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The State and Needs of the Development of Water Supply and Sewerage Infrastructure in The Radzyń District

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents the current state of water supply and sewerage infrastructure and the need for its expanding in Radzyń district. The district is located in the northern part of Lublin Voivodeship in Poland. The following communes belong to Radzyń district: the municipal commune of Radzyń Podlaski and 7 rural communes: Borki, Czemierniki, Kąkolewnica, Komarówka Podlaska, Radzyń Podlaski, Ulan-Majorat, Wohyń. The data show that the water supply network in Radzyń district is well developed. The most significant percentage of the population using the water supply network has the rural commune of Radzyń Podlaski – 99.9%, while the smallest, commune Komarówka Podlaska – 54.5%. The survey showed that there was a very large disproportion between the development of the sewerage and water supply systems. The largest percentage of the population using the sewerage network has the municipal commune of Radzyń Podlaski – 99.7%. The smallest percentage of users of collective sewage disposal systems was recorded in the rural commune of Radzyń Podlaski (7.2%). The commune of UlanMajorat does not have a sewerage system. The survey conducted in 2016 shows that 8 collective wastewater treatment plants operated in Radzyń district at that time. The total capacity of the treatment plants is over 5,300 m3/d. In 2016, Radzyń district had about 1,000 household wastewater treatment plants. The presented data show that the condition of the sanitary infrastructure in rural communes of Radzyń district is unsatisfactory and requires the investment activities mainly aimed at expanding collective sewage disposal and treatment systems as well as developing a network of household wastewater treatment plants.
Rocznik
Strony
171--179
Opis fizyczny
Bibliogr. 28 poz., rys., tab.
Twórcy
  • Student Science Association of Water and Wastewater Management, University of Life Sciences in Lublin, Akademicka 13, 20-950 Lublin, Poland
  • Department of Environmental Engineering and Geodesy, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
  • Department of Environmental Engineering and Geodesy, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
  • Department of Environmental Engineering and Geodesy, University of Life Sciences in Lublin, Leszczyńskiego 7, 20-069 Lublin, Poland
Bibliografia
  • 1. AKPOŚK. 2017. Update of the National Municipal Wastewater Treatment Program. Państwowe Gospodarstwo Wodne Wody Polskie (in Polish).
  • 2. Błażejewski R., Nawrot T. 2009. How to seal the system for collecting and delivering liquid inaccuracies? Gaz, Woda i Technika Sanitarna, 9, 2–3 (in Polish).
  • 3. Board of the Radzyń District. 2019. Report on the condition of the Radzyń district in 2018 (in Polish).
  • 4. CSO. 2018. Municipal infrastructure in 2017. Warszawa (in Polish).
  • 5. District Office in Radzyń Podlaski. 2015a. Development strategy for the Radzyń district for 2015–2030. Annex 1 to Resolution No. XII/48/2015 of the Radzyń District Council of November 26, 2015 (in Polish).
  • 6. District Office in Radzyń Podlaski. 2015b. Program for the development of the Radzyń district for 2015–2022. Annex 2 to Resolution No. XII / 48/2015 of the Radzyń District Council of November 26, 2015 (in Polish).
  • 7. Heidrich Z., Stańko M. 2008. Directions of solu tions of wastewater treatment plants for rural set tlement units. Infrastruktura i Ekologia Terenów Wiejskich 5/2008, 169–177 (in Polish).
  • 8. http://www.polskawliczbach.pl/powiat_radzynski. access November 21, 2019. 21.20.
  • 9. Jawecki B., Marszałek J., Pawęska K., Sobota M., Malczewska B. 2016. Construction and Operation of Domestic Wastewater Treatment Plant under the Relevant Legislation. Part 1. Infrastruktura i Ekologia Terenów Wiejskich, II/2, 501–516 (in Polish).
  • 10. Jóźwiakowski K., Steszuk A., Pieńko A., Marzec M., Pytka A., Gizińska M., Sosnowska B., Ozonek J. 2014. Evaluation of the impact of wastewater treatment plants with drainage system on the quality of groundwater in dug and deep wells. Inżynieria Ekologiczna 39, 74–84 (in Polish).
