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Technogenic Impact of Sulphide-Containing Wastes Produced by Ore Mining and Processing at the Ozernoe Deposit: Investigation and Forecast

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper provides an assessment of the potential technogenic impact of sulphide-containing wastes produced by ore extraction and processing at the Ozernoe deposit, which is currently at the initial stage of mining. The analysed averaged samples of ore and wastes of mining and processing were obtained in the course of semi-industrial experimental preproduction. The results of monitoring studies in the area of sulphide-containing dumps formed at an exploring mine in the 1960s were used for assessing a potential hazard of the wastes. The origin of acid mine drainage is described. Advantages and shortcomings of tests assessing acid mine drainage are considered. The used express-method of acid indication allows to reliably determine the risk of acid mine drainage by the values of acidic and neutralising potentials formed by rocks. An estimation of acid mine drainage formation and heavy metal migration is carried out at dumps of the exploring mine. The forecast of environmental impact is given for the future wastes of mining and processing at the Ozernoe deposit.
Rocznik
Strony
127--133
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
  • Saint-Petersburg Mining University, Vasilievskiy Island 21st, Line 2, 199106, Saint-Petersburg, Russian Federation, mpash1963@yandex.ru
  • Saint-Petersburg Mining University, Vasilievskiy Island 21st, Line 2, 199106, Saint-Petersburg, Russian Federation, petrova9@yandex.ru
Bibliografia
  • 1. Alekseenko, V.A., Maximovich, N.G., Alekseenko, A.V., 2017a. Geochemical Barriers for Soil Protection in Mining Areas. In: Bech, J., Bini, C., Pashkevich, M.A. (eds.) Assessment, Restoration and Reclamation of Mining Influenced Soils, Elsevier Inc. In press. DOI: 10.1016/B978-0-12-809588-1.00009-8
  • 2. Alekseenko, V.A., Shvydkaya, N.V., Alekseenko, A.V., Yashchinin, S.B., 2017b. Natural Restoration of Mining Influenced Soils in the Northwestern Caucasus, Russia. In: Bech, J., Bini, C., Pashkevich, M.A. (eds.) Assessment, Restoration and Reclamation of Mining Influenced Soils, Elsevier Inc. In press. DOI: 10.1016/B978-0-12-809588-1.00010-4
  • 3. Beloglazov, I.I., Suslov, A.P. Pedro, A.A., 2014. Change of constant component of phase voltage during melting of zirconium corundum. Tsvetnye Metally, 5, 86-89.
  • 4. Bwapwa, J.K., Jaiyeola, A.T., Chetty, R., 2017. Bioremediation of acid mine drainage using algae strains: A review. South African Journal of Chemical Engineering. In press. DOI: 10.1016/j.sajce.2017.06.005
  • 5. Cehlár, M., Domaracká, L., Šimko, I., Puzder, M., 2016. Mineral resource extraction and its political risks. Production Management and Engineering Sciences – Scientific Publication of the International Conference on Engineering Science and Production Management, ESPM 2015, 39-43.
  • 6. Favas, P.J.C., Sarkar, S.K., Rakshit, D., Venkatachalam, P., Prasad, M.N.V., 2016. Chapter 17: Acid Mine Drainages from Abandoned Mines: Hydrochemistry, Environmental Impact, Resource Recovery, and Prevention of Pollution. Environmental Materials and Waste, 413-462.
  • 7. Fedorets, N.G., Medvedeva, M.V., 2009 Methods of studying soils of urban areas. Petrozavodsk, 84 p.
  • 8. Grudev, A.P., 1995. Interactions in ecosystems: the factor of effective stability of minerals. Geological research and protection of mineral resources, 2, 3-8.
  • 9. Gumenik, I.L., Matveev, A.S., Panasenko, A.I., 1988. Classification of technogenic formations in open mining. Gornyi Zhurnal, 12.
  • 10. Han, Y.-S., Youm, S.-J., Oh, C., Cho, Y.-C., Ahn, J.S., 2017. Geochemical and eco-toxicological characteristics of stream water and its sediments affected by acid mine drainage. Catena, 148, 52-59.
  • 11. Kefeni, K.K., Msagati, T.A.M., Mamba, B.B., 2017. Acid mine drainage: Prevention, treatment options, and resource recovery: A review. Journal of Cleaner Production, 151, 475-493.
  • 12. Nleya, Y., Simate, G. S., Ndlovu, S., 2016. Sustainability assessment of the recovery and utilisation of acid from acid mine drainage. Journal of Cleaner Production, 113, 17-27.
  • 13. Pashkevich, M.A., 2017. Classification and Environmental Impact of Mine Dumps. In: Bech, J., Bini, C., Pashkevich, M.A. (eds.) Assessment, Restoration and Reclamation of Mining Influenced Soils, Elsevier Inc. In press. DOI: 10.1016/B978-0-12-809588-1.00001-3
  • 14. Pashkevich, M.A., Petrova, T.A., 2015. New isolation materials for technogenic deposits conservation. Obogashchenie Rud 6, pp. 46-49.
  • 15. Pashkevich, M.A., Petrova, T.A., 2017. Reclamation by Containment: Polyethylene-Based Solidification. In: Bech, J., Bini, C., Pashkevich, M.A. (eds.) Assessment, Restoration and Reclamation of Mining Influenced Soils, Elsevier Inc. In press. DOI: 10.1016/B978-0-12-809588-1.00008-6
  • 16. Pavolová, H., Khouri, S., Cehlár, M., Domaracká, L., Puzder, M., 2016. Modelling of copper and zinc adsorption onto zeolite. Metalurgija, 55 (4), 712-714.
  • 17. Simate, G.S., Ndlovu, S., 2014. Acid mine drainage: Challenges and opportunities. Journal of Environmental Chemical Engineering, 2 (3), 1785-1803.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-36f94212-ef7f-4066-ad21-00ffa1b885b1
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