PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Use of Biological Adhesive for Effective Dust Suppression in Mining Operations

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This article explores modern methods of reclamation of lands disturbed processes of mining, based on monitoring disturbed lands using unmanned aircraft and dusty surfaces coated biologically active adhesive, biological foam. In the article new highly efficint methods of remote monitoring of environment components are considered on based of unmanned aircrafts. For monitoring, it is suggested to draw complexes based of small unmanned aircraft vehicle, equipped with special equipment (a digital camera, a thermal imaging camera, dust meter). Land reclamation on the biological stage is encouraged by using new bioadhesives, developed on the basis of polysaccharides and various microorganisms. This composition helps reduce the consumption of fertilizers, pesticides and other components, pioneer in growing crops on dusty surfaces in the disturbed lands. As a result of such an event, dust discharge from the surface technogenic structures is reduced up to 10 times.
Rocznik
Strony
9--14
Opis fizyczny
Bibliogr. 10 poz., rys.
Twórcy
  • National Mineral Resources University (Mining University), Vasilyevsky Island 21 line d.2, Saint-Petersburg, 199106, Russia
  • National Mineral Resources University (Mining University), Vasilyevsky Island 21 line d.2, Saint-Petersburg, 199106, Russia
  • National Mineral Resources University (Mining University), Vasilyevsky Island 21 line d.2, Saint-Petersburg, 199106, Russia
Bibliografia
  • 1. Danilov A.S., Smirnov Y.D., Pashkevich M.A. 2015. The System of the Ecological Monitoring of Environment which is Based on the Usage of UAV. Russian Journal of Ecology, 6 (1), 14–19.
  • 2. Danilov A.S., Smirnov Y.D., Petrova T.A., Pashkevich M.A. 2015. Using drones of preconstruction monitoring conducting in mining enterprise. International Journal of Ecology and Development, 30 (1), 24–35.
  • 3. Paskevich M.A., Kremcheev E.A., Korelsky D.S., Petrova T.A., Smirnov Y.D. 2013. RF patent No. 2536789, Moscow, Federal Institute of Industrial Property.
  • 4. Shtin S.M. 2005. Lake sapropel and their integrated development. Publisher Moscow Mining University.
  • 5. Shuvalov Y.V. and Smirnov Y.D. 2006. RF patent No. 2277326. Moscow, Federal Instituteof Industrial Property.
  • 6. Shuvalov Y.V., Bulbashev A.I., Smirnov Y.D., Rusak O.E. 2007. RF patent No. 2338355. Moscow, Federal Institute of Industrial Property.
  • 7. Smirnov Y.D. and Ivanov A.V. 2013. Assessing the impact of the mine on the environment and ways to prevent the spread of major pollution. Anthropogenic transformation of the natural environment: scientific lecturing meeting memory N.F. Reimers and F.R. Shtilmark, 12-14 December 2013, Publi-sher Perm State University, Russia, 207–210.
  • 8. Smirnov Y.D. and Ivanov A.V. 2013. Dust suppression process management in enterprises mineral complex. Problems of Geology and Exploitation of Mineral Resources, Proceedings of the XVIIth International Symposium Academician M.A. Usov, 7-11 April 2013, Publisher Tomsk State University, Russia, 547–548.
  • 9. Vocelko S., Dankevich V., Dankevich L., Litvinchuk O., Patika V. 2011. New highly efficient sticky EPAA-10. Zerno, Vol. 2, 29–36.
  • 10. Vocelko S., Gnidec V., Dankevich L., Litvinchuk O., Patika V. 2011. UA Patent No. 60637. Kiev, State Department of Intellectual Property.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a6a19c74-1e73-4ee3-b875-2ee9a59cf197
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.