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НАУКА И ПРОМЫШЛЕННОСТЬ
ArticleName Перспективные направления развития технологий подземной угледобычи в РФ
DOI 10.17580/gzh.2023.09.01
ArticleAuthor Казанин О. И.
ArticleAuthorData

Санкт-Петербургский горный университет императрицы Екатерины II, Санкт-Петербург, Россия:

Казанин О. И., декан горного факультета, д-р техн. наук, Kazanin_OI@pers.spmi.ru

Abstract

На основе анализа современного состояния и мировых трендов развития горных технологий рассмотрены основные направления подземной угледобычи на шахтах России. Показано, что наибольшие перспективы имеют системы разработки длинными забоями, обеспечивающими лучшие технико-экономические показатели эффективности и безопасности производства. Проанализированы способы подготовки выемочных участков, основные параметры и область применения. Рассмотрены особенности базовых технологий угледобычи (очистные работы, проходка выработок, перемонтаж очистных механизированных комплексов) на шахтах России и США, возможности их модернизации в краткосрочной перспективе. Отмечена важность научного сопровождения развития горных работ на шахтах и обеспечения непрерывного профессионального развития персонала в качестве необходимых условий обеспечения эффективности и безопасности горных работ.

keywords Уголь, шахта, технология, системы разработки, очистная выемка, проходка выработок, перемонтаж оборудования, безопасность, автоматизация
References

1. Plakitkin Yu. A., Plakitkina L. S., Dyachenko K. I. Major trends shaping development of coal industry in the world and in Russia under conditions of low-carbon energy economy: Major trends. Part I. Coal sector development ratio and rates under the influence of major coal market countries. Gornyi Zhurnal. 2022. No. 7. pp. 10–16.
2. Plakitkin Yu. A., Plakitkina L. S., Dyachenko K. I. Major trends shaping development of coal industry in the world аnd in Russia under conditions of low-carbon energy economy. Part II. Low-carbon development as a factor of decline in coal demand and its implications for coal-fired power generation prospects. Gornyi Zhurnal. 2022. No. 8. pp. 17–23.
3. Yanovskiy A. B. Coal: tThe battle for the future. Ugol. 2020. No. 8. pp. 9–14.
4. Coal 2022. Analysis and forecast to 2025. International Energy Agency, 2022. 137 p.
5. Petrenko I. E. Russia's coal industry performance for January – December, 2021. Ugol. 2022. No. 3. pp. 9–24.
6. Petrenko I. E. Russia's coal industry performance for January – December. 2022. Ugol. 2023. No. 3. pp. 21–33.
7. Klishin V. I., Rogova T. B., Shaklein S. V., Pisarenko M. V. Strategic objectives for technological development of the coal industry. Ugol. 2023. No. 3. pp. 52–59.
8. Fiscor S. Production rebounds with fewer faces producing more tons. OEMs adapt service to meet increasing demand. Coal Age. 2022. January/February. pp. 16–23.
9. Fiscor S. Longwall production loses a little steam. Through the use of new technology, operators hope to leave difficult geology in the gob. Coal Age. 2023. January/February. pp. 18–25.
10. Annual report about the activity of the Federal service for ecological, technological and nuclear inspection in 2021. Moscow : NTTs PB, 2022. 407 p.
11. NIOSH Mine and Mine Worker Charts. Centers for Disease Control and Prevention. Available at: https://wwwn.cdc.gov/niosh-mini ng/MMWC (accessed: 09.08.2023).
12. Peng S. S. Longwall mining. 3rd ed. Leiden : CRC Press/Balkema, 2019. 562 p.
13. Zi-Lu Liu, Zhan-Guo Ma, Kazanin O. I., Peng Gong, Ye Li et al. Deformation control technology of gob-side entry retaining with large volume CFST roadway side support in top-coal caving longwall and stability analysis: A case study. Applied Science. 2023. Vol. 13, Iss. 15. 8610. DOI: 10.3390/app13158610
14. Artemev V. B. “SUEK” JSC in 2018—Advanced technologies and innovations in the service of production. Ugol. 2019. No. 3. pp. 4–12.
15. Yutyaev E. P. Present-day challenges and prospects of flat gas containing co al beds underground mining technology. Ugol. 2017. No. 5. pp. 30–36.
16. Yutyaev E. P. Underground longwall mining of gently dipping gas-bearing coal seams. Moscow : Gornaya kniga, 2017. 288 p.

