Uwalnianie potasu przez bakterie osadu czynnego jako reakcja na stosowanie kwasu nadoctowego

Geneja, M.; Plichta, K.

Nowa wersja platformy, zawierająca wyłącznie zasoby pełnotekstowe, jest już dostępna.
Przejdź na https://bibliotekanauki.pl

Artykuł - szczegóły

Czasopismo

Inżynieria Morska i Geotechnika

2010 | nr 2 | 139-142

Tytuł artykułu

Uwalnianie potasu przez bakterie osadu czynnego jako reakcja na stosowanie kwasu nadoctowego

Autorzy

Geneja, M. , Plichta, K.

Wybrane pełne teksty z tego czasopisma

http://imig.pl/archiwalia/

Warianty tytułu

Release of potassium by active sediment bacteria as a reaction on the application of peracetic acid

Języki publikacji

Abstrakty

Badanie efektu wypływu potasu (GGKE - glutathione-gated potassium efflux) z komórek bakterii osadu czynnego pod wpływem dawkowania kwasu nadoctowego (CH3C03H). Wzrost stężenia jonów potasu w środowisku osadu czynnego.

Release of potassium by active sediment bacteria as a reaction on the application of peracetic acid. Investigation of the impact of potassium (GGKE - glutathione-gated potassium efflux) from bacteria cells of active sediment due to treatment by peracetic acid (CH3C03H). Increase of potassium ions concentration in the environment.

Słowa kluczowe

ochrona środowiska osad czynny

environment protection active sediment

Wydawca

Czasopismo

Inżynieria Morska i Geotechnika

Rocznik

2010

Tom

nr 2

Strony

139-142

Opis fizyczny

Bibliogr. 29 poz., rys.

Twórcy

autor

Geneja, M.

autor

Plichta, K.

