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The article deals with the main methods of nutrient removal from wastewater, as well as presents promising technologies and techniques. Struvite was characterized by a complex phosphorus fertilizer. The influence of struvite on the processes of germination of cultivated plants was investigated. The possibility of creating a growth substrate as an inexpensive and effective alternative to the disposal of the man-made wastes that contain an organic component was identified. The composition of the growth substrate was selected to ensure its functional properties. The growth substrate was tested by bioindication. Subsequently, the modification of the substrate by adding natural sorbents.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
88--96
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
autor
- Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
autor
- Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
autor
- Natural Sciences and Geography Faculty, Vinnytsia Mykhailo Kotsiubynskyi State Pedagogical University, Vinnytsia, Ukraine
autor
- Viacheslav Chornovil Institute of Sustainable Development, Lviv Polytechnic National University, S. Bandera Str. 12, Lviv, 79013, Ukraine
autor
- Natural Sciences and Geography Faculty, Vinnytsia Mykhailo Kotsiubynskyi State Pedagogical University, Vinnytsia, Ukraine
autor
- Natural Sciences and Geography Faculty, Vinnytsia Mykhailo Kotsiubynskyi State Pedagogical University, Vinnytsia, Ukraine
autor
- Natural Sciences and Geography Faculty, Vinnytsia Mykhailo Kotsiubynskyi State Pedagogical University, Vinnytsia, Ukraine
autor
- Natural Sciences and Geography Faculty, Vinnytsia Mykhailo Kotsiubynskyi State Pedagogical University, Vinnytsia, Ukraine
Bibliografia
- 1. 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.
- 2. Cieślik, B., & Konieczka, P. 2017. A review of phosphorus recovery methods at various steps of wastewater treatment and sewage sludge management. The concept of “no solid waste generation” and analytical methods. Journal of Cleaner Production, 142, 1728–1740.
- 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, 251–286.
- 4. De Vrieze, J., Smet, D., Klok, J., Colsen, J., Angenent, L. T., & Vlaeminck, S. E. 2016. Thermophilic sludge digestion improves energy balance and nutrient recovery potential in full-scale municipal wastewater treatment plants. Bioresource Technology, 218, 1237–1245.
- 5. Du, H., & Li, F. 2017. Characteristics of dissolved organic matter formed in aerobic and anaerobic digestion of excess activated sludge. Chemosphere, 168, 1022–1031.
- 6. Gryshko, V.M., & Korinovskaya, O.N. 2015. Influnce of organo-mineral fertilizers on the basis of precipitation of sewage on micromycetes cenosis. Gruntoznavstvo, 16 (1–2), 75–81.
- 7. Havukainen, J., Nguyen, M. T., Hermann, L., Horttanainen, M., Mikkilä, M., Deviatkin, I., & Linnanen, L. 2016. Potential of phosphorus recovery from sewage sludge and manure ash by thermochemical treatment. Waste Management, 49, 221–229.
- 8. Horodnii, M.M. 2013. Problems of using sewage sludge for fertilizer production. Visnyk ahrarnoi nauky, 9, 45–50. (in Ukrainian).
- 9. Jin, L., Zhang, G., & Tian, H. 2014. Current state of sewage treatment in China. Water Research, 66, 85–98.
- 10. Johnson, O. A., Napiah, M., & Kamaruddin, I. 2014. Potential uses of Waste Sludge in Construction Industry: A Review. Research Journal of Applied Sciences, Engineering and Technology, 8(4), 565–570.
- 11. Кanda, М., Malovanyy, M., Tymchuk, I., Оdnorih, Z. 2019. Evaluation of the degree of environmental hazard from environmental pollution in the area of poultry farms impact. Environmental Problems, 4(3), 161–166.
- 12. Kalogo, Y., & Monteith, H. (2012). Energy and Resource Recovery from Sludge. Water Intelligence Online, 11.
- 13. Malovanyy, M., Nikiforov, V., Kharlamova, O., Synelnikov O. 2016. Production of renewable energy resources via complex treatment of cyanobacteria biomass. Chemistry & Chemical Technology, 10(2), 251–254.
- 14. Myroslav Malovanyy et al. 2019a. 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.
- 15. Malovanyy, M., Sakalova, H., Vasylinych, T., Kryklyvyi, R. 2019b. The Research on the Ammonium Concentrations in City Stocks and Further Sedimentation of Ion-Exchange Concentrate. Journal of Ecological Engineering, 20(1), 158–164.
- 16. Martinez-Garcia, C., Eliche-Quesada, D., PerezVillarejo, L., Iglesias-Godino F. J., & Corpas-Iglesias, F. A. 2012. Sludge valorization from wastewater treatment plant to its application on the ceramic industry. Journal of Environmental Management, 95, 343–348.
- 17. Matsumiya, Y. 2014. Green Energy Production from Municipal Sewage Sludge in Japan, Japan Sewage Works Association.
- 18. Mayer, B. K., Baker, L. A., Boyer, T. H., Drechsel, P., Gifford, M., Hanjra, M. A., Rittmann, B. E. 2016. Total Value of Phosphorus Recovery. Environmental Science & Technology, 50(13), 6606–6620.
- 19. McGrown, S.L., Basta, N.T., & Brown, G.O. 2001. Use of diammonium phosphate to reduce heavy metal solubility and transport in smelter-contaminated soil: Journal of Environmental Quality, 30(2), 493–500.
- 20. 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.
- 21. Munir, M. T., Li, B., Boiarkina, I., Baroutian, S., Yu, W., & Young, B. R. 2017. Phosphate recovery from hydrothermally treated sewage sludge using struvite precipitation. Bioresource Technology, 239, 171–179.
- 22. Sakalova, G., Vasylinych, T., Shevchuk, O., Tkachuk O. 2018. Perspectives of integration the technology of ion-exchanging ammonium extraction from the system of municipal drain water purification. Ukrainian Journal of Ecology, 8(1), 568–571.
- 23. Sartorius, C., von Horn, J., & Tettenborn, F. 2011. Phosphorus Recovery from Wastewater – Stateof-the-Art and Future Potential. Proceedings of the Water Environment Federation, 2011(1), 299–316.
- 24. Seiple, T. E., Coleman, A. M., & Skaggs, R. L. 2017. Municipal wastewater sludge as a sustainable bioresource in the United States. Journal of Environmental Management, 197, 673.
- 25. Shiba, N. C., & Ntuli, F. 2017. Extraction and precipitation of phosphorus from sewage sludge. Waste Management, 60, 191–200.
- 26. Shkvirko, O., Tymchuk, I., & Malovanyy, M. 2018. The use of bioindication to determine the possibility of sludge recovery after biological treatment of wastewater. Environmental Problems, 3(4), 258–264.
- 27. Tyagi, V. K., & Lo, S.-L. 2013a. Microwave irradiation: A sustainable way for sludge treatment and resource recovery. Renewable and Sustainable Energy Reviews, 18, 288–305.
- 28. Tyagi, V. K. & Lo, S.-L. 2013b. Sludge: A waste or renewable source for energy and resources recovery? Renewable and Sustainable Energy Reviews, 25, 708–728.
- 29. Yuan, H., Lu, T., Wang, Y., Chen, Y., & Lei, T. 2016. Sewage sludge biochar: Nutrient composition and its effect on the leaching of soil nutrients. Geoderma, 267, 17–23.
- 30. 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.
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-d7f42f33-0f10-45b2-b992-e427d1b17e68