Название |
Способы профилактики внезапных
выбросов породы и газа при ведении горных работ
на сверхглубоких горизонтах рудника «Интернациональный» |
Информация об авторе |
Мирнинско-Нюрбинский ГОК АК «АЛРОСА», Мирный, Россия
Вьюников А. А., зам. главного инженера – руководитель службы ППДЯ ПР «Интернациональный» Ворожцов С. Г., зам. руководителя службы ППДЯ ПР «Интернациональный», VorozhtsovSeG@alrosa.ru
Ковешников П. Ю., зам. главного инженера по геотехнике – начальник отдела ГеоТМ
АК «АЛРОСА», Москва, Россия Пуль Э. К., главный геотехник |
Ключевые слова |
Рудник «Интернациональный», газодинамические явления, внезапные выбросы, напряжения, передовое законтурное торпедирование, передовое скважинное торпедирование, контроль эффективности, взрывная отбойка, взрывные работы, эксплуатационный блок |
Библиографический список |
1. Pul E. K., Zakharov N. E., Losovskaya Yu. V., Ivanov P. S. Development and pilot testing of activities aimed to prevent adverse consequences of gasdynamic phenomena at the Internatsionalnaya pipe. Gornyi Zhurnal. 2020. No. 1. pp. 104–108. 2. Vyunikov A. A., Vorozhtsov S. G., Pul E. K., Khoyutanova N. V. Underground operations in Internatsionalny mine rock mass susceptible to gas dynamic phenomena. Gornyi Zhurnal. 2021. No. 1. pp. 76–80. 3. Andreyko S. S. Current situation connected with gas-dynamic phenomena in operating potassium mines. Gornoe ekho. 2019. No. 2(75). pp. 82–89. 4. Smirnov V. G. The factor of outburst hazard of coal seams zones, conditioned by coal particles size. Izvestiya vuzov. Gornyi zhurnal. 2019. No. 6. pp. 51–59. 5. Federal standards and regulations on industrial safety : Instruction on prediction of gas dynamic phenomena and monitoring of rock mass in coal mining. Approved by Rostekhnadzor, Order No. 515 dated 10 December 2020. Available at: https://docs.cn td.ru/document/573264171 (accessed: 15.06.2023). 6. Olkhovichenko A. E. Prediction of outburst hazard in coal seams. Moscow : Nedra, 1982. 278 p. 7. Petukhov I. M., Linkov A. M. Mechanic of rock bumps and discharges. Moscow : Nedra, 1983. 279 p. 8. Eremenko V. A., Aksenov Z. V., Pul E. K., Zakharov N. E. MAP 3D analysis of secondary stress field structure in face area of development headings in rockburst-hazardous seams. GIAB. 2020. No. 5. pp. 91–104. 9. Eremenko V. A. Urgent issues of geotechnical supervision of mining. II Technical Conference on Geomechanics. Gornyi Zhurnal. 2020. No. 3. pp. 97–101. 10. Dyrdin V. V., Kim T. I., Fofanov A. A., Plotnikov E. A., Voronkina N. M. Gas emission under coal mechanical degradation. Izvestiya vuzov. Gornyi zhurnal. 2019. No. 5. pp. 44–53. 11. Szlązak N., Piergies K. Method for determining the effectiveness of inertisation of selfheating places in goaf of longwall in hard coal mines. Selected issues related to mining and clean coal technology. Krakow : Agencja Wydawniczo-Poligraficzna ART-TEKST, 2016. pp. 383–390. 12. Shengyong Hu, Zhen Li, Guorui Feng, Guang Xu, Tongqiang Xia et al. Changes on methane concentration after CO2 injection in a longwall gob: A case study. Journal of Natural Gas Science and Engineering. 2016. Vol. 29. pp. 550–558.
13. Brune J. F., Saki S. A. Prevention of gob ignitions and explosions in longwall mining usi ng dynamic seals. International Journal of Mining Science and Technology. 2017. Vol. 27. pp. 999–1003. 14. Jianwei Cheng. Explosions in Underground Coal Mines. Risk Assessment and Control. Cham : Springer, 2018. 208 p. 15. Kissell F. N. Handbook for Methane Control in Mining. Information Circular/2006. Pittsburgh : Department of Health and Human Services, 2006. 188 p. 16. Özsarıkamı S. E. The usage areas of the pyrotechnic rock breaker cartridges and the peak particle velocity estimation in the related rock formation. Proceedings of the 8th Drilling and Blasting Symposium. Istanbul, 2015. 17. Álvarez-Fernández M.-I., Prendes-Gero M.-B., Peñas-Espinosa J.-C., González-Nicieza C. Innovative techniques in underground mining for the prevention of gas dynamic phenomena. Energies. 2021. Vol. 14, Iss. 16. 5205. 18. Dingqi Li. Hydraulic drill hole reaming technology with large flow and draining of coal mine gas. International Journal of Mining Science and Technology. 2019. Vol. 29, Iss. 6. pp. 925–932. |