Ścieki mleczarskie źródłem lotnych kwasów tłuszczowych (LKT)

• Autorzy: Janczukowicz W. , Dębowski M. , Pesta J.
• Języki publikacji: PL

Słowa kluczowe

PL

ścieki mleczarskie; kwas tłuszczowy lotny

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Gaz, Woda i Technika Sanitarna
• Rocznik: 2006
• Tom: Nr 7-8
• Strony: 36--42
• Opis fizyczny: Bibliogr. 14 poz.

Twórcy

autor

Janczukowicz W.

autor

Dębowski M.

autor

Pesta J.

• Dr inż. - Katedra Inżynierii Ochrony Środowiska, UWM w Olsztynie

Bibliografia

• [1] Barnard J. L. 2000: Projektowanie procesów fermentacji wstępnej. Materiały seminarium szkoleniowego pt.: Filozofia projektowania a eksploatacja oczyszczalni ścieków, LEM PROJEKT, Kraków, 61-76.
• [2] Bernet N., Habouzit F., Moletta R. 1996: Use of industrial effluent as carbon source for denitrification of a high-strength wastewater, Appl. Microbiol. Biotechnol., 46: 92-97.
• [3] Błaszczyk M., Przytocka-Jusiak A., Olkowska H. 1981: Denitrification of high concentration nitrites and nitrates in synthetic medium with different sources of organic carbon. I. Acetic acid. Acta Microbiol. Pol., 30: 49-58.
• [4] Danalewich J. R., Papagiannis T. G., Belyea R. L., Tumbleson M. E., Raskin L. 1998: Characterization of dairy waste streams, current treatment practices and potential for biological nutrient removal. Wat. Res., 32 (12): 3555-3568.
• [5] Klimiuk E., Łebkowska M. 2003: Biotechnologia w ochronie środowiska. PWN, Warszawa.
• [6] Lee S. I., Park J. H., Ko K. B„ Koopman B. 1997: Effect of fermented swine wastes on biological nutrient removal in sequencing batch reactors. Wat. Res., 31 (7): 1807-1812.
• [7] Randall A. A., Benefield L. D„ Hill W. E„ Nicol J. P. Boman G. K. Jing S. R. 1997: The effect volatile fatty acids on enhanced biological phosphorus removal and population structure in anaerobic/aerobic sequencing batch reactor. Wat. Sci. Technol., 35: 153-160.
• [8] Satoh H., Mino T., Matsuo T. 1992: Uptake of organic substrates and accumulation of polyhydroxyalkanoates linked with glycolysis of intracellular carbohydrates under anaerobic conditions in the biological excess phosphate removal processes. Wat. Sci. Technol., 26: 933-942.
• [9] Tam N. F. Y., Wong Y. S., Leung G. 1992: Significance of external carbon source on simultaneous removal of nutrients from wastewater, Water Sci. Technol., 26 (5-6): 1047-1055.
• [10] Van Munch E. V., Keller J., Newell R. B„ Lant P. A. 1996: Application of prefermenters to aid biological nutrient removal from domestic wastewater, proceeding of the Asia Pacific Conference on Sustainable Energy and Environmental Technology. World Scientific Publishing, Singapore, 41-48.
• [11] Wentzel M. C., Dold P. L., Ekama G. A., Marais G. V. R. 1985: Process and modeling of nitrification, denitrification and biological excess phosphorus removal systems a review. Water Sci. and Technol., 17(11/25): 55- 71.
• [12] Wentzel M. C„ Ekama G. A., Dold P. L., Loewenthal R. E„ Marais G. V. R. 1989: a. Enhanced Polyphosphate Organism Cultures in Activated Sludge Systems. Part 1 [W:] Enhanced Culture Development. Water SA, 14: 81-92.
• [13] Wentzel M. C., Ekama G. A., Loewenthal R. E., Dold P. L„ Marais G. V. R. 1989: b. Enhanced polyphosphate organism cultures in activated sludge systems. Part II: Experimental behavior. Water SA, 15: 71-88.
• [14] Wentzel M. C., Ekama G. A., Marais G. V. R. 1992: Process and modeling of nitrification, denitrification and biological excess phosphorus removal systems - a review. Water Sci. and Technol., 25 (6): 59- 82.