Ways to Increase the Productivity and Quality of Mine Water Treatment
Abstract
The article deals with the rational use of water resources, as well as protecting the environment from the harmful effects of human industrial activities. The aim of the study is to find ways to increase the productivity of existing treatment facilities and the quality of mine water treatment. The proposed solutions will lead to a reduction in discharges of untreated mine waters, a reduction in environmental payments and consumption of fresh water.
References
[1] Doll, B. 2012. Mine water treatment solutions for discharge and Re-Use. Paper presented at CRETE 2012: 3rd International Conference on Industrial and Hazardous Waste Management, September 12-14, in Greece, Chania.
[2] Dunbabin, J.S., and Bowmer, K.H. 1992. Potential Use of Construction Wetlands for Treatment of Industrial Wastewaters Containing Metals. Science of the Total Environment, 111(2-3): 151-168.
[3] Likhachev, N.I., Larin, I.I. et al. 1981. Sewerage of Populated Areas and Industrial Enterprises. Moscow: Stroyizdat.
[4] Plekhanova, V.A., and Tsyba, A.A. 2016. Increasing the Efficiency of Mine Water Treatment in the Mining Industry. Innovations in Science, 56(2): 38-44.
[5] Plumlee, G.S., Smith, K.S., Montour, M.R., Ficklin, W.H., and Mosier, E.L. 1999. Geologic Controls on the Composition of Natural Waters and Mine Waters Draining Diverse Mineral-Deposit Types. Reviews in Economic Geology, 6: 373-432.
[6] Shestopalova, Z.S. (Ed.) 1990. Design of Facilities for Wastewater Treatment. Moscow: Stroyizdat.
[7] Sokolov, E.M., Sheinkman, L.E., Dergunov, D.V., and Denisov, V.N. 2015. Economic Model for Estimating the Costs of Mine Water Treatment Using Advanced Oxidation Processes Technology. Mountain Magazine, 9: 46-48.
[8] Teleuyev, G.B., Akulich, O.V., Kadyrov, M.A., Ponomarev, A.A., Hasanov, E.L. 2017. Problems of Legal Regulation for Use and Development of Renewable Energy Sources in the Republic of Kazakhstan. International Journal of Energy Economics and Policy, 7(5): 296-301.
[9] Yakovlev, S.V., and Voronov, Yu.V. 2002. Water Discharge and Wastewater Treatment. Moscow: ASV.
*** RF Government Resolution No. 344 of 12.06.2003 "On the Norms of Charges for Emissions of Pollutants into the Atmosphere by Stationary and Mobile Sources, Discharges of Pollutants into Surface and Underground Water Objects, Placement of Production and Consumption Wastes."
[2] Dunbabin, J.S., and Bowmer, K.H. 1992. Potential Use of Construction Wetlands for Treatment of Industrial Wastewaters Containing Metals. Science of the Total Environment, 111(2-3): 151-168.
[3] Likhachev, N.I., Larin, I.I. et al. 1981. Sewerage of Populated Areas and Industrial Enterprises. Moscow: Stroyizdat.
[4] Plekhanova, V.A., and Tsyba, A.A. 2016. Increasing the Efficiency of Mine Water Treatment in the Mining Industry. Innovations in Science, 56(2): 38-44.
[5] Plumlee, G.S., Smith, K.S., Montour, M.R., Ficklin, W.H., and Mosier, E.L. 1999. Geologic Controls on the Composition of Natural Waters and Mine Waters Draining Diverse Mineral-Deposit Types. Reviews in Economic Geology, 6: 373-432.
[6] Shestopalova, Z.S. (Ed.) 1990. Design of Facilities for Wastewater Treatment. Moscow: Stroyizdat.
[7] Sokolov, E.M., Sheinkman, L.E., Dergunov, D.V., and Denisov, V.N. 2015. Economic Model for Estimating the Costs of Mine Water Treatment Using Advanced Oxidation Processes Technology. Mountain Magazine, 9: 46-48.
[8] Teleuyev, G.B., Akulich, O.V., Kadyrov, M.A., Ponomarev, A.A., Hasanov, E.L. 2017. Problems of Legal Regulation for Use and Development of Renewable Energy Sources in the Republic of Kazakhstan. International Journal of Energy Economics and Policy, 7(5): 296-301.
[9] Yakovlev, S.V., and Voronov, Yu.V. 2002. Water Discharge and Wastewater Treatment. Moscow: ASV.
*** RF Government Resolution No. 344 of 12.06.2003 "On the Norms of Charges for Emissions of Pollutants into the Atmosphere by Stationary and Mobile Sources, Discharges of Pollutants into Surface and Underground Water Objects, Placement of Production and Consumption Wastes."
Published
2018-09-09
How to Cite
GUBINA, Natalia. A; YLESIN, Mikhail A.; KARMANOVSKAYA, Natalya V..
Ways to Increase the Productivity and Quality of Mine Water Treatment.
Journal of Environmental Management and Tourism, [S.l.], v. 9, n. 3, p. 423-427, sep. 2018.
ISSN 2068-7729.
Available at: <https://journals.aserspublishing.eu/jemt/article/view/2247>. Date accessed: 23 nov. 2024.
doi: https://doi.org/10.14505//jemt.v9.3(27).03.
Section
Article
Copyright© 2024 The Author(s). Published by ASERS Publishing 2024. This is an open access article distributed under the terms of CC-BY 4.0 license.