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Ecology-Economical Assessment of new Reclamation Method for Currently Working Technogenic Massifs

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
One of the most relevant problems of the mining industry is the need to reduce the negative impact of technogenic massifs formed by wastes of extraction and processing of mineral raw materials. This problem has a significant meaning for currently used massifs, because traditional ways of reclamation are not suitable for them. The article describes the results of a scientific study on the development of the most efficient reclamation method for currently used technogenic massifs. Described in detail the main results of the field observations, methods and equipment of laboratory experiments conducted to determine agro-chemical properties of the soil and optimal composition of binder agent. The article also provides ecological and economic assessment of the proposed method of reclamation. The study was conducted on the example of the real technogenic massif, formed by wastes of phosphorus ore processing.
Rocznik
Strony
57--63
Opis fizyczny
Bibliogr. 21 poz., tab., rys.
Twórcy
  • Saint-Petersburg Mining University, Vasilyevsky Island, 21st line 2, 199106 Saint-Petersburg, Russia
autor
  • Saint-Petersburg Mining University, Vasilyevsky Island, 21st line 2, 199106 Saint-Petersburg, Russia
Bibliografia
  • 1. Cherepovitsyn A.E., Tsvetkov P.S. 2016. Methodical Approach to Evaluation of the Russian Peat Deposits Exploitation Attractiveness Based on Geology-Technological Criteria. International Journal of Applied Engineering Research, 11(7), 5072–5078.
  • 2. Cherepovitsyn A.E., Fedoseev S.V., Teslya A.B., Vyboldina E.Y. 2015. Analysis of production and consumption of rare-earth metals in the EU and the BRICS. Tsvetnye Metally, (5), 5–10. DOI: 10.17580/tsm.2015.05.01
  • 3. Didenko N., Kunze K., Skripnuk D. 2015. Russian Export Strategy and Social Sector: Consequences of Resource-Oriented Exports on Population of Russia. Mediterranean Journal of Social Sciences. Part. 6, No. 5. Supplement 2, 473–481.
  • 4. Environmental camera Q-SUN Xe-3. The tests for lightfastness and weathering. URL: http://www. qualicont.ru/products/qlab/qsun/ (07.08.2016).
  • 5. Fedorec N.G., Medvedeva M.V. 2009. The methodology of soil research of urbanized territories. Petrozavodsk: Karelian research centre of Russian Academy, pp. 84.
  • 6. Golovanov A.I., Zimin F.M., Smetanin V.I. (2015) Reclamation of disturbed lands. “DEER” publisher, Moscow, pp. 336.
  • 7. GOST 11501-78. Petroleum bitumens. Method for determination of depth of needle penetration (Russia). URL: http://vsegost.com/Catalog/46/4657. shtml (06.08.2016).
  • 8. GOST 11505-75. Petroleum bitumen. Method for determination of ductility (Russia). URL: http://vsegost.com/Catalog/16/16661.shtml (06.08.2016).
  • 9. GOST 11506-73. Petroleum bitumen. The method of the determination of softening point by ring and ball (Russia). URL: http://vsegost.com/Catalog/83/8324.shtml (06.08.2016).
  • 10. GOST 17.4.4.02-84. Methods of soil sampling and sample preparation for chemical, bacteriological, helminthological analysis» (Russia). URL: http://vsegost.com/Catalog/29/29438.shtml (06.08.2016).
  • 11. GOST 28168-89. Sampling of soils» (Russia). URL: http://vsegost.com/Catalog/38/38689.shtml (06.08.2016).
  • 12. Kapelkina L.P. 1993. Environmental aspects of the optimization of technogenic massifs. Saint Petersburg. Science PROPO. pp. 190.
  • 13. Kozlov A.V., Fedoseev S.V., Cherepovitsyn A.E., Gutman S.S., Zaichenko I.M., Marinina O.A., Rytova E.V., P.S. Tsvetkov, Tochilo M.V. 2016. Integrated development of the economic space of the Russian Arctic. Monograph, pp. 315.
  • 14. Kozlov A., Gutman S., Zaychenko I., Rytova E., Nijinskaya P. (2015) Environmental management on the basis of Complex Regional Indicators Concept: Case of the Murmansk region. IOP Conference Series: Materials Science and Engineering, 91 (1). DOI: 10.1088/1757-899X/91/1/012073.
  • 15. Lyubimova A.A., Medvedev P.M. 1970. Experience of fixing vegetation dusty tailings of ANOF-1 combine „Apatite”. Vegetation and industrial pollution. Sverdlovsk. Sciences of the USSR Publisher, 104–111.
  • 16. Oleynikov A.G., Storozhenko N.D. 1989. Compositions for fixing dusty surfaces of technogenic massifs. Non-ferrous Metallurgy (scientific and technical journal) No. 10. Ore and Metals, pp. 61–64.
  • 17. Ponomarenko T.V., Fedoseev S.V., Korotkiy S.V., Belitskaya N.A. 2016. Managing the Implementation of Strategic Projects in the Industrial Holding. Indian Journal of Science and Technology, 9(14), DOI: 10.17485/ijst/2016/v9i14/91517.
  • 18. Scientific instrument base of the laboratory of Environmental monitoring of the National Mineral Resources University (Mining University). URL: http://spmi.ru/nsciarticle/nsciarticle_13473 (06.08.2016).
  • 19. State report 2015. On condition and protection of the environment of the Russian Federation in 2015. URL: http://www.ecogosdoklad.ru/2015/default. aspx (06.08.2016).
  • 20. Strizhenok A.V., Korelskiy D.S. 2015. Assessment of the anthropogenic impact in the area of tailings storage of the apatite-nepheline ores. Pollution Research, 34(4), 809–811.
  • 21. Teslya A., Cherepovitsyn A., Vyboldina E., Fedoseev S., Kozmenko S. 2015. The concept of economic growth of the construction industry in St. Petersburg. MATEC Web of Conferences, 53, 01005. DOI: dx.doi.org/10.1051/matecconf/20165301005
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b4c2f36e-2742-4426-b1d3-a202647c42ba
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