  • 11. Jóźwiakowski K., Bugajski P., Kurek K., Nunes de Carvalho M. F, Araújo Almeida M. A., Siwiec T., Borowski G., Czekała W, Dach J, Gajewska M. 2018. The efficiency and technological reliability of biogenic compounds removal during long-term operation of a one-stage subsurface horizontal flow constructed wetland. Separation and Purification Technology 202, 216–226.
  • 12. Jóźwiakowski K., Bugajski P., Mucha Z., Wójcik W., Jucherski A., Natawny M. Siwiec T., Mazur A., Obroślak R., Gajewska M. 2017. Reliability of pollutions removal processes during long-term operation of one-stage constructed wetland with horizontal flow. Separation and Purification Technology 187, 60–66.
  • 13. Jucherski A., Nastawny M., Walczowski A., Jóźwiakowski K., Gajewska M. 2017. Assessment of the technological reliability of a hybrid constructed wetland for wastewater treatment in a mountain eco-tourist farm in Poland. Water Sci. Technol., No. 75, 2649–2658.
  • 14. Karolinczak B., Miłaszewski R., Sztuk A. 2015. Cost-effectiveness analysis of different technological variants of single-house sewage treatment plants. Rocznik Ochrona Środowiska, 17, 726–746 (in Polish).
  • 15. Kondracki J. 2002. Regional geography of Poland. PWN, Warszawa (in Polish).
  • 16. Marzec M., Jóźwiakowski K. 2007. Operational and environmental problems of the functioning of mini-sewage treatment plants with activated sludge. Polish Journal of Environmental Studies, Vol. 16, No 2A, Part III, 525–529.
  • 17. Marzec M., Jóźwiakowski K. 2010. Efficiency and operational conditions of on site sewage treatment plants with activated sludge. Zeszyty Problemowe Postępów Nauk Rolniczych, 547, 229–236 (in Polish).
  • 18. Marzec M. 2018. Technological reliability of utilization of biogenic pollutants in selected technologies used in small wastewater treatment plants. Przemysł Chemiczny, 97 (5), 753–757 (in Polish).
  • 19. Marzec M., Gizińska-Górna M., Jóźwiakowski K., Pytka-Woszczyło A., Kowalczyk-Juśko A., Gajewska M. 2019. The efficiency and reliability of pollutant removal in a hybrid constructed wetland with giant miscanthus and Jerusalem artichoke in Poland. Ecological Engineering, 127, 23–35.
  • 20. Micek A., Marzec M., Jóźwiakowska K., Pochwatka P. 2018. The condition of sanitary infrastructure in the Parczew district and the need for its development. Journal of Ecological Engineering, 19 (5), 107–115.
  • 21. Mucha Z., Mikosz J. 2009. Rational use of small wastewater treatment plants taking into account the sustainability criteria. Czas. Techn. Środowisko 106 (2), 91–100 (in Polish).
  • 22. Nowak R. 2012. Sewage holding tanks system – potential and real threat to the natural environment. Gaz, Woda i Technika Sanitarna, 6, 263–265 (in Polish).
  • 23. Pawełek J. 2016. Degree of Development and Functionality of the Water Supply and Sewage Systems in Rural Poland. Barometr Regionalny, 14 (1), 141–149.
  • 24. Pawełek J., Bugajski P. 2017. The development of household wastewater treatment plants in Poland – advantages and disadvantages. Acta Scientiarum Polonorum, Formatio Circumiectus, 16 (2), 3–14.
  • 25. Polish Norm PN-EN 12566–3:2016–10. 2016. Small wastewater treatment plants for a population calculation (OLM) up to 50 – Part 3: Container and / or home sewage treatment plants on site (in Polish).
  • 26. Statistical Office in Lublin. 2017a. Statistical Vademecum of the Local Government. Radzyń District – A statistical portrait of the territory. Lublin (in Polish).
  • 27. Statistical Office in Lublin. 2017b. Water supply and sewage management in the Lubelskie Voivodeship in 2016. Latest statistical news. Lublin (in Polish).
  • 28. Statistical Office in Lublin. 2018. Statistical Vademecum of the Local Government (in Polish).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-430ede9b-bd9c-4806-bef9-9a08ee3315d5
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