Effect of sludge conditioning by chemical methods with magnetic field application

• Autorzy: Krzemieniewski M , Debowski M. , Janczukowicz W. , Pesta J.
• Języki publikacji: EN

Abstrakty

EN

The feasibility of magnetic field was examined as a factor affecting sludge conditioning intensification. In the experiment sludge after preliminary anaerobic digestion was used, coming from a domestic wastewa­ter treatment plant. Digested sludge was taken directly from a fermentation tank. The experiment was run in three phases. They were performed on a laboratory scale, at various experimental stands. Different dosages of iron chloride, hydrogen peroxide and Fenton's reagent were applied to determine their influence on the sludge properties as well as the effect of constant magnetic field on the conditioning parameters was deter­mined. Straight dependence was found between dosage of the reagents and the way of sludge introduction in the magnetic activity zone, as well as physical and chemical parameters of the prepared sludge.

Słowa kluczowe

EN

sludge management; sludge; magnetic field; chemical method; Fenton's reaction; sludge conditioning; oxidation process; sludge dewatering; waste water treatment plant

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2003
• Tom: 12
• Numer: 5
• Opis fizyczny: p.595-605,fig.

Twórcy

autor

Krzemieniewski M

• University of Warmia and Mazury in Olsztyn, Warszawska 117A, 10-701 Olsztyn-Kortowo, Poland

autor

Debowski M.

autor

Janczukowicz W.

autor

Pesta J.

