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Abstrakty
The authors analyzed the physicochemical parameters and heavy metals characterizing the wells at three different sites (nearby villages) in the area of KEC (Kosovo Energetic Corporation). The KEC power plants are the only ones in Kosovo that use fossil-fueled energy (lignite) for the production of the electricity. This process may pollute the environment through the release of airborne aerosols (contaminated with metals), ash (a part of its content that leaches in the underground waters), etc. This pollutes air, surface water, groundwater and soil. In addition, the coal exploitation activity as raw material for power plants, excavating from mining basins, conveyor belt transport, separation before combustion and other processes involving the formation of dust sources and coal particles in the air also contribute to the pollution. Thus, it is of utmost importance to evaluate the water quality of the wells that are used as drinkable water sources by the people that live in this industrial area.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
155--160
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
- University of Pristine “Hasan Pristina”, Faculty of Natural Sciences and Mathematics, Department of Chemistry, “Nëna Tereze” St., 10000, Pristina, Kosovo
autor
- Faculty of Agroecology and Agroenvironment, University of Peja, ‘’Haxhi Zeka’’ St., 30000, Pejë, Kosovo
Bibliografia
- 1. Demaku S., Shehu I., Jusufi S., Arbneshi T., Dobra B., 2011. Heavy Metals in Coal Ash, Soil, Water and Sludge near the Two Coal-Fired Power Stations in Kosovo. J. Int. Environmental Application & Science, Vol. 6, 412–416.
- 2. Kadriu S, Malollari I, Pula-Beqiri L, Aliu M, Sadiku M, Baruti B, Kelmendi M., 2017. Presence of heavy metals in water and sediment of rivers Trepça and Sitnica. Journal of Environmental Protection and Ecology 18(1), 10–21, Water Pollution.
- 3. Smołka-Danielowska S., 2006. Heavy Metals in Fly Ash from a Coal-Fired Power Station in Poland. University of Silesia, Faculty of Earth Sciences, ul. Będzińska 60, 41–200 Sosnowiec, Poland. Polish J. of Environ. Stud., 15(6), 943–946.
- 4. Jaguś A., Skrzypiec M., 2019. Toxic Elements in Mountain Soils (Little Beskids, Polish Carpathians). Journal of Ecological Engineering, 20(1), 197–202.
- 5. Verma Ch, Madan S, Hussein A., 2017. Heavy metal contamination of groundwater due to fly ash disposal of coal-fired thermal power plant, Parichha, Jhansi, India. Cogent Engineering, 3: 1179243.
- 6. Fulekar M.H, Naik D.S, Dave J.M., 2007. Heavy metals in Indian coals and corresponding fly ash and their relationship with particulate size. International Journal of Environmental Studies, 21, 2, 179–182, DOI: 10.1080/00207238308710074.
- 7. Bodík I., Kubaská M., 2013. Energy and Sustainability of Operation of a wastewater treatment plant. Environment Protection Engineering, 39(2). DOI: 10.5277/EPE130202.
- 8. Nagaraju A., Balaji E., Thejaswi A., 2016. Hydrogeochemical evaluation of groundwater in certain parts of vinukonda area, Guntur district, Andhra Pradesh, South India. Fresenius Enverionmental Bulletin, 25(5), 1520–1533.
- 9. Rauret G., 1997. Extraction procedures for the determination of heavy metals in contaminated soil and sediment. Talanta, 46, 449–455.
- 10. Fytianos K, Tsaniklidi. B, Voudrias. E., 1998. Leachability of heavy metals in Greek fly ash from coal Combustion. Pergamon. Environment International, 24(4), 477–486.
- 11. Szalinska E., Dobyrn K., 2018. Long-term changes in surface and groundwater quality in the area of a municipal landfill (Barycz, Poland). Environment Protection Engineering, 44(1), DOI: 10.5277/epe180108.
- 12. Fulekar M.H, Dave J.M., 2007. Release and behavior of Cr, Mn, Ni and Pb in a fly ash/soil/water environment: column experiment. International Journal of Environmental Studies, 38(4), 281–296.
- 13. Musliu M., Bilalli A., Durmishi B., Ismaili M., Ibrahimi H., 2018. Water Quality Assessment of the Morava e Binçës River Based on the Physicochemical Parameters and Water Quality Index. Journal of Ecological Engineering, 19(6), 104–112.
- 14. Nagajyoti P.C, Lee K.D, Sreekanth T.V.M., 2010. Heavy metals, occurrence and toxicity for plants: a review. Environ Chem Lett. 8, 199–216. DOI 10.1007/s10311–010–0297–8.Springer-Verlag.
- 15. Chirenje T., Rivero.C., Ma. L.Q., 2002. Leachability of Cu and Ni in wood ash-amended soil as impacted by humic and fulvic acid. The Global Journal of Soil Science. Geoderma 108, 31–47.
- 16. Vaverková M.D., Adamcová D., Zloch J., Radziemska M., Berg A.B., Voběrková S., Maxianová A., 2018. Impact of Municipal Solid Waste Landfill on Environment – A Case Study. Journal of Ecological Engineering, 19(4), 55–68.
- 17. Zhu R, Wu M, Yang J. 2011. Mobilities and leach abilities of heavy metals in sludge with humus soil. Journal of Environmental Sciences, 23(2), 247–254.
- 18. Canbay H.S., Doğantürk M., 2016. Metals determination by Microwave digestion ICP-OES of some dietary supplements and diet products in Turkey. Open Access Eurasian Journal of Analytical Chemistry, 45–50.
- 19. Drinking Water Parameter Cooperation Project., 2017. Support to the revision of Annex i Council Directive 98/83/EC on the Quality of Water Intended for Human Consumption (Drinking Water Directive). Bonn, 11 September.
- 20. Bradl H.B., 2005. Heavy Metals in the Environment. Interface science and technology – volume 6. University of Applied Sciences Trier Neubrucke, Germany. Elsevier academic press: Amsterdam – Boston – Heidelberg – London – New York – Oxford – Paris San Diego – San Francisco – Singapore – Sydney – Tokyo.
- 21. Chen J.P, Wang L.K, Wang M.H.S, Hung Y.T, Shammas N.K., 2017. Remediation of heavy metals in the environment. CRC Press Taylor & Francis Group 6000 Broken Sound Parkway NW, Suite 300 Boca Raton, FL 33487–2742.
- 22. Pendias A.K, Pendias H., 2000. Trace Elements in Soils and Plants, third edition, Pulawy, Warsaw, Poland, Unite 13.
- 23. Everitt B.S. and G. Dunn., 1992. Applied multivariate data analysis. Oxford University Press, New York.
- 24. Directive 2000/60/EC, 2000. Of the European Parliament and of the Council, of 23 October, establishing a framework for Community action in the field of water policy.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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