalyst deactivation during long operation. Zh. Prikl. Khimii, 1987, vol. 60, No 7, pp.1470-1474.

4. Ostrovskii Yu.V., Ryabtsev A.D., Novikov A.I. «About the Choice of Criterion for Thermodynamic Estimate of the Preference for Proceeding of Competing Chemical Reactions». Sibirskiy Fiziko-Tekhnicheskiy Zhurnal, 1991, No 6,
pp.15-18.

5. Govor V.V., Gustov N.N., Ivantsov Yu.P., Nyrkov S.S., Ostrovskii Yu.V. Installation for catalytic incineration USSR Certificate of authorship No 1630065, B01J8/02, Filed on 7 August 1989.

6. Sazonov V.A., Meshcheryakov V.D., Ostrovskii Yu.V., Popovskii V.V., Cherkashin V.V., Ivanov A.A. , Sheplev V.V. Apparatus for catalytic purification of gases. USSR Certificate of Authorship No 1601852, B01J8/02, Filed on 30 July,
1887.

7. Govor V.V, Maev I.E., Malykhin N.B.,Ostrovskii Yu.V., Zabortsev G.M.,Pigalov I.P. Catalytic Reactor. USSR Certificate of Authorship No 1762459, B01J8/02, Filed on 2 April 1990.

8. Zabortsev G.M., Ostrovskii Yu.V., Popovskii V.V., Sazonov V.A., Smirnov A.A., Shpak A.A. Method of purification of oxygen containing gases from admixtures of organic compounds, USSR Certificate of Authorship, No, 1418957,
B01D53/36. Filed on 15 September 1986.

9. Govor V.V., Zabortsev G.M., Ostrovskii Yu.V.Pigalov I.P., Shpak A.A. Catalytic Apparatus. USSR Certificate of Authorship No 1832533 1832533, B01J8/04. Filed on 8 May 1990.

10. Belozyorov I.M., Ostrovskii Yu.V., Zabortsev G.M., Shpak A.A., Popovskii V.V., Fenelonov V.B., Sheplev V.S., Cherkashin V.V., Kuchay N.I. Development and testing of methods and apparatuses for purification of exhaust gases from vapors of organic solvents in painting shops. Proc. Conf. «Environmental Protection-86», Obninsk, 22-24 April, 1986, Moscow, TSNIIATOMINFORM, 1986, pp.68-69.

11. Bagan I.T. Shpak A.A. Adsorption-catalytic installation for VOC incineration. Information Leaflet of VIMI No 87-1890.
12. Belozyorov I.M., Gamliy L.I., Vedenkina V.P., Zabortsev G.M., Ostrovskii Yu.V.Usmanov B.Kh, Shpak A.A. Development of methods and apparatuses for thermocatalytic purification of ventilation gases from organic vapors and ozone, in the collection ”Technical Progress in Atomic Industry”. Series: Organization of Production and Advanced Technologies in Instrument Making. No 6, 1990, Moscow, pp.23-26.

13. Zabortsev G.M., Ostrovskii Yu.V., Sazonov V.A. Ozone-catalytic oxidation of hydrocarbons over cupric oxide catalyst ICT-12-9. Proc. 5th All-Union Conference «Catalytic Gas Purification», Tbilisi, 12-17 June 1989, pp.24-27.

14. Ostrovski Yu. V., Zabortsev G.M., Ismagilov Z.R., Sazonov V. A. Innovative Low Temperature Ozone-Catalytic Technology for VOC Removal. Catalysis on the eve of the XXI century. Science and engineering. July 7-11, Abstract
Part II. - Novosibirsk, 1997, pp. 399-400.

15. Govor V.V., Zabortsev G.M., Ostrovskii Yu.V., Shpak A.A. Installation for Purification of Gas Streams from Organic Pollutants. USSR Certificate of Authorship No 1818741, B01J8/02, B01D53/34. Filed on 6 July 1989.

16. Zabortsev G.M.“The study and development of the process of ozone-catalytic oxidation of the organic compounds vapors”. PhD Thesis, Tomsk, 1998.

17. Govor V.V., Ostrovskii Yu.V., Zabortsev G.M., Gamaliy L.I. Apparatus for Ozone-Catalytic Gas Purification. USSR Certificate of Authorship No 1601853, B01J8/04. Filed on 6 July 1988.

18. Zabortsev G.M., Ostrovskii Yu.V., Popovskii V.V., Sazonov V.V., Smirnov A.A., Method of Catalytic Purification of Gases from Ozone». USSR Certificate of Authorship No 1554199, B01D53/36, Filed on 7 April 1987.

19. Sazonov V.A., Ostovskii Yu.V., Zabortsev G.M., Popovskii V.V. Catalytic decomposition of ozone over copper oxide catalysts. React. Kinet. Catal. Lett., 1988, vol.38, No 2, pp.369-373.

20. Ostrovskii Yu.V. Dr. of Science Thesis “The development of the technologies of purification of liquid and gaseous organic wastes of the enterprises of nuclear industry”, Tomsk, 1999.

21. Zabortsev G.M., Meshcheryakov V.D., Sheplev V.S. Mathematical modeling of the process of adsorptive damping. Teoret. Osnovy Khim. Tekhnol., 1987, vol. 24, No 2, pp.258-261.

22. Zabortsev G.M., Ostrovskii Yu.V., Popovskii V.V., Shpak A.A. Zabortsev. Application of adsorbent bed for analysis of gas streams containing pollutants with concentrations changing in time. Proc. Conf. «Analitika Sibiri-86» Krasnoyarsk,
1986, p.386.

23. Zabortsev G.M, Ostrovskii Yu.V., Popovskii V.V., Sazonov V.A., Yablokova E.P. Application of adsorbtive damping for analytical purposes., in the Collection: «Methods of Analysis of Environment Objects», Novosibirsk, Nauka,
1988, pp.83-87.

24. Zabortsev G.M., Ostrovskii Yu.V.Popovskii V.V., Sazonov V.A., Smirnov A.A., Shpak A.A. Method for Determination of Contents of Compounds with Changing Concentration in Gas-Vapor Medium. USSR Certificate of Authorship
No 1511677, G01N30/04. Filed on 6 February 1986.

25. Zabortsev G.M., Ostrovskii Yu.V., Shpak A.A., Govor V.V. Catalytic purification of ventilation gases from VOCs and ozone. Abstracts of Regional Conference “Detoxification and regeneration of solid organic waste and spent solvents”, Penza, 1990, pp.55-57.

26. Govor V.V., Zabortsev G.M., Ostrovskii Yu.V., Smirnov A.A. Catalytic purification of ventilation gases. In the Collection “Modern chemical technologies for air purification”, Saratov University, 1992, pp.48-49.

27. Ostrovskii Yu.V., Sazonov V.A., Zabortsev G.M., Ismagilov Z.R., Lunyushkin B.I. Device for gas purification from admixtures of organic compounds. Russian Patent No 2106185, B01D53/86. Published on 10 March 1998. Bulletin of
Inventions No 7.

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Published

2002-01-24

How to Cite

Ostrovsky, Y., Zabortsev, G., Shpak, A., Ismagilov, Z., Sazonov, V., Meshcheryakov, V., & Kerzhentsev, M. (2002). Catalytic Oxidation of Volatile Organic Compounds in Industrial Off-Gases. Eurasian Chemico-Technological Journal, 4(1), 31–44. https://doi.org/10.18321/ectj515

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