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Tytuł artykułu

Protecting and Securing an Environment Affected by Industrial Activity for Future Utilization

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Języki publikacji
EN
Abstrakty
EN
At the present time, there are many abandoned areas and places that are affected by extraction activity, but which continue to be of importance due to valuable mineral resources. This article deals with environmental protection for their future use in terms of potential mineral resources. The area of Ruskov in Eastern Slovakia is typical with its rich deposits of andesite. Currently, there is no extraction activity at the site. The problem is related to effectively securing and protecting the environment for future use. The aim of the article is to indicate the possibilities for securing and protecting the area. The procedure can be applied universally to similar types of areas. According to the physical and chemical analysis of the water sample, the water in the quarry is of a basic high magnesium-bicarbonate type. The total mineralization 375 mg/l, pH – 8.4, content of Na – 13.4 mg/l, Ca – 41.1 mg/l, Mg – 26.2 mg/l, Fe – 0.04 mg/l, Mn – 0.012 mg/l and in the hydrogeological investigation the mineralization of precipitation water ranged from 25.8 to 48.0 mg/l, pH 6.0-6 6. From the comparison of values for inflows to the pit of the old Ruskov quarry and the values of groundwater runoff in the volcanic massif, we can state that only a part (approx. 50%) of groundwater from the volcanic massif is involved in the inflow to the quarry. The greater part of the underground runoff flows in the local sub-system to the local erosion base, which is represented by the valley of the Bystré stream, or it joins the flow of the intermediate stream (Olšava valley, erosion base). In the previous extraction activity in the Old Quarry of Ruskov, as well as after it was flooded in August 2014, no adverse effects on the flow and groundwater regime were observed in the evaluated area. Based on the previous evaluation of the hydrogeological conditions of the area, we can state that after the interruption of extraction at the Ruskov – old quarry deposit and the termination of pumping of quarry water, there is no expected adverse influence on the flow and groundwater regime in the evaluated area.
Słowa kluczowe
Rocznik
Strony
98--111
Opis fizyczny
Bibliogr. 28 poz., tab., rys.
Twórcy
  • Technical University of Kosice, Slovakia
  • Technical University of Kosice, Slovakia
  • Technical University of Kosice, Slovakia
Bibliografia
  • 1. Adeli, A., Brooks, J.P., Read, J.J., Mcgrew, R., Jenkins, J.N. (2019). Post-reclamation Age Effects on Soil Physical Properties and Microbial Activity Under Forest and Pasture Ecosystems. Communications in Soil Science and Plant Analysis, 50(1), 20-34.
  • 2. Amirshenava, S., Osanloo, M. (2019). A hybrid semi-quantitative approach for impact assessment of mining activities on sustainable development indexes. Journal of Cleaner Production, 218(May), 823-834.
  • 3. Berger, R.V., Director, M., Fedoseev, V.V., Geologist, C., Saraskin, A.V. (2017). Stateof- the-art and prospects of mineral and raw materials supply base expansion at UGC Gold Mining Company in the South Ural Information about authors. Gornyi zhurnal, 2017(9), 6-11.
  • 4. Dobrovic, J., Gallo, P., Mihalcova, B., Stofova, L., Szaryszova, P. (2018). Competitiveness measurement in terms of the europe 2020 strategy. Journal of competitiveness, 10(4), 21-37.
  • 5. Drebenstedt, C., Alekseenko, A.V. (2018). Environmental impact of abandoned mine wastes on an urban area in new Caucasus. Innovation-Based Development of the Mineral Resources Sector: Challenges and Prospects – 11th conference of the Russian-German Raw Materials, Code 220109, 223-229.
  • 6. Fabian, V. (2017). Geoslovakia s.r.o., Ruskov – starý lom – hydrogeologický posudok, číslo úlohy: 2017-116, pp. 4. (Original in Slovak)
  • 7. Garcia-Ordiales, E., Roqueñí, N., Rico, J.M., Cienfuegos, P., Alvarez, R., Ordoñez, A.(2019). Assessment of the toxicity toward Vibrio fischeri in sediments of a mining impacted estuary in the north of Spain. Science of the Total Environment, 660(April), 826-833.
  • 8. Gridina, E.B., Andreev, R.E. (2018) Modern approach to formation and subsequent exploitation of technogenic deposits. International Review of Mechanical Engineering, 12(2), 170-175.
  • 9. Hummel, J.A., Ruiz, F.A., Kelafant, J.R. (2018). Quantifying the benefits of coal minemethane recovery and use projects: Case study on the application of in-minehorizontal pre-drainage boreholes at gassy coal mines in India and the optimizationof drainage system design using reservoir simulation. Environmental Technologyand Innovation, 10(May), 223-234.