Wydział Inżynierii Lądowej i Środowiska, Politechnika Gdańska

Bibliografia

1. Baldry M. G. C., French M. S., Slater D.: The activity of peracetic acid on sewage indicator bacteria and viruses. Water Science and Technology., 24 (2), 1991.
2. Boot C. B., Love N. G.: Investigating a mechanistic cause for activated sludge deflocculation in response to shock loads of toxic electrophilic chemicals. Water Environ. Res., 74, 2002.
3. Bott C. B., Love N. G.: Implicating the glutathione - gated potassium efflux system as a cause of electrophile-induced activated sludge deflocculation. Appl. and Environ. Microbiol., 70, 2004.
4. Eikelboom D. H., Van Buijsen H. J. J.: Podręcznik mikroskopowego badania osadu czynnego. Wyd. "Seidel-Przywecki" sp. z o.o., Szczecin 1999.
5. Elmore M. J., Lamb A. J., Ritchie G. Y., Douglas R. M., Munro A. W., Gajewska A., Booth I. R.: Activation of potassium efflux from Escherichia coli by glutathione metabolites. Mol. Microbiol., 4, 1990.
6. Geneja M.: Application of peracetic acid for biological foam elimination in the SBR bioreactor. Polish J. of Environ. Stud., 16, (2A), 2007.
7. Geneja M., Plichta K.: Preliminary investigation on rapid potassium efflux from activated sludge in response to use of peroxyacetic acid. Polish J. of Environ. Stud., 18 (6), 2009.
8. Henriques I. D. S., Kelly R.T., Dauphinais J. L., Love N. G.: Activated sludge inhibition by chemical stressors - a comprehensive study, Water Environ. Res., 79, 2007.
9. Higgins M. J., Novak J. T.: The effect of cations on the settling and dewatering of activated sludges: laboratory results. Water Environ. Res., 69 (2),1997.
10. Jenkins D., Richard M. G., Daigger G. T.: Manual on the causes and control of activated sludge bulking, foaming, and other solids separation problems (Third edition). CRC Press LLC, Boca Raton, Florida 2004.
11. Keiding K., Nielsen P. H.: Desorption of organic macromolecules from activated sludge: effect of ionic composition. Wat. Res., 31 (7), 1997.
12. Kelly R. T, Love N. G.: The role of glutathione mediated oxidative stress response mechanisms in nitrifying bacteria. Proceedings of the Water Environment Federation Technical Conference WEFTEC'06, Dallas, Texas, 21 - 25 October 2006, Water Environment Foundation, 2006.
13. Koivunen J., Heinonen-Tanski H.: Peracetic acid (PAA) disinfection of primary, secondary and tertiary treated municipal wastewaters. Water Research, 39,2005.
14. Konieczka i in.: Ocena i kontrola jakości wyników analitycznych. Centrum Doskonałości Analityki i Monitoringu Środowiska, Wydział Chemiczny, Politechnika Gdańska, 2004.
15. Lakay M. T., Hulsman A., Ketley D., Warburton C., de Villiers M., Casey T. G., Wentzel M. C., Ekama G. A.: Filamentous organism bulking in nutrient removal activated sludge systems. Paper 7: Exploratory experimental investigations. Water SA, 25 (4), 1999.
16. Liberti L., Notamicola M.: Advanced treatment and disinfection for municipal wastewater reuse in agriculture. Water Science and Technology, 40 (4-5),1999.
17. Martins A. M. P., Pagilla K., Heijnen J. J., van Loosdrecht M. C. M.: Filamentous bulking sludge - a critical review. Water Research, 38, 2004.
18. Maunuksela J., McIntyre G.: A method to solve the swelling sludge problem in the treatment plants by controlling mycelium bacteria. Patent Cooperation Treaty (PCT). European Patent Office, publication number: WO9734833, 1997.
19. Monarca S., FerettI D., Collivignarelli C., Guzzella L., Zerbini L, Bertanza G., Pedrazzani R.: The influence of different disinfectants on mutagenicity and toxicity of urban wastewater. Water Research, 34, (17), 2000.
20. Novak J.T, Love N. G., Smith M. L., Wheeler E. R.: The effect of cationic salt addition on the settling and dewatering properties of an industrial activated sludge. Water Environ. Res., 70, 1998.
21. Parker D. S., Kaufman W. J., JenkinS D.: Physical conditioning of activated sludge flocs. J. Water Pollut. Control Fed., 43 (9), 1971.
22. Penninckx M. J. Elskens M. T: Metabolism and function of glutathione in micro-organism. Adv. Microb. Physiol. 34, 1993.
23. Ramirez G. W., Alonso J. L., Villanueva A., Guardino R., Basiero J. A., Bemecer I., Morenilla J. J.: A rapid, direct method for assessing chlorine effect on filamentous bacteria in activated sludge. Wat. Res., 34, (15), 2000.
24. Ramirez G. W., Alonso J. L., Basiero J. A., Bemecer L, Morenilla J. J.: Survey of the filamentous bacteria Thiothrix Eikelboomi and T. nivea using a rapid method for assessing chlorine effect in activated sludge. [W:] Proceedings of 9th Specialized Conference Design. Operation and Economics of Large Wastewater Treatment Plants. 1st-4th September 2003, Praha, Czech Republic, 2003.
25. Shertzer R. H.: Wastewater disinfection: time for change? J. Wat. Pollut. Control Fed., 58, 1986.
26. Sobeck D. C., Higgins M. J.: Examination of three theories of cationinduced bioflocculation. Wat. Res., 36 (3), 2002.
27. Switzenbaum M. S., Plante T. R., Woodworth B. K.: Filamentous bulking in Mssachusetts: extent of the problem and case studies. Wat. Sci. Tech., 25, 1999.
28. Veschetti E., Cutilli D., Bonadonna L., Briancesco R., Martini C., Cecchini G., Anastasi P., Ottaviani M. : Pilot-plant comparative study of peracetic acid and sodium hypochlorite wastewater disinfection. Water Research, 37 (1), 2003.
29. Wimmer R. F., Love N. G.: Activated sludge deflocculation in response to chlorine addition: the potassium connection. Water Environment Research, 76 (3), 2004.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.baztech-article-BWM4-0029-0045