| Название |
Effect of blasting on seismic activity and dynamic events
in rockburst-hazardous underground mines in Siberia |
| Информация об авторе |
Author 1:
Name & Surname: Kurlenya M. V.
Company: Chinakal Institute of Mining, Siberian Branch, Russian Academy of Sciences (Novosibirsk, Russia)
Work Position: Acting Director
Scientific Degree: Academician RAS
Author 2:
Name & Surname: Eremenko A. A.
Company: Chinakal Institute of Mining, Siberian Branch, Russian Academy of Sciences (Novosibirsk, Russia)
Work Position: Deputy Director for Science
Scientific Degree: Doctor of Engineering Sciences
Contacts: eremenko@ngs.ru
Author 3:
Name & Surname: Bashkov V. I.
Company: Evrazruda (Moscow, Russia)
Work Position: Principal Engineer
|
| Реферат |
Modernization of ore mining in Gornaya Shoria and Khakassia rests upon blast energy control in different technological processes in a mine. Urgency of the related investigations is conditioned by hazard of induced seismic and dynamic events. Long-term experience of drilling-and-blasting proves interaction between strength of induced events, weight of explosive charges, their pattern and blasting sequence. The paper reports studies into influence of large-scale blasting in rockburst-hazardous underground mines in Gornaya Shoria on the local seismic activity and intensity of dynamic events. Correlations are found between the energy and spread of induced seismic events and the parameters, energy and modes of large-scale explosion of blast-hole charges in ore mining. The obtained correlations and the values of interdependent parameters are the tool to control blast energy under specific ground, technical and dynamic conditions in a mine, aimed to ensure seismic safety of mining and performance of residential and other areas under protection, and are recommended to be used in planning and implementation of blasting in mines in Gornaya Shoria and Khakasia. |
| Библиографический список |
1. Dubynin N. G., Kovalenko V. A., Vlasov V. N. et al. Opyt vedeniya sibirskoy tekhnologii dobychi rudy (Experience of Siberian ore extraction technology). Gornyi Zhurnal = Mining Journal. 1975. No. 8. pp. 32–34.
2. Vallina B., Rodriguez-Blanco J. D., Brown A. P., Benning L. G., Blanco, J. A. Enhanced magnetic coercivity of α-Fe2O3 obtained from carbonated 2-line ferrihydrite. Journal of Nanoparticle Research. 2014. DOI: 10.1007/s11051-014-2322-5.
3. Greenhouse S. New Rules Would Cut Silica Dust Exposure. The New York Times. 2013. No. 11.
4. Kurlenya M. V., Eremenko A. A., Tsinker L. M., Shrepp B. V. Tekhnologicheskie problemy razrabotki zhelezorudnykh mestorozhdeniy Sibiri (Technological problems of mining of Siberian iron-ore deposits). Novosibirsk : Nauka, 2002. 112 p.
5. Eremenko A. A. Sovershenstvovanie tekhnologii burovzryvnykh rabot na zhelezorudnykh mestorozhdeniyakh Zapadnoy Sibiri (Improvement of technology of drilling and blasting operations at iron ore deposits of Western Siberia). Novosibirsk : Nauka, 2013. 192 p.
6. Viktorov S. D., Zakalinskiy V. M., Galchenko Yu. P. Parallelno-sblizhennye zaryady kak sredstvo uvelicheniya poleznykh form raboty vzryva (Parallel-close charges as a mean of increasing of valuable charge operation forms). Gornyi Zhurnal = Mining Journal. 2001. No. 12. pp. 38–42.
7. Ramanaidou E. R., Wells M. A. Sedimentary Hosted Iron Ores. Treatise on Geochemistry (Second Edition). Oxford : Elsevier, 2014. pp. 313–355. DOI: 10.1016/B978-0-08-095975-7.01115-3.
8. Dolara P. Occurrence, exposure, effects, recommended intake and possible dietary use of selected trace compounds (aluminium, bismuth, cobalt, gold, lithium, nickel, silver). International Journal of Food Sciences and Nutrition 65. 2014. pp. 911–924. DOI: 10.3109/09637486.2014.937801.
9. Metodicheskie rekomendatsii po primeneniyu skvazhinnykh zaryadov vzryvchatykh veshchestv razlichnoy konfiguratsii v gruppakh pri otboyke rudy v podzemnykh usloviyakh (Methodical recommendations for application of borehole charges of various explosives in the groups during ore crushing in underground conditions). Ministry of ferrous metallurgy of USSR, Soyuzruda, Eastern Scientific-Research Ore-Mining Institute, Industrial Association «Sibruda». Novokuznetsk, 1979. 87 p. (in Russian).
10. Viktorov S. D., Eremenko A. A., Zakalinskiy V. M., Mashukov I. V. Tekhnologiya krupnomasshtabnoy vzryvnoy otboyki na udaroopasnykh rudnykh mestorozhdeniyakh Sibiri (Technology of large-scale blasting at bump-hazard Siberian ore deposits). Novosibirsk : Nauka, 2005. 211 p.
11. Eremenko A. A., Kulikov V. I., Goncharov A. I., Shultaev S. K. Tekhnologiya otrabotki slepogo rudnogo tela na Sheregeshevskom mestorozhdenii (Technology of development of blind ore body at Sheregeshevskoe deposit). Gornyy Informatsionno-Analiticheskiy Byulleten = Mining Informational-Analytical Bulletin. 2012. No. 4. pp. 123–128. |
