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Warianty tytułu
Języki publikacji
Abstrakty
The article describes harmful factors from the environmental point of view that accompany almost all stages of the production of non-ferrous metals. Due to the fact that this industry requires large volume of water, these factors require special attention when cleaning wastewater. The contamination of wastewater by non-ferrous metallurgy is characterized by metal ions, particulate pollutants, acids, SAS, etc. A common feature of all these substances is harmfulness, however, they are often very aggressive and toxic. The article focuses on the possible use of hidrocarboaluminates calcium as an active ion exchanger for cleanup wastewater metallurgical production.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
16--20
Opis fizyczny
Bibliogr. 14 poz., tab., rys.
Twórcy
autor
- 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. Beloglazov I.N., Vorobiov А.G. 2000. Metallurgical technologies and ecology. Ore and metals, Мoskow.
- 2. Babenkov Е.D. 1977. Water treatment coagulants. Science, 355.
- 3. Dosch W., Zur Strassen H. 1967. Zem.Klark-Gips, 20, 392–401.
- 4. Коrnееv V.I., Sizyakov V.М., Аndrееv V.V. 1986. Improving the quality of alumina and by-products in the processing of nepheline. Мetallurgy, 115.
- 5. Milovanov L.V. 1971. Treatment and use of wastewater enterprises of nonferrous metallurgy. Мetallurgy, 383.
- 6. Sizyakovа Е.V. 2006. Expanding the range of products when complex processing of nepheline based on the use of hydrocarboncontaminated calcium. Proceedings of the Mining Institute. New technologies in metallurgy, chemistry, enrichment and the environment, 169, 185–190.
- 7. Sizyakovа Е.V. 2006. On the role of hydrocarboncontaminated calcium in improvement of technology of production of alumina from nepheline. Proceedings of the Mining Institute. New technologies in metallurgy, chemistry, enrichment and the environment, 169, 178–184.
- 8. Turskiy Y.I. Filippov I.V. 1967. The industrial wastewater treatment. Chemistry, 330.
- 9. Veytser Y.I., Mints D.M. 1975. High molecular wezight flocculants in water treatment processes. Stroyizdat, 191.
- 10. Zakirov S.N. 1988. Multidimensional and multicomponent filtration. Nedra, 334.
- 11. Zapolsky А.К., Baran А.А. 1987. Coagulants and flocculants in water treatment processes. Chemistry, 204.
- 12. Klimentenok G.G. 2002. Ph.D. Thesis, StPGMI (ТU), Saint-Petersburg.
- 13. Sizyakov V.М. 1983. Doctoral dissertation, LGI, Leningrad.
- 14. Sizyakovа Е.V., Beloglazov I.N. 2000. The use of a multifunctional coagulant for wastewater treatment of industrial enterprises. Proc. International Scientific Conference Ecological and Hydrometeorological Problems of Large Cities And Industrial Zones, 146.
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-30b97ca1-ae78-4a55-b653-6cb409b89374