Санкт-Петербургский горный университет, Санкт-Петербург, Россия:

Зубов В. П., профессор кафедры разработки месторождений полезных ископаемых, д-р техн. наук, spggi_zubov@mail.ru
Анисимов К. А., аспирант

Показан практический опыт использования известных технологий подземной отработки подкарьерных запасов кимберлитовых трубок. Отмечены основные факторы, влияющие на безопасность и эффективность подземных горных работ под защитными породными и рудными подушками. Отмечено, что в защитных подушках содержится значительная масса алмазосодержащей руды, исчисляемая миллионами тонн. Сделан вывод, что дальнейшая отработка Восточного и Западного рудных тел трубки «Удачная» АК «АЛРОСА» в соответствии с ранее принятыми проектнымиреш ениями может привести к потере значительных запасов алмазосодержащей руды. Предложена технология ведения подземных горных работ, позволяющая создать необходимые условия для безопасной отработки руды, заключенной в рудной и рудопородных подушках на завершающей стадии отработки рудных тел.

1. Sokolov I. V., Antipin Yu. G., Nikitin I. V. Basic principles and assessment criteria of technological strategy for underground mining in transition zones. GIAB. 2017. No. 9. pp. 151–160.
2. Litvinenko V. S., Petrov E. I., Vasilevskaya D. V., Yakovenko A. V., Naumov I. A. et al. Assessment of the role of the state in the management of mineral resources. Journal of Mining Institute. 2023. DOI: 10.31897/PMI.2022.100
3. Nikitin I. V. Optimization the parameters of opening in underground development of the kimberlite deposit underlying reserves. Problemy nedropolzovaniya. 2017. No. 1. pp. 21–28.
4. Jakubec J., Legacé D., Boggis B., Clark L. M., Lewis P. A. Underground mining at Ekati and Diavik diamond mines. Caving 2018 : Fourth International Symposium on Block and Sublevel Caving. Perth : Australian Centre for Geomechanics, 2018. pp. 73–88.
5. Trubetskoy K. N., Galchenko Yu. P., Kalabin G. V. Methodology for Creation and Application of Nature-Like Mining Technologies in Development of Mineral Resources in the Arctic. Journal of Mining Science. 2019. Vol. 55, No. 3. pp. 391–398.
6. Tishkov M. Evaluation of caving as a mining method for the Udachnaya underground diamond mine project. Caving 2018 : Fourth International Symposium on Block and Sublevel Caving. Perth : Australian Centre for Geomechanics, 2018. pp. 835–846.
7. Kaplunov D. R., Aynbinder I. I., Fedotenko V. S., Yukov V. A. Underground ore mining technologies: Current challenges, sustainable development and transition to a new technological paradigm. Gornyi Zhurnal. 2021. No. 9. pp. 4–11. DOI: 10.17580/gzh.2021.09.01
8. Sklyarov E. V., Alekseev S. V., Egorov K. N., Alekseeva L. P., Kozyreva E. A. et al. Specifics of primary diamond deposit mining in difficult geological conditions in the eastern Arctic. Russian Academy of Sciences, 2014. Available at: https://www.ras.ru/FStorage/download.aspx?id=42ea960d-52f1-4259-886a-eda0e6bcac6e (accessed: 15.12.2022).
9. Naidoo P., Stiefenhofer J., Field M., Dobbe R. Recent advances in the geology of Koffiefontein Mine, Free State Province, South Africa. Lithos. 2004. Vol. 76, Iss. 1-4. pp. 161–182.
10. Morton K. L. Comparison of Designs for the Dewatering of Coal, Gold and Diamond Mines in Southern Africa. International Mine Water Conference 2009. Pretoria, 2009. pp. 272–283.
11. Preece C. A., Liebenberg B. Cave management at Finsch Mine. The Journal of the Southern African Institute of Mining and Metallurgy. 2007. Vol. 107, Iss. 12. pp. 775–781.
12. Creamer M. Zest WEG Group delivers R200 m electrical infrastructure solution at Petra’s Cullinan diamond mine. 2018. Available at: https://www.engineeringnews.co.za/article/zest-weg-group-delivers-r200m-electrical-infrastructure-solution-at-petrascullinan-diamond-mine-2018-11-23-1) (accessed: 15.12.2022).
