Usuwanie i podział fazowy metali ciężkich w ekosystemie oczyszczalni hydrofitowej zasilanej odciekami ze składowiska odpadów komunalnych

• Autorzy: Wojciechowska E.

Warianty tytułu

EN

Removal and phase division of heavy metals in the eco-system of hydrophyte treatment plant fed with reflux from communal waste dump

• Języki publikacji: PL

Abstrakty

EN

Evaluation of the influence of alternate aeration in oxygen phases on the possibility of obtaining synergic bio-genes removal in the process of de-phosphatizing de-nitrification in batch reactor. The issue was analyzed on the basis of experiment results; two research series on sewage treatment effectiveness in SBR reactor were conducted. The reactor worked in an 8-hour cycle, but with different systems and durations of oxygen and anoxic/oxygen-free phases as well as different multiplication factor for sewage dosing with its constant volume reaching the reactor during the whole cycle.

Słowa kluczowe

PL

oczyszczalnia hydrofitowa; ekosystem; usuwanie metali ciężkich; podział fazowy metali ciężkich; zasilanie odciekami; składowisko odpadów

EN

hydrophyte treatment plant; eco-system; heavy metals removal; phase division of heavy metals; waste dump

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Gaz, Woda i Technika Sanitarna
• Rocznik: 2009
• Tom: Nr 7-8
• Strony: 51--54
• Opis fizyczny: Bibliogr. 17 poz.

Twórcy

autor

Wojciechowska E.

• Wydział Inżynierii Lądowej i Środowiska, Politechnika Gdańska, Gdańsk

Bibliografia

• [1] Christensen T.H., Kjeldsen P., Bjerg P.L., Jensen D.L., Christensen J.B., Baun A., Albrechtsen H.J., Heron G. (2001). Biogeochemistry of landfill leachate plumes - Review. Applied Geochemistry 16, 659-718.
• [2] Hawkins W.B., Rodgers J.H., Gillespie W.B., Dunn A.W., Dorn P.B., Cano M.L. (1997). Design and construction of wetlands for aqueous transfers and transformations of selected metals. Ecotoxicology and Environmental Safety 36, 238-248.
• [3] Kadlec R.H. (2003). Integrated natural systems for landfill leachate treatment. Wetlands - nutrients, metals and mass cycling (Ed. J. Vymazal). The Netherlands, Leiden: Backhuys Publishers: 1-33.
• [4] Kinsley C.B., Crolla A.M., Kuyucak N., Zimmer M., Lafléche A. (2006). Nitrogen dynamics in a constructed wetland system treating landfill leachate. In: Proc. of 10th International Conference on Wetland Systems for Water Pollution Control, September 23-29 2006 Lisbon, Portugal: 295-305.
• [5] Kowalik P., Slater F. M., Randerson P. (1996). Constructed wetlands for landfill leachate treatment. W: Thofelt L., Englund A. (Eds.) Ecotechnics for a sustainable society. Proceeding from Ecotechnics 95 - International Symposium on Ecological Engineering., chapter 16: 189-200.
• [6] Kozub D.D., Liehr S.K. (1999). Assesssing denitrification rate limiting factors in a constructed wetland receiving landfill leachate. Wat. Sci. Tech, 40 (3): 75-82.
• [7] Machlum T. (1995). Treatment of landfill leachate in on-site lagoons and constructed wetlands. Wat. Sci. Tech. 32 (3): 129-135.
• [8] Martin C.D., Johnson K.D., Moshiri G. A. (1999). Performance of constructed wetland leachate treatment system at the Chunchula landfill, Mobile County, Alabama. Wat. Sci. Tech., 40 (3): 67-74.
• [9] Obarska-Pempkowiak H. (2002). Oczyszczalnie hydrofitowe. Wyd. Politechniki Gdańskiej, Gdańsk 2002: 214 s.
• [10] Peverly J.H., Surface J.M., Wang T. (1995). Growth and trace metals absorption by Phragmites australis in wetlands constructed for landfill leachate treatment. Ecological Eng. 5 (1995), 21-35.
• [11] Rash J.K., Liehr S.K. (1999). Flow pattern analysis of constructed wetlands treating landfill leachate. Wat. Sci. Tech., 40 (3): 309-315.
• [12] Rozporządzenia Ministra Środowiska z dn. 11 lutego 2004 Dz.U. Nr 32, poz. 284
• [13] Sadler P. (1998). Wetlands for mine water treatment Workshop. W: Constructed Wetlands - Biofiltration. University of Wales, Cardiff, April 1998.
• [14] Weis J.S., Glover T., Weis P. (2004). Interactions of metals affect their distribution in tissues of Phragmites australis. Environmental Pollution 131, 409-415.
• [15] Weis J.S., Glover T., Weis P. (2004). Interactions of metals affect their distribution in tissues of Phragmites australis. Environmental Pollution 131, 409-415.
• [16] Wojciechowska E., Obarska-Pempkowiak H. (2008). Zawartość wybranych metali ciężkich w makrofitach oczyszczalni hydrofitowej. Gaz, Woda i Technika Sanitarna 9 (2008): 49-52.
• [17] Ye Z., Baker A.J., Wong M.H., Willis A.J. (1997). Zinc, lead and cadmium tolerance, uptake and accumulation by the common reed, Phragmites australis (Cav.) Trin. ex Steudel. Ann Bot: 363-370.