Журналы →  Gornyi Zhurnal →  2021 →  №2 →  Назад

YAKUTNIPROALMAZ INSTITUTE, ALROSA
Название Full-scale tests and application of NPGM emulsion explosive at ALROSA
DOI 10.17580/gzh.2021.02.07
Автор Bondarenko I. F., Zyryanov I. V., Nikitin R. Ya.
Информация об авторе

Yakutniproalmaz Institute, ALROSA, Mirny, Russia:

I. F. Bondarenko, Academic Secretary, Candidate of Engineering Sciences, bondarenkoif@alrosa.ru
R. Ya. Nikitin, Senior Researcher at Rock Fracture Sector

Mirny Polytechnic Institute (Division), Ammosov North-Eastern Federal University, Mirny, Russia:

I. V. Zyryanov, Head of a Chair, Professor, Doctor of Engineering Sciences

Реферат

ALROSA performs blasting operations mainly using explosives manufactured on the spot. Considering modern trends of using local manufacture explosives, Company’s experience of application of emulsion explosives, as well as prompt introduction of technological innovations, novel process solutions are utilized in manufacture and use of emulsion explosives. To this effect, Udachny Mining and Processing Plant constructed and commissioned a plant to manufacture non-explosive components for emulsion explosives within the Plant’s infrastructure area. Emulsion explosives enable blasting in open pit and underground mines which are assumed hazardous in terms of oil and gas shows. Within the framework of technical upgrading at MMLT-500-PR Plant, the investment project on construction and commissioning of a modular production line to manufacture packaged emulsion explosives has been implemented. The field trials of NPGM grade emulsion explosive has proved the economic and production efficiency of blasting using this explosive in open pit and underground mining. This article presents the results of testing and application of NPGM emulsion explosive during blasting in open pit and underground mines of ALROSA. The outcomes of pilot explosions using this type explosive as the main borehole and chain charges, as well as intermediate detonators in full-scale conditions of an underground mine and in an open pit are described. The proposed technology features higher operational efficiency and is applicable in various geotechnical conditions of mineral mining.

Ключевые слова Packaged emulsion explosives, drilling-and-blasting, intermediate detonator, borehole and chain charges
Библиографический список

1. Bondarenko I. F., Khon V. I., Nikitin R. Ya. Features of using emulsion explosives in open pit kimberlite mines of ALROSA, Advancement of Resource-Saving Technologies in Blasting : Conference Proceedings. Yekaterinburg : IGD UrO RAN, 2012. pp. 155–162.
2. Bondarenko I. F., Khon V. I., Nikitin R. Ya., Vasilev A. V. The features of technology of drilling and blasting operations on the stage of rework of Udachny quarry. Gornyi Zhurnal. 2011. No. 1. pp. 52–54.
3. Bondarenko I. F., Nikitin R. Ya., Kovalevich S. V., Morozov K. E. Development of technology of emulsion explosives use for deviated contour holes at blue earth mines of the diamond mining Company Alrosa. Marksheyderiya i nedropolzovanie. 2018. No. 6(98). pp. 31–34.
4. Overchenko M. N., Mozer S. P. Orica’s equipment and technologies for underground mining. Gornaya promyshlennost. 2019. No. 5(147). pp. 76–79.

5. Baron V. L., Kantor V. Kh. Blasting Technology and Equipment in USA. Moscow : Nedra, 1989. 376 p.
6. Jiping Liu. Liquid Exposives. Heidelberg : Springer, 2015. 344 p.
7. Wang Xuguang. Emulsion Explosives. Beijing : Metallurgical Industry Press, 1994.
8. Sivenkov V. I., Ilyakhin S. V., Maslov I. Yu. Emulsion explosives and non-electric initiation systems. Moscow : Shchit-M, 2013. 317 p.
9. Vozgrin R. A. Improvement of fragmentation quality using smaller diameter borehole charges of emulsion explosives : Dissertation … of Candidate of Engineering Sciences. Saint-Petersburg, 2015. 134 p.
10. Blair D. P. Dynamic response of mine pit walls. International Journal of Rock Mechanics and Mining Sciences. 2018. Vol. 106. pp. 14–19.
11. Malan D. F., Napier J. A. L. Reassessing continuous stope closure data using a limit equilibrium displacement discontinuity model. The Journal of the Southern African Institute of Mining and Metallurgy. 2018. Vol. 118, Iss. 3. pp. 227–234.
12. Yunoshev A. S., Bordzilovskiy S. A., Voronin M. S., Karakhanov S. M., Makarov S. N., Plastinin A. V. Detonation pressure of an emulsion explosive sensitized by polymer microballoons. Combustion, Explosion, and Shock Waves. 2019. Vol. 55, No. 4. pp. 426–433.
13. Viktorov S. D., Zakalinskiy V. M., Shipovskiy I. E., Mingazov R. Ya. New aspect of drilling development and application in modern conditions of mineral deposits exploitation. Izvestiya vuzov. Gornyi zhurnal. 2020. No. 6. pp. 5–13.
14. Gorinov S. A., Maslov I. Yu. Physical and Technical Evaluation of Possibility Using Low-density Explosives in Smooth Blasting. 11th International Symposium on Rock Fragmentation by Blasting. Sydney, 2015. pp. 555–564.
15. Gorinov S. A., Maslov I. Y., Sobina E. P. The Results of Investigation of Oxidizer Phase Structure in Emulsion Explosives. Progress in Detonation Physics. Moscow : Torus Press, 2016. pp. 335–347.
16. Bozorgzadeh N., Escobar M. D., Harrison J. P. Comprehensive statistical analysis of intact rock strength for reliability-based design. International Journal of Rock Mechanics and Mining Sciences. 2018. Vol. 106. pp. 374–387.
17. Nan Jiang, Chuanbo Zhou, Shiwei Lu, Zhen Zhang. Effect of Underground Mine Blast Vibrations on Overlaying Open Pit Slopes: A Case Study for Daye Iron Mine in China. Geotechnical and Geological Engineering. 2018. Vol. 36, Iss. 3. pp. 1475–1489.
18. Ping Zhang, Ering Nordlund, Graham Swan, Changping Yi. Velocity Amplification of Seismic Waves Through Parallel Fractures Near a Free Surface in Fractured Rock: A Theoretical Study. Rock Mechanics and Rock Engineering. 2019. Vol. 52, Iss. 1. pp. 199–213.
19. Sheng Zeng, Shaoping Wang, Bing Sun, Qibing Liu. Propagation Characteristics of Blasting Stress Waves in Layered and Jointed Rock Caverns. Geotechnical and Geological Engineering. 2018. Vol. 36, Iss. 3. pp. 1559–1573.
20. Zeldovich Ya. B., Kompaneets A. S. Theory of detonation : Educational aid. Moscow : Gostekhizdat, 1955. 268 p.

Language of full-text русский
Полный текст статьи Получить
Назад