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Eliminacja bakterii nitkowatych w osadzie czynnym pod wpływem wybranych koagulantów i związków utleniających

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Warianty tytułu
EN
Elimination of Filamentous Bacteria in Activated Sludge as Affected by Selected Coagulants and Oxidizing Compounds
Języki publikacji
PL
Abstrakty
EN
The activated sludge method is most frequently used at the stage of biological waste water treatment. The main reason for improper sludge sedimentation is the excessive growth of filamentous bacteria leading to disturbances in technological processes of sewage treatment plants, such as formation of swollen, flowing out sludge, foam transforming in to a thick surface scum, which consequently contributes to a decrease in the effectiveness of removing pollutions from sewage. There is a growing tendency to make attempts aiming at optimizing the chemical methods used to eliminate filamentous bacteria which often constitute a factor limiting proliferation of those bacteria. Accordingly, research was undertaken to estimate the effect of some iron and aluminum coagulants and oxidizing compounds (chlorine dioxide and sodium hypochlorite) on the elimination of filamentous bacteria in the activated sludge in the aspect of sewage treatment effectiveness. Activated sludge was collected from the mechanical and biological sewage treatment plant situated in the Kuyavian-Pomeranian voivodeship. The study was carried out using a laboratory biological reactor graduated to reflect the technological parameters of the sewage treatment plant. Analyses involved determination of physicochemical parameters (total suspensions, sludge volumetric index, sludge density index) and the microscopic evaluation of activated sludge (floc parameters, the composition of microfauna, the Sludge Biotic Index, the quantitative and species composition of filamentous bacteria). At the next stage of the experiment, water solution of iron chloride, water solution of polyaluminum chloride, chlorine dioxide and sodium hypochlorite were proportioned to the activated sludge. At the same time, samples of activated sludge were analyzed without chemical reagents. After a week, the effect of applied reagents on the quantitative and species composition of filamentous bacteria and the other components of activated sludge biocenosis was evaluated. It was proved that activated sludge subjected to analyses was characterized by poor sedimentation properties, resulted from the excessive proliferation of filamentous bacteria of which the most numerous, dominant group was the species Microthrix parvicella. Best effects of filamentous bacteria elimination were recorded after the use of aluminum coagulant, which selectively affected filamentous microorganisms, effectively limiting their excessive proliferation and at the same time not exerting the negative impact on the other organisms of activated sludge. The preparation affected favorable values of the Sludge Biotic Index, which did not substantially differ from that parameter in the control sample. Polyaluminum chlorite caused elimination of the bacteria Sphaerotilus natans and a considerable decrease in the numbers of type 0041micro-organisms. At the same time that preparation contributed to improving sedimentation properties of activated sludge flocs, as a result of which the volumetric index values were decreased in successive research samples, whereas the density index increased. The applied sodium hypochlorite contributed to the elimination of filamentous bacteria, and at the same time it slightly decreased the other parameters of activated sludge. It was indicated that chlorine dioxide contributed to a considerable decrease in diversity of activated sludge microfauna, causing a decrease in the number of crawling ciliates on the flocs and sedentary forms of those macroorganisms. Moreover an increase in the number of bacteriocidal free-floating protozoa and small flagellates resulted in a substantial decrease in the IBO value. The highest doses of reagent caused impoverishment of the biocenosis, which resulted in a decrease in the biotic index values by 7 units in relation to the control sample, activated sludge in those samples was qualified as IV class of sludge quality. The best effects in filamentous bacteria elimination were recorded after the use of aluminum preparation and chlorine compounds (chlorine dioxide, sodium hypochlorite).
Rocznik
Strony
1569--1586
Opis fizyczny
Bibliogr. 31 poz., tab., rys.
Twórcy
  • Uniwersytet Technologiczno-Przyrodniczy, Bydgoszcz
autor
  • Uniwersytet Technologiczno-Przyrodniczy, Bydgoszcz
  • Uniwersytet Technologiczno-Przyrodniczy, Bydgoszcz
autor
  • Uniwersytet Technologiczno-Przyrodniczy, Bydgoszcz
autor
  • Uniwersytet Technologiczno-Przyrodniczy, Bydgoszcz
autor
  • Uniwersytet Technologiczno-Przyrodniczy, Bydgoszcz
Bibliografia
  • 1. Andreasen K., Nielsen P.H.: Growth of Microthrix parvicella in nutrient removal activated sludge plants: Studies of in situ physiology. Water Research 34, 5, 1559–1569 (2000).
  • 2. Bott C.B., Love N.G.: Implicating the glutathione-gated potassium efflux system as a cause of electrophile inducted activated sludge flocculation. Applied and Environmental Microbiology 70, 9, 5569–5578 (2004).
  • 3. Caravelli A., Contreras E.M., Giannuzzi L., Zaritzky N.: Modeling of chlorine effect on flock forming and filamentous microorganisms of activated sludge. Water Research 37, 9, 2097–2105 (2003).
  • 4. Chua H., Tan K.N., Cheung M.W.L.: Filamentous growth in activated sludge. Applied Biochemistry and Biotechnology 57–58, 1, 851–856 (1996).
  • 5. Daims H., Taylor M.W., Wagner M.: Wastewater treatment: a model system for microbial ecology. Trends Biotechnology 24, 11, 483–489 (2006).
  • 6. Eikelboom D., van Buijsen H.J.J.: Podręcznik mikroskopowego badania osadu czynnego. Wyd. Seidel-Przywecki, Szczecin 1999.
