1. EP
  2. Всі випуски
  3. Випуск 8, Номер 1, 2023
  4. ENVIRONMENTALLY SAFE RECLAMATION OF SOLID WASTE LANDFILLS

ENVIRONMENTALLY SAFE RECLAMATION OF SOLID WASTE LANDFILLS

EP.
2023;
Випуск 8, Номер 1
: сс. 47-54
https://doi.org/10.23939/ep2023.01.047
Автори:
  1. Ruslan Grechanik
  2. Myroslav Malovanyy
  3. Mariia Korbut
  4. Kateryna Petrushka
  5. Liubov Luchyt
  6. Ruslan Boyko
  7. Serhiy Synelnikov
  8. Ihor Bordun
1
Ministry of Environmental Protection and Natural Resources of Ukraine
2
Lviv Polytechnic National University
3
Zhytomyr Polytechnic State University
4
Lviv Polytechnic National University
5
Lviv Polytechnic National University
6
Lviv Polytechnic National University
7
Lviv Polytechnic National University
8
Czestochowa University of Technology, Department of Electrical Power Engineering

The main stages of the reclamation of solid waste landfills have been considered. The processes that limit ensuring the ecological safety of reclamation have been identified. In particular, three stages that may be hazardous for the environment have been highlighted: leachate treatment, preparation of soil or substrate for biological reclamation, and preparation of seeds and planting material. Leachate treatment by the aeration method in an aerated lagoon is recommended. The prospect of using such a process has been investigated in laboratory conditions. To ensure the prolonged release of nutrients in the reclamation layer, it is suggested to use encapsulated fertilizers. The effectiveness of the encapsulated fertilizer covered with a PET shell has been studied. For afforestation using high-quality planting material, the use of in vitro microcloning technology is proposed. The perspective of the method is shown in the example of microcloning of the white mulberry Morus alba L.

reclamation
solid waste landfills
Leachate
aerated lagoon
encapsulated fertilizers
substrate
microcloning

1. Agarwal, S., Kanwar, K., & Sharma, D.R. (2004). Factors affecting secondary somatic embryogenesis and embryo maturation in Morus alba L. Scientia Нorticulturae, 102(3), 359-368. doi: https://doi.org/10.1016/j.scienta.2004.04.002

https://doi.org/10.1016/j.scienta.2004.04.002

2. Ahmad, P., Sharma, S., & Srivastava, P.S. (2007). In vitro selection of NaHCO3 tolerant cultivars of Morus alba (Local and Sujanpuri) in response to morphologicaland biochemical parameters. Hortticultural Science (Prague), 34, 114-122. doi: https://doi.org/10.17221/1889-HORTSCI

https://doi.org/10.17221/1889-HORTSCI

3. Anis, М., Faisal, M., & Singh, S.K. (2003). Micropropagation of mulberry (Moms alba L.) through in vitro culture of shoot tip and nodal explants. Plant Tissue Culture & Biotechnology, 13(1), 47-51. Retrieved from https://www.baptcb.org/public/article/ptc13_1_06.pdf

4. Balakrishnan, V., Ram Latha, M., Ravindran, K.C., & Robinson, J. Philip (2009). Clonal propagation of Morus alba L. through nodal and axillary bud explants. Botany Research International, 2(1), 42-49. Retrieved from http://idosi.org/bri/2(1)09/8.pdf

5. Barbosa, E.S., Agramonte, D., Barbon, R., Jiminez, F., Collado, R.,  Purez, M., & Gutirrez,  O. (2005). Propagacien in vitro de Morus alba L. en medio de cultivo semiselido. Biotecnologia Vegetal, 5(2), 81-87. Retrieved from https://revista.ibp.co.cu/index.php/BV/rt/printerFriendly/448/html

6.  Benedetta, C., Germana, P., & Germana, M.A. (2007). In vitro response of two Sicilian genotypes of Moms (L.) through axillary bud culture. Caryologia: International Journal of Cytology, Cytosystematics and Cytogenetics, 60(1-2), 178-181. doi: https://doi.org/10.1080/00087114.2007.10589571

https://doi.org/10.1080/00087114.2007.10589571

7. Dushkyn, S.S., Kovalenko, A.N., Dehtyar, M.V., & Shevchenko, T.A. (2011). Resursosberehayushchye tekhnolohyy ochystky stochnkh vod. Kharkiv.

8. Eur-Lex (2008). Directive 2008/98/ec of the european parliament and of the council of 19 November 2008 on waste and repealing certain directives. Retrieved from https://eur-lex.europa.eu/legal-content/en/txt/?uri=celex:32008l0098

9. Gomez, E., Rani, D.А., Cheeseman, C.R., Deegan D, Wise M, & Boccaccini, A.R. (2009). Thermal plasma technology for the treatment of wastes. Journal of Hazardous Materials, 161, 614-626. doi: https://doi.org/10.1016/j.jhazmat.2008.04.017

https://doi.org/10.1016/j.jhazmat.2008.04.017

10. Gospodarenko, H.M. (2002). Osnovy intehrovanoho zastosuvannia dobryv. Kyiv : ZAT ”Nichlava”.

11. Gumnytskyi, Ya.M., Liuta, O.V., Sabadash, V.V. (2006). Rehuliuvannia shvydkosti vyvilnennia komponentiv z kapsulovanykh mineralnykh dobryv. Visnyk NU «Lvivska politekhnika» Khimiia, tekhnolohiia rechovyn ta yikh zastosuvannia. 553, 187-190.

12. Kaminskyi, V.F., Saiko, V.F., & Shevchenko, I.P. (2012). Suchasni systemy zemlerobstva i tekhnolohii vyroshchuvannia silskohospodarskykh kultur. Kyiv : “Edelveis”.

13. Malovanyy, M., Zhuk, V., Sliusar, V., & Sereda, A. (2018). Two stage treatment of solid waste leachates in aerated lagoons and at municipal wastewater treatment plants. Eastern-European Journal of Enterprise, Technologies, 1(10), 23-30. doi: https://doi.org/10.15587/1729-4061.2018.122425

https://doi.org/10.15587/1729-4061.2018.122425

14. Mashal, A., Abu-Daherieh, J., & Graham, W. (2012). Landfill leachate treatment using plasma-Fenton’s process. In Sixth Jordan International Chemical Engineering Conference, Amman, Jordan, 256-259.

15. Nahurskyi, O.A.(2012). Zakonomirnosti kapsuliuvannia rechovyn u stani psevdo zridzhennia ta yikh dyfuziinoho vyvilnennia. Monohrafiia. Lviv: Vydavnytstvo Lvivskoi politekhniky.

16. Polihony tverdykh pobutovykh vidkhodiv. Osnovni polozhennia proektuvannia, DBN В.2.4-2-2005 (2005).

17. Pro upravlinnia vidkhodamy: Zakon Ukrainy 2022, № 2804-IX (2022). Retrieved from https://zakon.rada.gov.ua/laws/show/2320-20#Text

18. Yakist vody. Vidbyrannia prob, 6 DSTU ISO 5667-6:2009 (2012).