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Tytuł artykułu

Seasonal Changes in the Reduction of Biogenic Compounds In Wastewater Treatment Plants Based on Hydroponic Technology

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The study presents the results of the treatment of domestic and industrial wastewater with respect to the reduction of nitrogen and phosphorus compounds. The analysis encompasses the results of physical and chemical tests of effluents from two facilities based on hydroponic technology: wastewater treatment plants with hydroponic lagoons using the BIOPAX technology – Paczków, Poland and the Organica technology – Szarvas, Hungary. Monthly treatment effectiveness was determined basing on these analyses. The composition of wastewater flowing into the lagoon (after mechanical treatment) and wastewater discharged to the collector in 2009–2011 was subject to physical and chemical analysis in both facilities. The effluent quality was determined basing on the concentration of total phosphorus, total nitrogen and ammonium nitrogen. Mean annual results of the operation of both objects were high. For the wastewater treatment plant in Paczkow, operating in the BIOPAX technology, the effectiveness of treatment with respect to total nitrogen throughout the analysed period ranged from 76.9–84.4%. Total phosphorus was eliminated from wastewater with an effectiveness of 96.4–98.0%. Such high reduction level was caused by the application of additional precipitation process in the chambers of activated sludge reactor. The hydroponic plant in Szarvas (Organica technology) was characterised by a high effectiveness of reduction with respect to ammonium nitrogen: 92.0–93.0%, while the reduction of total phosphorus fell into the range 49.3–55.3%.
Rocznik
Strony
128--134
Opis fizyczny
Bibliogr. 18 poz., tab., rys.
Twórcy
autor
  • Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, 50-363 Wrocław, Grunwaldzki Square 24, Poland
autor
  • Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, 50-363 Wrocław, Grunwaldzki Square 24, Poland
  • Wrocław University of Environmental and Life Sciences, Institute of Environmental Engineering, 50-363 Wrocław, Grunwaldzki Square 24, Poland
Bibliografia
  • 1. Adrover M. et al. 2013. Use of hydroponics culture to assess nutrient supply by treated wastewater. Journal of Environmental Management 127, 162–165.
  • 2. Asao T. 2012. Hydroponics – a standard methodology for plant biological researches. InTech Croatia, pp. 244.
  • 3. Canter L.W. and N. Harfouche, 2000. Sources and Characteristics. In: D.H.F. Liu and and B.G. Liptak (Eds.) Wastewater Treatment. Lewis Publishers, New York, 114–142.
  • 4. Dębska A., Jóźwiakowski K., Gizińska-Górna M., Pytka A., Marzec M., Sosnowska B., Pieńko A. 2015. The fficiency of pollution removal from domestic wastewater in constructed wetland systems with vertical flow with common reed and glyceria maxima. Journal of Ecological Engineering, 16(5), 2015, 110–118.
  • 5. Ebrahimi A. et al. 2013. Efficiency of Constructed Wetland Vegetated with Cyperus alternifolius Applied for Municipal Wastewater Treatment. Journal of Environmental and Public Health, Vol. 2013, 1–5.
  • 6. Parzych A.E., Cymer M., Jonczak J., Szymczyk S. 2015. The ability of leaves and rhizomes of aquatic plants to accumulate macro- and micronutrients. Journal of Ecological Engineering 16(3), 198–205.
  • 7. Shelef O. et al. 2013. Role of Plants in a constructed wetland: Current and new perspectives. Water, 5, 405–419.
  • 8. Jordanowska J., Jakubus M. 2013. Ładunki zanieczyszczeń oraz efektywność oczyszczania ścieków komunalnych z rejonu Wrześni na przestrzeni lat. Nauka Przyr. Technol. 7, 3, #32 (in Polish).
  • 9. Keeratiurai P. 2013. Efficiency of wastewater treatment with hydroponics. ARPN Journal of Agricultural and Biological Science, 8(12), 800–805.
  • 10. Monnet F., Vaillant N., Hitmi A., Vernay P., Coudret A., Sallamon H. 2002. Treatment of domestic wastewater using the nutrient film technique (NF) to produce horticultural roses. Water Research, 36, 3489–3496.
  • 11. Oyama, N., Nair, J., Ho, G.E., 2005. Recycling of treated domestic effluent from an onsite wastewater treatment system for hydroponics. Water. Sci. Technol. 51(10), 220–221.
  • 12. Rababah A.A., Ashbolt N.J. 2000. Innovative production treatment hydroponic farm for primary municipal sewage utilization. Water Research 34(3), 825–834.
  • 13. Sadecka Z., Waś J. (2007. Procesy tlenowo - beztlenowe w cyrkulacyjnym przepływowym reaktorze biologicznym. Oczyszczanie ścieków i przeróbka osadów ściekowych, red. Z. Sadecka, S. Myszograj – Zielona Góra. Oficyna Wydaw. Uniwersytetu Zielonogórskiego, 71–78.
  • 14. Snow, A.M., Ghaly, A.E., 2008. Use of barley for purification of aquaculture wastewater in a hydroponics system. Am. J. Environ. Sci. 4, 89–102.
  • 15. Vaillant N., Monnet F., Sallamon H., Coudret A., Hitmi A. 2003. Treatment of domestic wastewater by an hydroponic NFT system. Chemosphere 50, 121–129.
  • 16. Warężąk T. et al. 2013. Skuteczność oczyszczania ścieków w oczyszczalni hydrofitowej typu VF-CW. Rocznik Ochrona Środowiska 2013, tom 15, 1243–1259 (in Polish).
  • 17. Wójcik A.W. 2010. Landfill leachate treatment using constructed wetland with short detention time. Archives of Environmental Protection 36(3), 51–58.
  • 18. Zawałek T. 2010. Czy oczyszczalnia ścieków może być bardziej Eko? Forum Eksploatatora, 11- 12, 36–38 (in Polish).
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e4366866-29dc-4b68-a993-3309835770f2
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