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The influence of anionic surfactant LAS on the mobility of phosphorus fractions in activated sludge under different physic-chemical conditions
Języki publikacji
Abstrakty
Wyniki badań wpływu anionowego surfaktantu LAS na mobilność frakcji fosforu w osadzie czynnym. Frakcja związana z substancją organiczną i frakcja związana z żelazem jako pełniące podstawową rolę w procesie uwalniania fosforu do cieczy nadosadowej w warunkach beztlenowych.
Results of the anionic surfactant LAS influence on the phosphorus fraction mobility influence in activated sludge. The phosphorus fraction associated with organic matter as well as with iron bound too as the most important here. Decreasing of 12% phosphorus storage capacity as the main consequence of the LAS addition.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
263--268
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Politechnika Gdańska, Wydział Inżynierii Lądowej i Środowiska
autor
- Akademia Morska w Gdyni, Wydział Przedsiębiorczości i Towaroznawstwa
autor
- Spółka Wodno-Ściekowa w Swarzewie
Bibliografia
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- 2. Caravelli A ., Giannuzzi L.. Zaritzky N.: Inhibitory effect of a surfactant on pure cultures of a filamentous and a floc forming microorganism. Environmental Technology, 28, 2007, 137-146.
- 3. Christensson M., Blackall L., Welander T.: Metabolic transformations and characterization of the sludge community in enhanced biological phosphorus removal system. Appl. Microbiol. Biotechnol. 49, 1998, 226-234.
- 4. Feitkenhauer. H.: Anaerobie digestion of desizing wastewater: influence of pretreatment and anionic surfactant on degradation and intermediate accumulation. Enzyme Microbial Technology (2) 33, 2003, 250-258.
- 5. Gonzalez Medeiros J., Perez Cid B., Fernandez Gomez E.: Analytical phosphorus fractionation in sewage sludge and sediment samples. Analytical Chemistry 381, 2005, 873-878.
- 6. Hermanowicz W ., Dożańska W ., Dojlido J., Kosierewski B : Fizycznochemiczne badanie wody i ścieków. Arkady, Warszawa 1999.
- 7. Jeon C. O., Lee D. S., Park J. M: Morphological characteristics of microbial sludge performing enhanced biological phosphorns rernoval in a sequencing batch reactor fed with glucose as sole carbon source. Water Science and Technology 41 (12),2000, 79-84.
- 8. Ji Z., Chen G., Chen Y: Effects of waste activated sludge and surfactant addition on primary sludge hydrolysis and short-chain fatty acid accumulation. Bioresource Technology 101,2010,3457-3162.
- 9. Kerrn-Jespersen P. J., Henze M. Biological phosphorus uptake under anoxic and aerobic Condition, Water Research 27(4), 1993, 617 -624.
- 10. Liwarska- Bizukojc E ., Bizukojc M.: Digital image analysis to estimate the influence of sodium do decyl sulphate on activated sludge flocs. Process Biochemistry 40, 2005, 2067-2072.
- 11. Mulkerrins D., Dobson A. D. W ., Colleran E.: Parameters affecting biological phosphate removal from wastewaters. Environ. International. Taylor&Francis, 30, 2004, 249-259.
- 12. Psenner R., Puckso R., Sager M.: Die fraktionierung organischer und anorganischer Phosphorverbindungen von Sedimenten. Arch. Hydrobiol. Suppl. 70, 1984, 111-155.
- 13. Roeske I, Sehoeborn Ch.: Interactions between chemical and advanced biological phosphorus elimination. Water Research 28( 5), 1994, 1103 - 1109.
- 14. Shcherbakowa V. A., Kestutis S ., Akimenko V. K.: The effect of surfactants on activated sludge process. Chemosphere 39, 1999.
- 15. Shan G., Jin W., Lam E.K., Xing X.: Purification of total DNA extracted from activated sludge. Journal Environmental Sciences 20 (China), 2008, 80-Si.
- 16. Steen I.: Phosphorus availability in the 21st century: Management of a non-renevable resources. Phosphorous and Potassiurn 217, 1998, 25-31.
- 17. Tabata A ., Kashiwada S ., Ohnishi Y, Ishikawa H.: Estrogenic influences ob estradiol-17β, p-nonylphenol and bis-phenol-A on Japanese medaka at detected environmental concentrations, 1. IWA World Water Congress, Paris 3-7.07.2000.
- 18. Tanaka H ., Yakou Y ., Takahashi A ., Higashitani T., Komori K.: Cimparison between estrogencities estimated from DANN regombinant yeast assay and from chemical analysis of endocrine disrupters during sewage treatment, 1. IWA World Water Congress. Paris 3-7.07.2000.
- 19. Uhlmann D ., Roeske I., Hupter M., Ohms G.: A simple metbod to distinguish between polyphosphate and other phosphate fractions of activated sludge. Water Research, vol. 24(11), 1990, 1355-1360.
- 20. Wang Ch ., Feng S., Wang P ., Li X ., Zou L.: Distribution of Phosphorus Fractions and Bio-available Phosphorus Forms and Their Relationships in Sewage Sludge. Chinese Journal of Environmental Science, 29(6), 2008, 1593- 1597.
- 21. Xie C. S ., Zhao J., Tang J., Xu J., Xu X. H.: The phosphorus fractions and alkaline phosphatase activities in sludge. Bioresource Technology 102, 2010, 2155-2461.
- 22. Ying G. G.: Fate, behavior and effects of surfactants and their degradation products in the environmenr. Environmental International 32, 2006.
- 23. Zbiór Polskich Norm. 1998. Woda i ścieki. Wydawnictwo Normalizncyjne ALFA-WERO.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8760e374-94ca-4537-b75a-f2b861cbcaa2