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Concept of a New Technological System of a Biological Reactor in a Wastewater Treatment Plant in Nowy Targ in Terms of the Current Quantity and Quality of Wastewater – Case Study

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The objective of the work was to design a biological reactor in the Bardenpho system as an alternative to the SBR biological reactor in the wastewater treatment plant in Nowy Targ. The technological system of the newly designed biological reactor was adapted to the existing reinforced concrete structure. The design of individual nitrification, denitrification, predenitrification and dephosphatation chambers was developed on the basis of actual data on the volume of influent sewage and its pollutant loads. The newly designed technological system of the Bardenpho type biological reactor guarantees high efficiency in the elimination of organic and biogenic compounds from wastewater. Within operational guidelines, it is proposed to gradually eliminate the inflow of foreign waters to the sewage system by removing the illegally connected roof gutters. Moreover, it is recommended to strictly control the volume of the fur-plant industrial sewage discharged into the sewage system.
Słowa kluczowe
Rocznik
Strony
39--46
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
  • Department of Sanitary Engineering and Water Management, University of Agriculture of Krakow
  • Department of Sanitary Engineering and Water Management, University of Agriculture of Krakow
Bibliografia
  • 1. Bergel T. 2017. Practical implication of tap water consumption structure in rural households. Journal of Ecological Engineering, 18(1), 231–237.
  • 2. Bergel T., Młyńska A. 2021. Analysis of the Impact of the Air Temperature on Water Consumption for Household Purposes in Rural Households. Journal of Ecological Engineering, 22(3), 289–302.
  • 3. Bugajski P., Nowobilska-Majewska, E., Kurek K. 2017. The variability of pollution load of organic, biogenic and chromium ions in wastewater inflow to the treatment plant in Nowy Targ. Journal of Water and Land Development, 35(X–XII), 11–17.
  • 4. Bugajski P., Nowobilska-Majewska E. 2019. A Weibull Analysis of the Reliability of a Wastewater Treatment Plant in Nowy Targ, Poland. Rocznik Ochrony Środowiska, 21, 825–840.
  • 5. Bugajski P., Operacz A., Młyński D., Wałęga A., Kurek K. 2020. Optimizing Treatment of Cesspool Wastewater at an Activated Sludge Plant. Sustainability, 12, 10196;
  • 6. Dymaczewski i in. 2011. The Manual for Operators of Wastewater Treatment Plant. PZITS o/Wielkopolski, Poznań 2011 (in Polish).
  • 7. Jóźwiakowska K., Marzec M. Efficiency and reliability of sewage purification in long-term exploitation of the municipal wastewater treatment plant with activated sludge and hydroponic system. Arch. Environ. Prot., 46(3) 2020 30–41.
  • 8. Kaczor G. 2009. Concentrations of the pollutants in the sewage drained from the rural sewerage systems in lesser Poland voivodeship. Infrastruktura i Ekologia Terenów Wiejskich, 9, 97–104 (in Polish).
  • 9. Kaczor, G., Bugajski, P. 2012. Impact of Snowmelt Inflow on Temperature of Sewage Discharged to Treatment Plants. Polish Journal Environmental Studies, 21, 381–386.
  • 10. Kaczor, G., Chmielowski, K., Bugajski, P. 2017. The effect of total annual precipitation on the volume of accidental water entering sanitary sewage system. Rocznik Ochrona Środowiska. 19, 668–681 (in Polish).
  • 11. Kaczor G. 2020. Changes in concentrations and loads of total phosphorus in domestic and treated wastewater over a 15-year observation period in terms of limiting negative anthropopressure on the quality of surface water – case study. Acta Sci. Pol. For. Circum. 19 (2), 3–14.
  • 12. Karamus Ł. 2018. Wastewater treatment plants and their exploitation. Wydawnictwo Kabe, ISBN: 978–83–65382–19–1, 232 (In Polish).
  • 13. Meriç S., Kaptan D., Övez S., Okten H. E. 2002. Operational problems in small wastewater treatment plants: a case study. Fresenius Environmental Bulletin, 11(10b), 910–914.
  • 14. Młyński D., Chmielowski K., Młyńska A. 2016. Analysis of hydraulic load of a wastewater treatment plant in Jasło. J. Water Land Develop. 28 (I– III), 61–67.
  • 15. Miksch K., Sikora J. 2010. Wastewater biotechnology. Wydawnictwo Naukowe PWN, Warszawa (in Polish).
  • 16. Nowobilska-Majewska E. 2017. Analysis of variability of chrome ion concentration in wastewater inflowing to the collective treatment plant in Nowy Targ. Ecol. Eng., 18 30–35 (in Polish).
  • 17. Nowobilska-Majewska E., Bugajski P. 2019a. Influence of the amount of inflowing wastewater on concentrations of pollutions contained in the wastewater in the Nowy Targ sewerage system. E3S Web of Conferences 86, 00024 (2019). Ecological and Environmental Engineering 2018.
  • 18. Nowobilska-Majewska E., Bugajski P. 2019b. The Analysis of the Amount of Pollutants in Wastewater after Mechanical Treatment in the Aspect of their Susceptibility to Biodegradation in the Treatment Plant in Nowy Targ. Journal of Ecological Engineering, 20(8), 135–143.
  • 19. Nowobilska-Majewska E., Kotowski T., Bugajski P. 2020. Impact of atmospheric precipitation on the volume of wastewater inflowing to the treatment plant in Nowy Targ. E3S Web of Conferences 171, 01009 (2020).
  • 20. Nowobilska-Majewska E., Bugajski P. 2020. The Impact of Selected Parameters on the Condition of Activated Sludge in a Biologic Reactor in the Treatment Plant in Nowy Targ, Poland. Water, 12, 2657.
  • 21. Polish standards according limits for discharged sewage and environmental protection from July 12 (Dz. U. z dnia 15 lipca 2019, poz. 1311) (In Polish).
  • 22. Suchowska-Kisielewicz M., Sieciechowicz A., Sadecka Z. 2018. The efficiency of nitrogen compounds removal in wastewater treatment plant. Civil and Environmental Engineering Reports. 28 (3): 005–016.
  • 23. Szeląg, B., Barbusiński, K. 2020. Impact of the selected indicators of the wastewater quality and operating parameters of the biological reactor on the simulation of sludge sedimentation: Probabilistic approach. Desalination and Water Treatment, 186, 144–154.
  • 24. Takács, I. 2008. Experiments in Activated Sludge Modeling. Ph.D. Thesis, Ghent University, Ghent, Belgium, 267.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1e016659-814d-472d-b8fd-835d488ba9eb
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