13. Linde O., Epstein A., Kravchenko S., Rentmeesters K. Brilliant Under Pressure: The Global Diamond Industry 2020–21. Bain & Company, Inc., 2021. Available at: https://www.bain.com/link/4f87f921c98d42eb934c61efa4d6c4f9.aspx (accessed: 15.12.2022).
14. Petrov A. N. Analysis data on introduction of room-and-pillar with backfilling in Aikhal mine. GIAB. 2015. No. 12. pp. 31–38.
15. Kolganov V. F., Akishev A. N., Drozdov A. V. Mining-geological peculiarities of primary deposits of Yakutian diamonds. Mirny : Mirninskaya typographiya, 2013. 568 p.
16. Melnik V., Grechishkin P., Gornostaev V., Shcherbakov V. Increasing the stability of mine stopes by injection hardening of the near-contour mass. IOP Conference Series: Earth and Environmental Science. 2021. Vol. 684. 012013. DOI: 10.1088/1755-1315/684/1/012013
17. Petriko E. A. Assessment of impacts of accidental air-and-fuel mixture detonations on human body. Safety in Elimination of Emergency After-Effects : Collected Works. Voronezh : Voronezhskiy institut Gosudarstvennoy protivopozharnoy sluzhby MChS Rossii, 2012. pp. 91–93.
18. Savenko S. K., Gurin A. A., Malyi P. S. Air shock waves in underground mines. Moscow : Nedra, 1973. 153 p.
19. PB 03-553–03. United safety rules during the underground mining of ore, non-metallic and placer mineral deposits. Iss. 33. Series 03. Inter-branch documents for the issues of industrial safety and soil protection. Moscow : NTTs Promyshlennaya bezopasnost, 2009. 200 p.
20. Kostrovitskiy S. I. What is kimberlite? Proceedings of VI International School on Geosciences. Odessa : I.S.E.S., 2010. pp. 77–79.
21. Drozdov A. V. Mining-and-geological and engineering problems in construction of Udachny underground mine. GIAB. 2015. No. 2. pp. 125–131.
22. Kaplunov D. R., Rylnikova M. V., Kalmykov V. N., Petrov Yu. A., Suslov V. A. Combined geotechnology during development of diamond-bearing deposit of Udachnaya pipe. Gornaya promyshlennost. 2005. No. 4. pp. 22–26.
23. Serebryakov E. V., Gladkov A. S. Geological and structural characteristics of deep-level rock mass of the Udachnaya pipe deposit. Journal of Mining Institute. 2021. Vol. 250. pp. 512–525.
24. Ilin A. V., Sinchuk E. V. Associated use of natural highly mineralized brines of deep horizons during underground mining of the Udachnaya kimberlite pipe as a hydromineral raw materials. Geology and Mineral Resources of Russian Northeast : X All-Russian Conference with International Participation. Yakutsk : ID SVFU, 2020. pp. 469–474.
25. Drozdov A. V. Features of deep-level geology of Udachnaya Pipe. GIAB. 2011. No. 3. pp. 153–165.
26. Sidorov D. V., Ponomarenko T. V., Kosukhin N. I. Geodynamic safety management toward sustainable development of Severouralsk Bauxite Mine. Gornyi Zhurnal. 2021. No. 1. pp. 81–85. DOI: 10.17580/gzh.2021.01.14
27. Sedurin N. M., Drozdov A. V. Problems in construction of Udachny Mine. GIAB. 2011. No. 6. pp. 25–33.
28. Eremenko V. A., Seryakov V. M. The peculiarities of redistribution of rock mass during mining the deposits under the pipe Udachnaya by chamber and pillar system. GIAB. 2011. No. 2. pp. 298–304.
29. Drozdov A. V., Melnikov A. I. Structural features of multiple pha se kimberlite pipes. Marksheyderiya i nedropolzovanie. 2009. No. 1(39). pp. 31–38.

30. Barton N., Grimstad E. The Q-System following Twenty Years of Application in NMT Support Selection. Felsbau. 1994. Vol. 12, No. 6. pp. 428–436.
31. Barton N., Lien R., Lunde J. Engineering Classification of Rock Masses for the Design of Tunnel Support. Rock Mechanics. 1974. Vol. 6, No. 4. pp. 189–236.
