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Assessment of the Prospects of Application of Sewage Sludge from Lviv Wastewater Treatment Plants for the Purpose of Conducting the Biological Reclamation

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The prospects of using the sewage sludge from Lviv wastewater treatment plants for biological reclamation was assessed. On the basis of the results of the monitoring of the qualitative and quantitative composition of sewage sludge accumulated in silt fields, the dependences of the distribution of sanitary-microbiological and ecological-chemical characteristics of the accumulated sludge were investigated. Agroecological laboratory studies on estimating the possibility of using sewage sludge in a mix with natural sorbents as a substrate for cultivation of plants was carried out.
Rocznik
Strony
134--143
Opis fizyczny
Bibliogr. 32 poz., rys.
Twórcy
  • Lviv City Utility Company "Lvivvodokanal", 64, Zelena Str., Lviv, 79017, Ukraine
autor
  • Center LTD Consulting, 1a/12, Lazarenka Str., Lviv, 79026, Ukraine
  • Lviv Polytechnic National University, Department of Ecology and Sustainable Environmental Management, 12, S. Bandery Str., Lviv, 79013, Ukraine
  • Lviv City Utility Company "Lvivvodokanal", 64, Zelena Str., Lviv, 79017, Ukraine
autor
  • Lviv Polytechnic National University, Department of Ecology and Sustainable Environmental Management, 12, S. Bandery Str., Lviv, 79013, Ukraine
  • Center LTD Consulting, 1a/12, Lazarenka Str., Lviv, 79026, Ukraine
  • Lviv Polytechnic National University, Department of Ecology and Sustainable Environmental Management, 12, S. Bandery Str., Lviv, 79013, Ukraine
  • Center LTD Consulting, 1a/12, Lazarenka Str., Lviv, 79026, Ukraine
Bibliografia
  • 1. Chen, H., Yan, S., Ye, Z., Meng, H., & Zhu, Y. 2012. Utilization of urban sewage sludge: Chinese perspectives. Environmental Science and Pollution Research, 19(5), 1454–1463. doi:10.1007/s11356–012–0760–0.
  • 2. Christodoulou, A., & Stamatelatou, K. 2016. Overview of legislation on sewage sludge management in developed countries worldwide. Water Science and Technology, 73(3), 453–462. doi:10.2166/wst.2015.521
  • 3. Di Bonito, M. 2008. Sewage sludge in europe and in the UK. environmental impact and improved standards for recycling and recovery to land. Environmental geochemistry: Site characterization, data analysis and case histories (pp. 251–286) doi:10.1016/B978–0-444–53159–9.00011–5
  • 4. DSTU ISO 11269–1: 2004 (2005). Soil quality. Determination of the effect of pollutants on soil flora. Part 1: Method for determining the inhibitory effect on root growth. Kyiv: State Standard of Ukraine, 15 p. [in Ukrainian]
  • 5. DSTU ISO 11269–2:2002 (2004). Soil quality. Determination of the effect of pollutants on soil flora. Part 2: The effect of chemicals on the germination and growth of higher plants. Kyiv: State Standard of Ukraine, 14 p. [in Ukrainian]
  • 6. Eurostat 2017. Sewage sludge disposal from urban wastewater treatment. Retrieved from https://ec.europa.eu/eurostat/statistics-explained/index.php?title=File:Sewage_sludge_disposal_from_urban_wastewater_treatment,_by_type_of_treatment,_2015_(%25_of_total_mass).png
  • 7. 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. doi:10.1016/j.jenvman.2017.05.068
  • 8. Fytili, D., & Zabaniotou, A. 2008. Utilization of sewage sludge in EU application of old and new methods – A review. Renewable and Sustainable Energy Reviews, 12(1), 116–140. doi:10.1016/j.rser.2006.05.014
  • 9. Guedes, P., Couto, N., Ottosen, L.M., & Ribeiro, A.B. 2014. Phosphorus recovery from sewage sludge ash through an electrodialytic process. Waste Management, 34(5), 886–892. doi:10.1016/j.wasman.2014.02.021.
  • 10. Horova, A. & Kulyna, S. 2008. Estimation of toxic of soils in the chervonograd mining region with the use bioindication method. Visnyk of Lviv University. Biological series, 48, 189–194. Retrieved from http://publications.lnu.edu.ua/bulletins/index.php/biology/article/view/9215/9186 [in Ukrainian]
  • 11. Inglezakis, V. J., Zorpas, A. A., Karagiannidis, A., Samaras, P., Voukkali, I., & Sklari, S. 2014. European union legislation on sewage sludge management. Fresenius Environmental Bulletin, 23(2 A), 635–639.
  • 12. Kacprzak, M., Neczaj, E., Fijałkowski, K., Grobelak, A., Grosser, A., Worwag, M., ... Singh, B.R. 2017. Sewage sludge disposal strategies for sustainable development. Environmental Research, 156, 39–46. doi:10.1016/j.envres.2017.03.010
  • 13. Kievvodokanal 2018. Project “Reconstruction of Bortnytsia aeration station”. Retrieved from https://www.vodokanal.kiev.ua/rek-bsa/ [in Ukrainian]
  • 14. Kizyeyev, М.D., Osadchy, V.F., & Osadchy, О.V. 2016. Investment project for the reconstruction of sewage treatment plants and the construction of a biogas production plant in Lviv. Series Theory and Building Practice, 844, 103–112. (in Ukrainian).
