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Warianty tytułu
Języki publikacji
Abstrakty
VOC emission has recently become a challenge for environmental protection. Catalytic combustion seems a promising method of VOC removal, however, there are still more specific demands concerning the process. The reactor design has to assure enhanced transfer properties accompanied by low flow resistance to reduce the pumping costs. Neither the packed beds nor the classic ceramic monoliths are able to fulfil the requirements. To solve the problem we propose a wire gauze structure composed of several gauze sheets staked. A number of mass transfer and flow resistance experiments were performed for two gauze types and correlations were derived for the Sherwood number and the friction factor. The results were found to be in a reasonable agreement with the literature available. The studied gauze structures were compared with a classic monolith for the assumed case study. The calculated length of the gauze structured reactor was significantly shorter, up to ten times, when compared with a classic ceramic monolith, but the pressure drop was higher.
Czasopismo
Rocznik
Tom
Strony
10--14
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
autor
autor
- Institute of Chemical Engineering of the Polish Academy of Sciences, ul. Bałtycka 5, 44-100 Gliwice, ask@iich.gliwice.pl
Bibliografia
- 1. Smuts M. B.: Hazardous air pollutants: inside and out, Public Health Report, Jan./Feb. 2001, 58.
- 2. Inst. Of Clean Companies Inc., Report abstract, Industrial News, Jan./Feb. 2002, 6.
- 3. Polish Air Emissions Database, Institute of Environmental Protection, available from: http://emissions.ios.edu.pl/
- 4. Williams J. L.: Catal. Today 69 (2001) 3.
- 5. Łojewska J., Kołodziej A., Żak J.: Cobalt oxide catalyst on metallic structured reactor filling for VOC combustion as an alternative to noble metal catalysts, submitted to Polish J. Chem. Technol.
- 6. Satterfield C. N., Cortez D. H.: Ind. Eng. Chem. Fundam. 1970, 9, 613.
- 7. Ahlström-Silversand A. F., Odenbrand C. U. I.: Chem. Eng. J. 1999, 73, 205.
- 8. Lyubovsky M., Karim H., Menacherry P., Boorse S., LaPierre R., Pfefferle W. C., Roychoudhury S.: Catal. Today 2003, 83, 183.
- 9. Hills T., Kons G., Schwab E., Mueller-Everbusch M.: Knitted Metal Fabrics as Thin Layer Catalysts: Operational Experience in Steamcracker Gas Phase Hydrogenation, poster presented at ICOSCAR-2 conference, Delft, 2005 (not published).
- 10. Personal communications from the Faculty of Textile Architecture of Lodz Univ. Technol. and Polish State Mint, 2005.
- 11. Personal communication from Katator AB, Sveden, 2005.
- 12. Schlichting H.: Boundary layey theory, 7th ed., McGraw-Hill, new York, 1979.
- 13. Lange C. F., Durst F., Breuer M.: Int. J. Heat Mass Transfer 1998, 41, 3409.
- 14. Armour J. C., Cannon J. N.: AIChE J. 1968, 14, 415.
- 15. Levenspiel O.: Chemical Reaction Engineering, Wiley, New York, 1972.
- 16. Kołodziej A., Łojewska J.: Catal. Today 2005, 105, 378.
- 17. Cybulski A., Moulijn J. A.: Catal. Rev.-Sci. Eng. 1994, 36, 179.
- 18. Łojewska J., Kołodziej A.: Catal. Today 2005, 105, 655.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS2-0044-0017