32. Using the Q-system. Rock Mass classification and support design : Handbook. Oslo : NGI, 2015. 54 p.
33. Neustroev A. P. Methods to predict temperature and humidity of protective cushion in mining of ore reserves under open pit mine bottom in permafrost. Nauka i obrazovanie segodnya. 2016. No. 6(7). pp. 45–47.
34. Avdeev A. N., Zoteev O. V., Sosnovskaya E. L. Geomechanical situation prediction in transition from open to underground mining of steeply dipping ore body by systems with caving. GIAB. 2021. No. 5-2. pp. 6–15.
35. Kovalenko A. A., Tishkov M. V. Evaluation of the Udachnaya pipe deposit underground mining using caving system. GIAB. 2017. No. 4. pp. 117–128.
36. Petrova L. V., Nikolaev V. V. Selecting optimized mining system with uncontrolled caving and undercutting for Udachnaya pipe. Innovatsii. Nauka. Obrazovanie. 2021. No. 36. pp. 1451–1460.
37. Balek A. E., Sashurin A. D. Problem of evaluation of natural stress-strain state of rock mass during development of mineral resources. GIAB. 2016. Special issue 21. Problems of complex mastering of georesources. pp. 9–23.
38. Kovalenko A. A., Tishkov M. V. The evaluation of the Udachnaya pipe deposit underground mining using caving system. GIAB. 2016. No. 12. pp. 134–135.
39. Sokolov I. V., Smirnov A. A., Antipin Yu. G., Nikitin I. V., Tishkov M. V. Substantiation of Protective Cushion Thickness in Mining under Open Pit Bottom with the Caving Methods at Udachnaya Pipe. Journal of Mining Science. 2018. Vol. 54, No. 2. pp. 226–236.
40. Bokiy I. B., Zoteev O. V., Pul V. V. Analysis of rock cushion subsidence during mining with caving in western section of the Udachnaya pipe. Gornyi Zhurnal. 2019. No. 2. pp. 43–47. DOI: 10.17580/gzh.2019.02.08
41. Kiselev V. V., Khokholov Yu. A. Construction, operation and yieldability of protective cushions in underground mining of diamond-bearing ore reserves adjoining open pit bottom in permafrost. Evraziyskoe nauchnoe obedinenie. 2019. No. 11-2(57). pp. 117–120.
42. Slyshenko I. I., Mishedchenko O. A. Reasons of the rock massive deformations when underground developing of Udachnaya pipe ALROSA. Marksheyderiya i nedropolzovanie. 2018. No. 1(93). pp. 24–31.
43. Anisimov K. A., Zubov V. P. Substantiation of the method ensuring the safe development of the pit reserves of kimberlite ore deposits in the conditions of the Udachny mine. Topical Issues of Rational Use of Natural Resources 2021. 2021. E3S Web of Conferences. 2021. Vol. 266. 03013. DOI: 10.1051/e3sconf/202126603013
44. Zubov V. P., Anisimov K. A. Method for developing close-located diamond-containing ore bodies. Patent RF, No. 2755772. Applied: 15.03.2021. Published: 21.09.2021. Bulletin No. 27.
45. Zharovkin A. V. Technological improvement of flyrock distance calculation in large-scale blasting in open pit mines. Journal of Mining Institute. 2009. Vol. 180. pp. 136–140.
46. Marysyuk V. P., Sabyanin G. V., Trofimov A. V., Kolganov A. V. Methodology of geomechanical block modeling of rock mass in Taimyrsky Mine field. Gornyi Zhurnal. 2022. No. 10. pp. 39–45. DOI: 10.17580/gzh.2022.10.06
47. Pokrovskiy G. I. Blast. 4^th revised and enlarged edition. Moscow : Nedra, 1980. 190 p.
48. Zakharov V. N., Efremovtsev N. N., Fedotenko V. S. Research into man-made impact of rock blasting in surface mining of mineral deposits. Gornaya promyshlennost. 2022. No. 6. pp. 61–68. DOI: 10.30686/1609-9192-2022-6-61-68
49. Chernigovskiy A. A. Directional blasting in mining and construction. 2^nd revised and enlarged edition. Moscow : Nedra, 1976. 319 p.