Bibliografia

• 1. BERNACKA J., PAWŁOWSKA L. Sludge treatment and management from municipal waste water treatment plant. Validation study of direction for use (in Polish). Institute of Environment Protection Publishing, Warsaw 1996.
• 2. KEMPA E., Sludge management in the future (in Polish). Techno - Scientific Conference, Częstochowa 1993.
• 3. LEE C. H., LIU J. C. Enhanced sludge dewatering by dual polyelectrolytes conditioning. Wat. Res. 34 (18), 4430, 2000.
• 4. KRZEMIENIEWSKI M., DOBRZYŃSKA A., JAN- CZUKOWICZ W., PESTA J., ZIELIŃSKI M. Influence of magnetic field on hydroxyl radicals generation by Fenton's reagent (in Polish). Chemik, 1, 12, 2002.
• 5. KRZEMIENIEWSKI M., DĘBOWSKI M., DOBRZYŃSKA A., ZIELIŃSKI M. COD-changes in wastewater stimulated by Fenton reaction assisted by magnetic field. Submitted to Wat. Env. Res.
• 6. KRZEMIENIEWSKI M., ZIELIŃSKI M., BEDNARSKI W., PŁODZIEŃ T. Effectivenes of dairy industry wastewa- ter treatment by the advanced oxidation method (in Polish). Przegląd mleczarski, 11, 366, 2000.
• 7. YOON J., LEE Y., KIM S. Investigation of the reaction pathway of OH radicals produced by Fenton oxidation in the conditions of wastewater treatment. Wat. Sci. Tech. 44 (5), 15, 2001.
• 8. PANIZZA M., CERIOSOLA G. Removal of organic pol­lutants from industrial wastewater by electrogenerated Fenton's reagent. Wat. Res. 35 (16), 3987, 2001.
• 9. KRZEMIENIEWSKI M., DĘBOWSKI M., DOBRZYŃSKA A., ZIELIŃSKI M. COD-changes in wastewater stimulated by Fenton reaction assisted by magnetic field. Submitted to Wat. Env. Res.
• 10. ACERO J. L., BENITEZ F. J., REAL F. J., LEAL A. I. Deg­radation of p-hydroxyphenylacetic acid by photo assisted Fenton reaction. Wat. Sci. Tech. 44 (5), 31, 2001.
• 11. GUARD M. D., LIN S. S. Hydrogen peroxide/iron oxide - inducted catalytic oxidation of organic compounds. Wat. Sci.Tech. Water Supply. 1 (4), 131, 2001.
• 12. YASUNAGA N., FURUKAWA S., KAWAAI Y., HIROT- SUJI J. Investigation of radical reactions for efficiency im­provement in ozone-hydrogen peroxide treatment. Wat. Sci. Tech. 43 (2), 205, 2001.
• 13. Introduction to hydrogen peroxide, environmental ap­plication overview. http://www.H2O2.com/applications/ industrial wastewater/fentons reagent. htm
• 14. KIWI J., PULGARIN C., PERINGER P., GRÄTZEL M. Beneficial effect of homogeneous photo - Fenton pretreatment upon the biodegradation of antraquinone sulfonate in waste water treatment. Appl. Catal. B: Environmental. 3, 85, 1993.
• 15. CONTRERAS S., RODRIQUEZ M., CHAMARRO E., ESPLUGAS S., CASADO J. Oxidation of nitrobenzene by O3/UV: the influence of H2O2 and Fe (III). Experiences in a pilot plant. Wat. Sci.Tech. 44 (5), 39, 2001.
• 16. MARTI C. A., ALFANO O. M., CASSANO A. E. Water decolorization using UV radiation and hydrogen peroxide: a kinetic study. Wat. Sci. Tech. 44 (5), 53, 2001.
• 17. KRZEMIENIEWSKI M., JANCZUKOWICZ W., PESTA J., DĘBOWSKI M. Effect of sludge dewatering and condi­tioning by Fenton reaction with the use of electromagnetic field properties (in Polish). Submitted to VI Nationwide Scientific Conference Koszalin - Ustronie Morskie, 2003.
• 18. BARBUSIŃSKI K., FILIPEK K. Aerobic Sludge Diges­tion in the Presence of Chemical Oxidizing Agents, Part II. Fenton's Reagent. Pol. J. Environ. Stud. 9 (3), 145, 2000.
• 19. GABRIELLI C., JAOUHARI R., MAURIN G., KEDDAM M.. Magnetic water treatment for scale prevention. Wat. Res. 35 (13), 3249, 2001.
• 20. GOLDSWORTHY A., WHITNEY H., MORRIS E. Biologi­cal effects of physically conditioned water. Wat. Res. 33 (7), 1618, 1999.
• 21. ŁEBKOWSKA M. Influence of magnetic field on organic compounds biodegradability (in Polish). Technical Univer­sity in Warsaw Publishing, Warsaw 1991.
• 22. SZCZYPIORKOWSKI A., NOWAK W. Studies of magnet­ic field application for intensification waste water treatment processes (in Polish). G.W. i T. S. 2, 31. 1995.
• 23. HERMANOWICZ W., DOJLIDO J., DOŻAŃSKA W., KOZIOROWSKI B., ZERBE J. Physiko - chemically wa­ter and waste water studies (in Polish). Arkady, Warszawa 1999.
• 24. BARB W. G., BAXENDALE J. H., GEORGE P., HAR- GRAVE K. R. Reaction of ferrous and ferric ions with hydrogen peroxide. Part 1. The ferrous ion reaction. Trans. Faraday Soc. 47, 462, 1951.
• 25. BARB W. G., BAXENDALE J. H., GEORGE P., HAR- GRAVE K. R. Reaction of ferrous and ferric ions with hydrogen peroxide. Part 2. The ferric ion reaction. Trans. Faraday Soc., 47, 591, 1951.
• 26. PIGNATELLO J. J. Dark and photoasisted Fe3+ catalized degradation of chlorophenoxy herbicides by hydrogen per­oxide. Environ. Sci. Technol. 26, 944, 1992.
• 27. XU Y. Comparative studies of the Fe2+/3+ - UV, H2O2 - UV, TiO2 - UV/vis systems for the decolorization of a textile dye X - 3B in water. Chemosphere, 43, 1103, 2001.
• 28. CONTRERAS S., RODRIQUEZ M., CHAMARRO E., ESPLUGAS S., CASADO J. Oxidation of nitrobenzene by O3/UV: the influence of H2O2 and Fe (III). Experiences in a pilot plant. Wat. Sci. Tech. 44 (5), 39. 2001.
• 29. BARBUSINSKI K., FILIPEK K. Aerobic Sludge Digestion in the Presence of Chemical Oxidizing Agents, Part I. Hy­drogen Peroxide. Polish Journal of Environmental Studies 9 (3), 139, 2000.
• 30. TALINLI I., ANDERSON G. K. Interference of hydrogen peroxide on the standard COD test. Wat. Res 26, 107, 1992.
• 31. ŻUŻIKOW W. A. Filtration. Theory and practice suspen­sions dividing (in Polish). Scientific -Technically Publish­ing House. Warsaw 1985.
• 32. BIEŃ J., STRZELCZYK M., TRZEPIZUR M. Waste water sludge preparing before dewatering by ultrasound and elektromagnetic fields (in Polish). G. W. i T. S. 3, 109, 2000.
• 33. BIEŃ J., KAMIZELA T. Influence of exposure time in electromagnetic field on waste water sludge parameters (in Polish). G. W. i T. S. 12, 502, 2000.