  • 7. Eikelboom D.H., Andreadakis A., Andreasen K.: Survey of filamentous populations in nutrient removal plants in four European countries. Water Science and Technology 37, 4–5, 281–289 (1998).
  • 8. Fijałkowska E., Fyda J., Pajdak-Stós A. Wiąckowski K.: Osad czynny –biologia i analiza mikroskopowa. Wyd. Seidel-Przywecki, Piaseczno, 2010.
  • 9. Foot R.J.: The effects of process control parameters on the composition and stability of activated sludge. Journal of the Institution of Water and Environmental Management, 6, 2, 215–228 (1992).
  • 10. Gajkowska-Stefańska L., Guberski S., Gutowski W., Mamak Z., Szperliński Z.: Laboratoryjne badania wody, ścieków i osadów ściekowych. Cz. II. Oficyna Wydawnicza Politechniki Warszawskiej. Warszawa 2001.
  • 11. Higgins M., Novak J.T.: The effect of cations on the settling and dewatering of activated sludge: Laboratory results. Water Environment Research, 69, 215–224 (1997).
  • 12. Hwang Y., Tanaka T.: Control of Microthrix parvicella foaming in activated sludge. Water Research 32, 1678–1686 (1998).
  • 13. Jenkins D., Richard M.G., Daigger G.T.: Manual on the causes and control of activated sludge bulking, foaming and other solids separations problems. IWA Publishing, Londyn 2003.
  • 14. Jin B., Wilén B.M., Lant P.: Impacts of morphological, physical and chemical properties of sludge flocs on dewaterability of activated sludge. Chemical Engineering Journal 98, 1–2, 115–126 (2004).
  • 15. Kocwa-Haluch R., Woźniakiewicz T.: Analiza mikroskopowa osadu czynnego i jej rola w kontroli procesu technologicznego oczyszczania ścieków. Czasopismo Techniczne. Środowisko 2-Ś, 108, 6, 141–162 (2011).
  • 16. Lakay T.M., Wentzel M.C., Ekama G.A., Marais G.R.: Bulking control with chlorination in a nutrient removal activated sludge system. Water SA 14, 1, 35–42 (1988).
  • 17. Madoni P., Davoli D, Gibin G.: Survey of filamentous microorganisms from bulking and foaming activated-sludge plants in Italy. Water Research 34, 6, 1767–1772 (2000).
  • 18. Martins A.M.P., Pagilla K., Heijnen J.J., van Loosdrecht M.C.M.: Filamentous bulking sludge – a critical review. Water Research 38, 793–827 (2004).
  • 19. Nielsen P.H., Roslev P., Dueholm T.E., Nielsen J.L.: Microthrix parvicella, a specialized lipid consumer in anaerobic-aerobic activated sludge plants. Water Science and Technology 46, 1–2, 73–80 (2002).
  • 20. Noutsopoulos C., Mamais D., Andreadakis A.D.: Effect of solids retention time on Microthrix parvicella growth. Water SA, 32 (3), 315–321 (2006).
  • 21. Paris S., Lind G., Lemmer H., Wilderer P.A.: Dosing aluminium chloride to control of Microthrix parvicella. Acta hydrochimica et hydrobiologica. Special Issue: Scum in Biological Wastewater Treatment 33, 3, 247–254 (2005).
  • 22. Przybyła C., Bykowski J., Filipiak J.: Efektywność funkcjonowania gminnych oczyszczalni ścieków. Rocznik Ochrona Środowiska (Annual Set the Environmental Protection) 11, 231–239 (2009)
  • 23. Richard M.: Activated sludge microbiology problems and their control. http://www.dec.ny.gov/docs/water_pdf/DrRichard.pdf (2003).
  • 24. Rittmann B.E.: Microbial ecology to manage processes in environmental biotechnology. Trends Biotechnology 24, 6, 261–266 (2006).
  • 25. Roels T., Dauwe F., Van Damme S., De Wilde K., Roelandt F.: The influence of PAX-14 on activated sludge systems and in particular on Microthrix parvicella. Water Science and Technology 46, 1–2, 487–490 (2002).
  • 26. Rossetti S., Tomei M.C., Nielsen P.H., Tandoi V.: “Microthrix parvicella”, a filamentous bacterium causing bulking and foaming in activated sludge systems: a review of current knowledge. FEMS Microbiology Reviews 29, 1, 49–64 (2005).
  • 27. Séka M.A., Hammes F., Verstraete W.: Predicting the effects of chlorine on micro-organism of filamentous bulking activated sludges. Applied Microbiology and Biotechnology 61, 5–6, 562–568 (2003).
  • 28. Traczewska M.: Biotyczne i abiotyczne uwarunkowania pęcznienia osadu czynnego. Ochrona Środowiska 65, 2, 29–32 (1997).
  • 29. Walczak M., Cywińska A.: Application of selected chemical compounds to limit the growth of filamentous bacteria in activated sludge. Environment Protection Engineering 33, 2, 221–230 (2007).
  • 30. Wanner J.: Activated sludge bulking and foaming control. Technomic Publishing Co., Lancaster, Basel. (2002).
  • 31. Yamamoto-Ikemoto R., Matsui S., Komori T., Bosque-Hamilton E.K.: Control of filamentous bulking and interactions among sulfur oxidationreduction and iron oxidation-reduction in activated sludge using an iron coagulant. Water Science and Technology 38, 8–9, 9–17 (1998).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a9750643-6369-47b7-8178-9fe15dc9ab1f
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