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Biological Reclamation Using a Sewage Sludge-Based Substrate – A Way to Ensure Sustainable Development of Urban Areas

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The monitoring studies were carried out on the territory of the Lviv wastewater treatment plants. The volumes of accumulated stocks of the sludge site were determined, its qualitative and quantitative indicators were identified, and the presence of limiting factors was established. On the basis of the obtained data, the 2-D models characterizing the vertical and horizontal accumulation of elements were created. The mioindication studies were conducted to determine the feasibility of using sewage sludge as a growth substrate. Modeling was performed to determine the potential area of reclaimed land.
Twórcy
autor
  • Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
  • Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
autor
  • Center LTD Consulting 1a/12, Lazarenka Str., Lviv, 79026, Ukraine
  • Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
  • Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
Bibliografia
  • 1. Bień J.D., Bień B. 2015. Zagospodarowanie komunalnych osadów ściekowych metodami termicznymi w obliczu zakazu składowania po 1 stycznia 2016. Inzynieria Ekologiczna, 45, 36–43.
  • 2. Blöcher C., Niewersch C., Melin T. 2012. Phosphorus recovery from sewage sludge with a hybrid process of low pressure wet oxidation and nanofiltration. Water Research, 46(6), 2009–2019. DOI: 10.1016/j.watres.2012.01.022
  • 3. Council Directive of 12 June 1986 on the protection of the environment, and in particular of the soil, when sewage sludge is used in agriculture (86/278/EEC) / Official journal of the European communities. L 181/6.– 4.7. 86.
  • 4. Fedoryshyn R., Matiko F., Pistun Y. 2008. Prospects for improving the accuracy of natural gas accounting and for reducing gas unbalances. Paper presented at the Annals of DAAAM and Proceedings of the International DAAAM Symposium, 485–486.
  • 5. Fijalkowski K., Rorat A., Grobelak A., Kacprzak M.J. 2017. The presence of contaminations in sewage sludge – The current situation. Journal of Environmental Management, 203, 1126–1136.
  • 6. Inglezakis V.J., Zorpas A.A., Karagiannidis A., Sklari S. 2014. European Union legislation on sewage sludge management. Fresenius Environmental Bulletin, 23(2A), 635–639.
  • 7. Kacprzak M., Neczaj E., Fijałkowski K., Grobelak A., Grosser A., Worwag M., Singh B. 2017. Sewage sludge disposal strategies for sustainable development. Environmental Research, 156, 39–46.
  • 8. Kalogo Y., Monteith H. 2012. Energy and Resource Recovery from Sludge. IWA Publishing. 11. DOI: 10.2166/9781780404653
  • 9. Mininni G., Blanch A.R., Lucena F., Berselli S. 2014. EU policy on sewage sludge utilization and perspectives on new approaches of sludge management. Environmental Science and Pollution Research, 22(10), 7361–7374.
  • 10. Nykyforov V., Malovanyy M., Kozlovska T., Novokhatko O., Digtiar S. 2016 Eastern-European Journal of Enterprise Technologies, 5(10), 11. DOI: 10.15587/1729-4061.2016.79789
  • 11. Savchyn I., Lozynskyi V., Petryk Y., Marusazh K. 2020. Geodetic monitoring of the protective dam of the Lviv MSW landfill after reconstruction. Paper presented at the Geoinformatics 2020 - XIXth International Conference, Geoinformatics: Theoretical and Applied Aspects.
  • 12. Sehin T.B., Hnatush S.O., Maslovska O.D., Halushka A.A., Zaritska Y.H. 2020. Biochemical indicators of green photosynthetic bacteria chlorobium limicola response to Cu2+ action. Ukrainian Biochemical Journal, 92(1), 103–112. DOI: 10.15407/ubj92.01.103
  • 13. Shapoval S., Shapoval P., Zhelykh V., Pona O., Spodyniuk N., Gulai B., Savchenko O., Myroniuk K. 2017. Ecological and energy aspects of using the combined solar collectors for low-energy houses. Chemistry and Chemical Technology, 11(4), 503–508.
  • 14.Tymchuk I., Malovanyy M., Shkvirko O., Yatsukh K. 2021b. Sewage sludge as a component to create a substrate for biological reclamation. Ecological Engineering and Environmental Technology, 22(4), 101–110.
  • 15. Tymchuk I., Malovanyy M., Shkvirko O., Chornomaz N., Popovych O., Grechanik R., Symak D. 2021a. Review of the global experience in reclamation of disturbed lands. Ecological Engineering and Environmental Technology, 22(1), 24–30.
  • 16. Tymchuk I., Malovanyy M., Shkvirko O., Vankovych D., Odusha M., Bota O. 2020. Monitoring of the condition of the accumulated sludge on the territory of Lviv wastewater treatment plants. Conference Proceedings of International Conference of Young Professionals, GeoTerrace-2020, V. 2020, 1–5. DOI: 10.3997/2214-4609.20205714
  • 17. Vankovyñh D., Bota O., Malovanyy M., Odusha M., Tymchuk I., Sachnyk I., Shkvirko O., Garasymchuk V. 2021. Assessment of the prospects of application of sewage sludge from Lviv wastewater treatment plants for the purpose of conducting the biological reclamation. Journal of Ecological Engineering, 22(2), 134–143. DOI: 10.12911/22998993/130892
  • 18. Yatsuk I.P., Baliuk S.A. 2013. Methods of agrochemical certification of agricultural lands, 104.
  • 19. Zhou K., Barjenbruch M., Kabbe C., Inial G., Remy C. 2017. Phosphorus recovery from municipal and fertilizer wastewater: China’s potential and perspective. Journal of Environmental Sciences, 52, 151–159. DOI: 10.1016/j.jes.2016.04.010
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a49eeda1-1938-4a30-9022-0b346434f3a1
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