  • 15. Krüger, O., Adam, C. 2015. Recovery potencial of German sewage sludge ash. Waste Management, 45, 400–406.
  • 16. Lvivvodokanal 2018. Lviv Wastewater Biogas Project. Retrieved from http://lvivvodokanal.com.ua/aboutus/environment/sewagesludge/ [in Ukrainian]
  • 17. Malovanyy M., Moroz O., Hnatush S., Maslovska O., Zhuk V., Petrushka I., Nykyforov V., & Sereda A. 2019. Perspective technologies of the treatment of the wastewaters with high content of organic pollutants and ammoniacal nitrogen. Journal of Ecological Engineering, 20(2), 8–15. doi:10.12911/22998993/94917
  • 18. Malovanyy M., Palamarchuk O., Trach I., Petruk H., Sakalova H., Soloviy Kh., Vasylinych T., Tymchuk I., & Vronska N. 2020. Adsorption extraction of chromium ions (III) with the help of bentonite clays. Journal of Ecological Engineering, 21(7), 178–185. doi:10.12911/22998993/125545
  • 19. Malovanyy, M., Shandrovych, V., Malovanyy, A., & Polyuzhyn, I. 2016. Comparative analysis of the effectiveness of regulation of aeration depending on the quantitative characteristics of treated sewage water. Journal of Chemistry, 2016 doi:10.1155/2016/6874806
  • 20. Mininni, G., Blanch, A.R., Lucena, F., & Berselli, S. 2015. EU policy on sewage sludge utilization and perspectives on new approaches of sludge management. Environmental Science and Pollution Research, 22(10), 7361–7374. doi:10.1007/s11356–014–3132–0
  • 21. Moroz, O.M., Hnatush, S.O., Maslovska, O.D., Yavorska, G.V., & Borsukevych, B.M. 2020. Reduction of sulfur and oxidized forms of nitrogen by bacteria of desulfuromonas sp., isolated from yavorivske lake, under the influence of ferrum citrate. Biosystems Diversity, 28(1), 53–59. doi:10.15421/012009
  • 22. Nebesnyi, R.V., Sydorchuk, V.V., Ivasiv, V.V., Khalameida, S.V., Orobchuk, O.M., Pavliuk, A.S., & Tsymbalista, O.V. 2020. Effect of support nature on physicochemical characteristics and catalytic properties of B-P-V-W-ox oxide compositions in the condensation reaction by acetic acid with formaldehyde. Theoretical and Experimental Chemistry, doi:10.1007/s11237–020–09658-y
  • 23. Pavšič, P., Mladenovič, A., Mauko, A., Kramar, S., Dolenec, M., Vončina, E., ... Bukovec, P. 2014. Sewage sludge/biomass ash based products for sustainable construction. Journal of Cleaner Production, 67, 117–124. doi:10.1016/j.jclepro.2013.12.034.
  • 24. Petruk, V., Vasylkivskyi, I., Bezvoziuk, I., Petruk, R., & Turchyk, P. 2013. Environmental technologies. Part three. Methods of sewage sludge treatment. 324 p. Retrieved from http://vasilkivskiy.vk.vntu.edu.ua/file/86d4ec3cd547e516d3223cc00 edbbc39.pdf [in Ukrainian]
  • 25. Shchur, I., & Biletskyi, Y. 2019. Passivity-based control of hybrid energy storage system with common battery and modular multilever DC-DC converterbased supercapacitor packs. Paper presented at the 2019 IEEE 20th International Conference on Computational Problems of Electrical Engineering, CPEE 2019, doi:10.1109/CPEE47179.2019.8949174
  • 26. Twardowska, I., Schramm, K.-W., & Berg, K. 2004. Sewage sludge. Waste Management Series (pp.239– 295) doi:10.1016/s0713–2743(04)80013–8.
  • 27. Tyagi, V. K., & Lo, S.-L. 2013. Sludge: A waste or renewable source for energy and resources recovery? Renewable and Sustainable Energy Reviews, 25, 708–728. doi:10.1016/j.rser.2013.05.029
  • 28. Tymchuk, I., Shkvirko, O., Sakalova, H., Malovanyy, M., Dabizhuk, T., Shevchuk, O., Matviichuk O., Vasylinych, T. 2020. Wastewater a source of nutrients for crops growth and development. Journal of Ecological Engineering, 21(5), 88–96. doi:10.12911/22998993/122188
  • 29. Werle, S. 2015. Sewage sludge-to-energy management in eastern europe: A polish perspective. Ecological Chemistry and Engineering S, 22(3), 459–469. doi:10.1515/eces-2015–0027.
  • 30. Xu, C., Chen, W., & Hong, J. 2014. Life-cycle environmental and economic assessment of sewage sludge treatment in china. Journal of Cleaner Production, 67, 79–87. doi:10.1016/j.jclepro.2013.12.002
  • 31. Yang, G., Zhang, G., & Wang, H. 2015. Current state of sludge production, management, treatment and disposal in china. Water Research, 78, 60–73. doi:10.1016/j.watres.2015.04.002.
  • 32. Zelenko, Y., Malovanyy, M., & Tarasova, L. 2019. Optimization of heat-and-power plants water purification. Chemistry and Chemical Technology, 13(2), 218–223. doi:10.23939/chcht13.02.218
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-2fa6b7d4-a6d2-4ba1-97cd-9c3f9676e6f4
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