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Development of Chemosorbent Based on Metallic Waste for Cleaning Mine Water from Molybdenum

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article presents the results of hydrochemical studies of water objects, located in the impact zone of one of the largest mining enterprises in the Russian Federation – JSC “Apatite”. According to the monitoring studies, the source of surface water pollution with molybdenum was determined, geochemical assessment of the molybdenum transformation in the system “ore-bearing rocks – mine water – surface water” was performed. In order to reduce the technogenic load on the surface water located in the considered area, the way of large-tonnage mine waters purification from molybdenum was proposed. The method involves using the chemical sorbent based on waste metals. The method of sewage purification will allow solving one of the key environmental problems of the considered enterprise and, in addition, to improve the environmental situation in the considered area as well as the quality of the local population life.
Rocznik
Strony
42--47
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
  • Saint-Petersburg Mining University, 21st line V.O., 2, 199106 Saint Petersburg, Russian Federation
  • Saint-Petersburg Mining University, 21st line V.O., 2, 199106 Saint Petersburg, Russian Federation
  • Saint-Petersburg Mining University, 21st line V.O., 2, 199106 Saint Petersburg, Russian Federation
Bibliografia
  • 1. Ajeagah G.A., Foto M.S., Njine T., 2010. Application of ciliates population dynamics and physicochemical variables in the assessment of pollution in an equatorial water system. Int. J. Ecol. Dev., 15 (1), 43-53.
  • 2. Al-Khafaji, Y., Prior, T.J., Elsegood, M.R.J., Redshaw, C., 2015. Molybdenum (VI) imido complexes derived from chelating phenols: Synthesis, characterization and ɛ-caprolactone rop capability. Catalysts, 5 (4), 1928-1947.
  • 3. Atlas of Eh-pH diagrams. 2005. Intercomparison of thermodynamic databases. National Institute of Advanced Industrial Science and Technology. Research Center for Deep Geological Environments. Naoto Takeno, pp. 285.
  • 4. Busev A.I. 1962. Analytical chemistry of molybdenum. AN SSSR, Moscow, pp. 305.
  • 5. Buzuku S., Kraslawski A., 2015, Application of morphological analysis to policy formulation for wastewater treatment. Journal of Mining Institute, 214.102-108.
  • 6. Chukhrov F.V. 1978. Mineralogy of the Hibiny massif. Nauka, Moscow, pp. 586.
  • 7. Krainov S.R., Ryzhenko B.B., Shvets V.M. 2004. Geochemistry of groundwater. Theoretical, applied and ecological aspects. Nauka, Moscow, pp. 677.
  • 8. Linnik P.N., . Ignatenko I.I, 2015, Molybdenum in natural surface waters: the content and deportment. Hydrobiological journal, 51 (2), 89-113.
  • 9. Perelman A.I. 1982. Geochemistry of natural waters. Nauka, Moscow, pp. 154.
  • 10. Ramesh Prasad Bhatt, Sanjya Nath Khanal, 2012, A Study on Change in Flow Regime and Discharge Impacts on Water Quality of Hydropower Operation. Int. J. Ecol. Dev., 21 (1), 76-88.
  • 11. Sakovich G.G. 2010. Determination of corrosion resistance of metals in alkaline, neutral and acidic media: methodical recommendations. Biysk, Alt. GOS. Techn. University Press, pp. 39.
  • 12. Thiam A., Jezeque D., Groleau A. et al, 2014. Biogeochemical dynamics of molybdenum in a crater lake: seasonal impact and long-term removal. J. Water Res. Protect, 6, 256-271.
  • 13. Voronov Y.V., Yakovlev S.V. 2006. Water disposal and sewage treatment. Moscow, ASV.
  • 14. Wang D., Aller R.C., Sanudo-Wilhelmy S.A., 2009. A new method for the quantification of different redox-species of molybdenum (V and VI) in seawater. Mar. Chem., 113, 250-256.
  • 15. Xu N., Christodoulatos C., Braida W., 2006. Adsorption of molybdate and tetrathiomolybdate onto pyrite and goethite: effect of pH and competitive anions. Chemosphere 62, 1726-1735.
  • 16. Zelikman A.N. 1970. Molybdenum. Metallurgy, Moscow, pp. 441.
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-195ed7cc-815b-40e6-9415-1104f967258b
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