  • 10. Laboš, P. (2017). PK Doprastav, a.s., Plán zabezpečenia lomu Ruskov I – Starý lom, pp.8. (Original in Slovak)
  • 11. Lipansky, T. (2017). Regional Impact of Uranium Mining on Piezometric Surfaces in aMulti-layered Water-bearing System, Bohemian Cretaceous Basin, Czech Republic.Mine water and the environment, 36(1), 4-17.
  • 12. Lopes, C., Lisboa, V., Carvalho, J., Mateus, A., Martins, L. (2018). Challenges to accessand safeguard mineral resources for society: A case study of kaolin in Portugal. LandUse Policy, 79(August), 263-284.
  • 13. Loučanová, E., Olšiaková, M. (2019). Distribution flow identification in cooperation andsupport for ecological innovation introduction in Slovak enterprises. Acta logistica, 6(1), 5-8.
  • 14. Marx, H., Wolff, J. (2018). Shaping the future of the Rhenish lignite-mining area. Worldof Mining – Surface and Underground, 70(4), 219-228.
  • 15. Perminova, O.M., Lobanova, G.A. (2018). A logistic approach to establishing balancedscorecard of Russian oil-producing service organizations. Acta logistica, 5(1), 1-6.
  • 16. Pospehov, G., Pankratova, K., Straupnik, I. (2018). Geoengineering researches for therestoration of the lands disturbed by mining operations. Engineering and Mining Geophysics 2018 – 14th Conference and Exhibition 2018, Code 137600, 2018.
  • 17. Rylnikova, M.V., Pytalev, I.A., Trushina, I.A. (2018). Project financing in the implementation of technical solutions for the sustainable development of mining enterprises. Sustainable Development of Mountain Territories, 10(3), 436-446.
  • 18. Sánchez-Sierra, S.T., Caballero-Morales, S.O., Sánchez-Partida, D., Martínez-Flores, J.L. (2018). Facility location model with inventory transportation and management costs. Acta logistica, 5(3), 79-86.
  • 19. Solovitskiy, A., Brel, O., Saytseva, A., Kaizer, P. (2018). Land-and-Ecological Problems of Kuzbass Mineral Resources Development. E3S Web of Conferences, Volume 41, Article number 02028, 2018.
  • 20. Soltysiak, M., Dabrowska, D., Slosarczyk, K. (2018). Natural and formal-legal aspect of the environmental impact assessment of the planned reclamation of mining damage in the szotkowka valley (Southern Poland). International Multidisciplinary Scientific Geo Conference Surveying Geology and Mining Ecology Management, SGEM, 18(5.4), Code 142900, 501-508.
  • 21. Straka, M., Cehlar, M., Khouri, S., Trebuna, P., Rosova, A., Malindzakova, M. (2016). Asbestos exposure and minimization of risks at its disposal by applying the principles of logistics. Przemysl Chemiczny, 95(5), 963-970.
  • 22. Trubetskoy, K., Rylnikova, M., Esina, E. (2017). Ensuring the Environmental and Industrial Safety in Solid Mineral Deposit Surface Mining. E3S Web of Conferences, Volume 21, Article number 02008, 2017.
  • 23. Vartanov, A.Z., Petrov, I.V., Fedash, A.V. (2017). Expansion of the Eurasian technical and economic cooperation in the sphere of hard mineral exploration, mining and processing. Gornyi Zhurnal, 2017(11), 14-17.
  • 24. Vartanov, A.Z., Petrov, I.V., Fedash, A.V. (2018). Risk-oriented provision of mining operations safety at the enterprises of mineral resources sector in Russia. IOP Conference Series: Earth and Environmental Science, 206(1), Article number 012014, 1-5.
  • 25. Vilamova, S., Besta, P., Kozel, R., Janovska, K., Piecha, M., Levit, A., Straka, M., Sanda, M. (2016). Quality quantification model of basic raw materials. Metalurgija, 55(3), 375-378.
  • 26. Vitel, M., Rouabhi, A., Tijani, M., Guerin, F. (2016). Thermo-hydraulic modeling of artificial ground freezing: Application to an underground mine in fractured sandstone. Computers and geotechnics, 75(May), 80-92.
  • 27. Xiao, W., Fu, Y., Wang, T., Lv, X. (2018). Effects of land use transitions due to underground coal mining on ecosystem services in high groundwater table areas: A case study in the Yanzhou coalfield. Land Use Policy, 71, 213-221.
  • 28. Yun, X.Y., Tang, B.Y., Murdock, G., Mcgill, B., Mattie, B. (2017). Radon bearing water protection in underground uranium mining – A case study. International journal of mining science and technology, 27(4), 599-603.
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-636fdb8d-635e-4d4d-bff1-3585f8d2d47a
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