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Warianty tytułu
Języki publikacji
Abstrakty
This paper deals with the problem of the photocatalytic reactor construction. The supported TiO2 on γ-Al2O3 modified with Mo or V addition was used as the photocatalyst, whereas phenol and formaldehyde were chosen as the model pollutants. The counter - current contact of reagents and catalysts is the main advantage of the construction and enables a significant COD reduction of the highly concentrated wastewaters.
Czasopismo
Rocznik
Tom
Strony
18--20
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
autor
- Faculty of Chemistry, Department of Environmental Chemistry, Maria Curie-Sklodowska University, pl. M. Curie-Sklodowska 3, 20-031 Lublin, czech.bozena@poczta.onet.pl
Bibliografia
- 1. Zarzycki R. (Editor): Zaawansowane techniki utleniania w ochronie środowiska, PAN, Oddział w Łodzi, Komisja Ochrony Środowiska, Łódź, 2002
- 2. Herrmann J.-M.: Heterogeneous photocatalysis: fundamentals and applications to the removal of various types of aqueous pollutants, Catalysis Today, 1999, 53, 115.
- 3. Ertl G., Knözinger H., Weitkamp J. (Eds.): Handbook of Heterogeneous Catalysis, Vol. 4, VCH Wiley, Weinheim, 1997
- 4. Centi G., Ciambelli P., Perathorner S., Russo P.: Environmental catalysis: trends and outlook, Catalysis Today, 2002, 75, 3.
- 5. Courty P. R., Chauvel A.: Catalysis, the turntable for a clean future, Catalysis Today, 1996, 29, 3.
- 6. Pelizzetti E.: Concluding remarks on heterogeneous solar photocatalysis, Solar Energy Materials and Solar Cells, 1995, 38, 453.
- 7. Inui T.: Recent advance in catalysis for solving energy and environmental problems, Catalysis Today, 1999, 51, 361.
- 8. Mills A., Le Hunte S.: An overview of semiconductor photocatalysis, Journal of Photochemistry Photobiology A: Chemistry, 1997, 108, 1.
- 9. Gogate P. R., Pandit A. B.: A review of imperative technologies for wastewater treatment I: oxidation technologies at ambient conditions, Advances in Environmental Research, 2004, 8, 501.
- 10. Czech B., Nazimek D.: Zastosowanie zaawansowanych procesów utleniania do oczyszczania wód i ścieków, Przemysł Chemiczny, 2006, 8 - 9, 1005.
- 11. Chen J., Ollis D. F., Rulkens W. H., Bruning H.: Photocatalyzed oxidation of alcohols and organochlorides in the presence of native TiO2 and metallized TiO2 suspensions. Part (I): photocatalytic activity and pH influence, Water Research, 1999, 33, 661.
- 12. Polish Norm PN-74/C-04578/03.
- 13. Ray A. K.: A new photocatalytic reactor for destruction of toxic water pollutants by advanced oxidation process, Catalysis Today, 1998, 44, 357.
- 14. Morawski A. W., Radyno-Książkiewicz K., Grzechulska J.: Fotokatalityczny labiryntowy reaktor przepływowy do usuwania fenolu z wody; Gaz, woda i technika sanitarna, 2002, 6, 216.
- 15. Gupta H., Tanaka S.: Photocatalytic mineralisation of perchloroethylene using titanium dioxide, Water Science and. Technology, 1995, 31 (1995) 47.
- 16. Czech B.: Photocatalytical reduction of organic water pollutants over K-TiO2/Al2O3 and Fe-TiO2/Al2O3 catalysts, XXXVII Ogólnopolskie Kolokwium Katalityczne, Kraków 15 - 18 marca 2005, 32.
- 17. Sakthivel S., Shankar M. V., Palanichamy M., Arabindoo B., Murugesan V.: J. Photochemistry, Photobiology A: Chemistry, 2002, 148, 153.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS2-0047-0005