17. Kazanin O. I., Sidorenko A. A., Meshkov A. A. Organizational and technological principles of realization of the modern high productive longwall equipment capacity. Ugol. 2019. No. 12. pp. 4–13. DOI: 10.18796/0041-5790-2019-12-4-13
18. Sidorenko A. A., Dmitriev P. N., Aparin A. G. Preparation of extraction areas for the intensive underground coal mining: tasks and solutions. Ratsionalnoe osvoenie nedr. 2021. No. 6. pp. 36–44.
19. Karpov G. N., Kovalskiy E. R., Nosov A. A. Longwall recovery room erecting method for flat coal seam mining. GIAB. 2022. No. 6-1. pp. 54–67. DOI: 10.25018/0236_1493_2022_61_0_54
20. Sidorenko A. A., Dmitriev P. N., Alekseev V. Yu., Sidorenko S. A. Improvement of technological schemes of mining of coal seams prone to spontaneous combustion and rock bumps. Journal of Mining Institute. 2023. DOI: 10.31897/PMI.2023.37
21. Zubov V. P., Phuc L. Q. Development of resource-saving te chnology for excavation of flat-lying coal seams with tight roof rocks (on the example of the Quang Ninh coal basin mines). Journal of Mining Institute. 2022. Vol. 257. pp. 795–806. DOI: 10.31897/PMI.2022.72
22. Kovalskii E. R., Gromtsev K. V. Development of the technology of stowing the developed space during mining. Journal of Mining Institute. 2022. Vol. 254. pp. 202–209. DOI: 10.31897/PMI.2022.36
23. Zubov V. P., Golubev D. D. Prospects for the use of modern technological solutions in the flat-lying coal seams development, taking into account the danger of the formation of the places of its spontaneous combustion. Journal of Mining Institute. 2021. Vol. 250. pp. 534–541. DOI: 10.31897/PMI.2021.4.6
24. Romanchenko S. B., Naganovskiy Yu. K., Kornev A. V. Innovative ways to control dust and explosion safety of mine workings. Journal of Mining Institute. 2021. Vol. 252. pp. 927–936. DOI: 10.31897/PMI.2021.6.14
25. Federal Rules and Regulations in industrial safety: Coal Mine Safety Regulations. 5th enlarged and revised edition. Moscow : NTTs PB, 2017. Series 05. Documents for Safety, Permitting and Supervisory Actions in Coal Industry. Iss. 40. 198 p.
26. Kabanov E. I. Allowable occupational injury risk assessment in coal mining industry. GIAB. 2022. No. 5. pp. 167–180. DOI: 10.25018/0236_1493_2022_5_0_167
27. Available at: https://docs.cntd.ru/document/456073585?marker=7D20K3 (accessed: 10.08.2023).
28. Available at: https://www.consultant.ru/document/cons_doc_LAW_456410/2ff7a8c72de3994f30496a0ccbb1ddafdaddf518/ (accessed: 15.08.2023).
29. Shabarov A. N., Kuranov A. D. Basic development trends in mining sector in complicating geotechnical conditions. Gornyi Zhurnal. 2023. No. 5. pp. 5–10.
30. Abrashitov A. Yu., Shabarov A. N., Korchak P. A., Kuranov A. D. Dealing with geodynamic safety challenges in cooperation with a mining company: A case-study. Gornyi Zhurnal. 2023. No. 5. pp. 40–48.
31. Ruban A. D., Artemev V. B., Zaburdyaev V. S., Zakharov V. N., Loginov A. K. et al. Preparation and mining of coal seams with high gas content : Reference aid. Moscow : Gornaya kniga, 2010. 500 p.
32. Shuvalov Yu. V., Korshunov G. I., Montikov A. V., Istomin R. S., Sufiyarov A. M. et al. GAS Dynamics and geomechanics of coal massive at high speed of facing. GIAB. 2011. No. 6. pp. 80–88.
33. Slastunov S. V., Yutyaev E. P., Mazanik E. V., Lupiy M. G. Substantiation of technological solutions for the management of gas-allocation on the excavation site at coal preparation coal beds for intensive and safe development. GIAB. 2014. Special issue 3. Industrial safety. pp. 20–28.
34. Arens V. Zh., Boguslavskiy E. I., Gridin O. M., Kreynin E. V., Nebera V. P. et al. Physical and chemical geotechnology : Textbook. Moscow : Gornaya kniga, 2021. 816 p.
35. Peng S. S., Feng Du, Jingyi Cheng, Yang Li. Automation in U.S. longwall coal mining: A state-of-the-art review. International Journal of Mining Science and Technology. 2019. Vol. 29, Iss. 2. pp. 151–159.
36. Guofa Wang, Huaiwei Ren, Guorui Zhao, Desheng Zhang, Zhiguo Wen et al. Research and practice of intelligent coal mine technology systems in China. International Journal of Coal Science & Technology. 2022. Vol. 9. 24. DOI: 10.1007/s40789-022-00491-3
37. Zhdaneev O. V. Technological sovereignty of the Russian Federation fuel and energy complex. Journal of Mining Institute. 2022. Vol. 258. pp. 1061–1078. DOI: 10.31897/PMI.2022.107

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